Metazoans detect and differentiate between innocuous (non-painful) and/or noxious (harmful) environmental cues using primary sensory neurons, which serve as the first node in a neural network that computes stimulus-specific behaviors to either navigate away from injury- causing conditions or to perform protective behaviors that mitigate extensive injury. The ability of an animal to detect and respond to various sensory stimuli depends upon molecular diversity in the primary sensors and the underlying neural circuitry responsible for the relevant behavioral action selection. Recent studies in Drosophila larvae have revealed that somatosensory class III multidendritic (CIII md) neurons function as multimodal sensors regulating distinct behavioral responses to innocuous mechanical and nociceptive thermal stimuli. Recent advances in circuit bases of behavior have identified and functionally validated Drosophila larval somatosensory circuitry involved in innocuous (mechanical) and noxious (heat and mechanical) cues. However, central processing of cold nociceptive cues remained unexplored. We implicate multisensory integrators (Basins), premotor (Down-and-Back) and projection (A09e and TePns) neurons as neural substrates required for cold-evoked behavioral and calcium responses. Neural silencing of cell types downstream of CIII md neurons led to significant reductions in cold-evoked behaviors, and neural co-activation of CIII md neurons plus additional cell types facilitated larval contraction (CT) responses. Further, we demonstrate that optogenetic activation of CIII md neurons evokes calcium increases in these neurons. Finally, we characterize the premotor to motor neuron network underlying cold-evoked CT and delineate the muscular basis of CT response. Collectively, we demonstrate how Drosophila larvae process cold stimuli through functionally diverse somatosensory circuitry responsible for generating stimulus-specific behaviors.

Dataset DOI: 10.5061/dryad.h44j0zpxv

Description of the data and file structure

This dataset includes raw quantitative data for studies described in the accompanying published article: Patel, A.A., Cardona, A., and Cox, D.N. (2025). Neural substrates of cold nociception in Drosophila larva. eLife. Accepted: DOI: https://doi.org/10.7554/eLife.91582.3

The dataset contents include raw quantitative data used to plot figures in the manuscript, including electron microscopy connectomics, calcium imaging (GCaMP/CaMPARI); optogenetics, and neural silencing analyses to map the neural substrates involved in the detection of noxious cold stimuli by Drosophila melanogaster larvae. Refer to the published article's materials and methods section for detailed descriptions of the technical procedures and to the results section of the published article for further context of the experimental findings from these datasets.

Files and variables

File: Single_neuron_activation.xlsx

Description: Impact of activating neurons in the circuit responsible for noxious cold-evoked behavior in Drosophila larva. Data corresponds to Figure 2-figure supplement 2 from published study. Plots the proportion of larvae that exhibit contraction (CT) behavior as a function of time in seconds across control and experimental genetic backgrounds.

Time in seconds: time increments in ~0.033 second increments from zero to five seconds.
w1118 - ATR in the absence of UAS-ChETA: proportion of genetic background control (w1118) larvae exhibiting CT behavior in the absence of all-trans retinal (ATR) and absence of the optogenetic activator (UAS-ChETA).
w1118 + ATR in the absence of UAS-ChETA: proportion of genetic background control (w1118) larvae exhibiting CT behavior in the presence of all-trans retinal (ATR) and absence of the optogenetic activator (UAS-ChETA).
w1118 - ATR in the presence of UAS-ChETA: proportion of genetic background control (w1118) larvae exhibiting CT behavior in the absence of all-trans retinal (ATR) and in the presence of the optogenetic activator (UAS-ChETA).
w1118 + ATR in the presence of UAS-ChETA: proportion of genetic background control (w1118) larvae exhibiting CT behavior in the presence of all-trans retinal (ATR) and the presence of the optogenetic activator (UAS-ChETA).
Empty[GAL4] - ATR in the presence of UAS-ChETA: proportion of GAL4 only control (Empty[GAL4]) larvae exhibiting CT behavior in the absence of all-trans retinal (ATR) and the presence of the optogenetic activator (UAS-ChETA).
Empty[GAL4] + ATR in the presence of UAS-ChETA: proportion of GAL4 only control (Empty[GAL4]) larvae exhibiting CT behavior in the presence of all-trans retinal (ATR) and the presence of the optogenetic activator (UAS-ChETA).
Ch + ATR in the presence of UAS-ChETA: proportion of chordotonal (Ch) neuron GAL4 expressing larvae exhibiting CT behavior in the presence of all-trans retinal (ATR) and the presence of the optogenetic activator (UAS-ChETA).
CIII + ATR in the presence of UAS-ChETA: proportion of class III multidendritic (CIII) neuron GAL4 expressing larvae exhibiting CT behavior in the presence of all-trans retinal (ATR) and the presence of the optogenetic activator (UAS-ChETA).
CIV + ATR in the presence of UAS-ChETA: proportion of class IV multidendritic (CIV) neuron GAL4 expressing larvae exhibiting CT behavior in the presence of all-trans retinal (ATR) and the presence of the optogenetic activator (UAS-ChETA).
All Basin + ATR in the presence of UAS-ChETA: proportion of Basin 1-4 (All Basin) neuron GAL4 expressing larvae exhibiting CT behavior in the presence of all-trans retinal (ATR) and the presence of the optogenetic activator (UAS-ChETA).
Basin 1 + ATR in the presence of UAS-ChETA: proportion of Basin 1 neuron GAL4 expressing larvae exhibiting CT behavior in the presence of all-trans retinal (ATR) and the presence of the optogenetic activator (UAS-ChETA).
Basin 2 + ATR in the presence of UAS-ChETA: proportion of Basin 2 neuron GAL4 expressing larvae exhibiting CT behavior in the presence of all-trans retinal (ATR) and the presence of the optogenetic activator (UAS-ChETA).
Basin 4 + ATR in the presence of UAS-ChETA: proportion of Basin 4 neuron GAL4 expressing larvae exhibiting CT behavior in the presence of all-trans retinal (ATR) and the presence of the optogenetic activator (UAS-ChETA).
A00c + ATR in the presence of UAS-ChETA: proportion of A00c neuron GAL4 expressing larvae exhibiting CT behavior in the presence of all-trans retinal (ATR) and the presence of the optogenetic activator (UAS-ChETA).
A05q + ATR in the presence of UAS-ChETA: proportion of A05q neuron GAL4 expressing larvae exhibiting CT behavior in the presence of all-trans retinal (ATR) and the presence of the optogenetic activator (UAS-ChETA).
Goro + ATR in the presence of UAS-ChETA: proportion of Goro command neuron GAL4 expressing larvae exhibiting CT behavior in the presence of all-trans retinal (ATR) and the presence of the optogenetic activator (UAS-ChETA).
Chair-1 + ATR in the presence of UAS-ChETA: proportion of Chair-1 neuron GAL4 expressing larvae exhibiting CT behavior in the presence of all-trans retinal (ATR) and the presence of the optogenetic activator (UAS-ChETA).
DnB' + ATR in the presence of UAS-ChETA: proportion of Down-and-Back line 1 (DnB') neuron GAL4 expressing larvae exhibiting CT behavior in the presence of all-trans retinal (ATR) and the presence of the optogenetic activator (UAS-ChETA).
DnB'' + ATR in the presence of UAS-ChETA: proportion of Down-and-Back line 2 (DnB'') neuron GAL4 expressing larvae exhibiting CT behavior in the presence of all-trans retinal (ATR) and the presence of the optogenetic activator (UAS-ChETA).
mCSI + ATR in the presence of UAS-ChETA: proportion of mCSI neuron GAL4 expressing larvae exhibiting CT behavior in the presence of all-trans retinal (ATR) and the presence of the optogenetic activator (UAS-ChETA).
A08n + ATR in the presence of UAS-ChETA: proportion of A08n neuron GAL4 expressing larvae exhibiting CT behavior in the presence of all-trans retinal (ATR) and the presence of the optogenetic activator (UAS-ChETA).
A09e + ATR in the presence of UAS-ChETA: proportion of A09e neuron GAL4 expressing larvae exhibiting CT behavior in the presence of all-trans retinal (ATR) and the presence of the optogenetic activator (UAS-ChETA).
R61A01 + ATR in the presence of UAS-ChETA: proportion of R61A01 neuron GAL4 expressing larvae exhibiting CT behavior in the presence of all-trans retinal (ATR) and the presence of the optogenetic activator (UAS-ChETA).

Variables

Presence or absence of optogenetic actuator (ChETA) and plus or minus all-trans retinal (ATR)

File: Optogenetic_actuators.xlsx

Description: Behavioral output resulting from Class III md neuron cold nociceptor-mediated activation using four independent optogenetic activators (ChETA; ChR2 H134R; ChR2; and CsChrimson). Data corresponds to Figure 1-figure supplement 6 from published study. Plots the percentage of larvae that exhibit instantaneous contraction (CT) behavior in response to activation of four independent optogenetic activators expressed in Class III md neurons as a function of time in seconds.

Time in seconds: time increments in ~0.033 second increments from zero to five or zero to ten seconds.
CIII>ChR2_H134R No ATR: percentage of larvae expressing ChR2 H134R in Class III neurons that exhibit instantaneous contraction (CT) behavior as a function of time in seconds in the absence of all-trans retinal (ATR).
CIII>ChR2_H134R + ATR: percentage of larvae expressing ChR2 H134R in Class III neurons that exhibit instantaneous contraction (CT) behavior as a function of time in seconds in the presence of all-trans retinal (ATR).
CIII>ChR2 No ATR: percentage of larvae expressing ChR2 in Class III neurons that exhibit instantaneous contraction (CT) behavior as a function of time in seconds in the absence of all-trans retinal (ATR).
CIII>ChR2 + ATR: percentage of larvae expressing ChR2 in Class III neurons that exhibit instantaneous contraction (CT) behavior as a function of time in seconds in the presence of all-trans retinal (ATR).
CIII>CsChrimson No ATR: percentage of larvae expressing CsChrimson in Class III neurons that exhibit instantaneous contraction (CT) behavior as a function of time in seconds in the absence of all-trans retinal (ATR).
CIII>CsChrimson + ATR: percentage of larvae expressing CsChrimson in Class III neurons that exhibit instantaneous contraction (CT) behavior as a function of time in seconds in the presence of all-trans retinal (ATR).
CIII>ChETA No ATR: percentage of larvae expressing ChETA in Class III neurons that exhibit instantaneous contraction (CT) behavior as a function of time in seconds in the absence of all-trans retinal (ATR).
CIII>ChETA + ATR: percentage of larvae expressing ChETA in Class III neurons that exhibit instantaneous contraction (CT) behavior as a function of time in seconds in the presence of all-trans retinal (ATR).

Variables

Presence or absence of all-trans retinal (ATR). Use of two distinct GAL4 drivers expressing in Class III md neurons (CIII and 83B04) and four independent optogenetic activator transgenes (ChR2 H134R, ChETA, ChR2, and CsChrimson).

File: Neural_silencing_using_TNT.xlsx

Description: Impact of silencing individual neural subtypes that form the cold nociception circuitry in Drosophila larvae. Silencing mediated by cell-type specific expression of tetanus toxin (TnT). Data are reported under four tabs: (1) instantaneous CT%; (2) CT magnitude; (3) CT duration; (4) cumulative response. Data are distributed across numerous figures in the published study which are listed across each of the four tabs.

Tab 1: Instantaneous CT%

Time in seconds: time increments in ~0.033 second increments from zero to five seconds.
w1118: percentage of genetic background control (w1118) larvae that exhibit instantaneous contraction (CT) behavior as a function of time in seconds in the presence of UAS-tetanus toxin (TnT) and noxious cold stimulation.
Empty[GAL4]': percentage of GAL4 only control (Empty[GAL4]' - line 1) larvae that exhibit instantaneous contraction behavior (CT) as a function of time in seconds in the presence of UAS-tetanus toxin (TnT) and noxious cold stimulation.
Empty[GAL4]'': percentage of GAL4 only control (Empty[GAL4]' - line 2) larvae that exhibit instantaneous contraction behavior (CT) as a function of time in seconds in the presence of UAS-tetanus toxin (TnT) and noxious cold stimulation.
Chordotonal: percentage of chordotonal neuron GAL4 expressing larvae that exhibit instantaneous contraction behavior (CT) as a function of time in seconds in the presence of UAS-tetanus toxin (TnT) and noxious cold stimulation.
CIII: percentage of class III (CIII) neuron GAL4 expressing larvae that exhibit instantaneous contraction behavior (CT) as a function of time in seconds in the presence of UAS-tetanus toxin (TnT) and noxious cold stimulation.
CIV: percentage of class IV (CIV) neuron GAL4 expressing larvae that exhibit instantaneous contraction behavior (CT) as a function of time in seconds in the presence of UAS-tetanus toxin (TnT) and noxious cold stimulation.
All Basin: percentage of Basin 1-4 (All Basin) neuron GAL4 expressing larvae that exhibit instantaneous contraction behavior (CT) as a function of time in seconds in the presence of UAS-tetanus toxin (TnT) and noxious cold stimulation.
Basin 1: percentage of Basin 1 neuron GAL4 expressing larvae that exhibit instantaneous contraction behavior (CT) as a function of time in seconds in the presence of UAS-tetanus toxin (TnT) and noxious cold stimulation.
Basin 2: percentage of Basin 2 neuron GAL4 expressing larvae that exhibit instantaneous contraction behavior (CT) as a function of time in seconds in the presence of UAS-tetanus toxin (TnT) and noxious cold stimulation.
Basin 4: percentage of Basin 4 neuron GAL4 expressing larvae that exhibit instantaneous contraction behavior (CT) as a function of time in seconds in the presence of UAS-tetanus toxin (TnT) and noxious cold stimulation.
A00c: percentage of A00c neuron GAL4 expressing larvae that exhibit instantaneous contraction behavior (CT) as a function of time in seconds in the presence of UAS-tetanus toxin (TnT) and noxious cold stimulation.
A05q: percentage of A05q neuron GAL4 expressing larvae that exhibit instantaneous contraction behavior (CT) as a function of time in seconds in the presence of UAS-tetanus toxin (TnT) and noxious cold stimulation.
Goro: percentage of Goro neuron GAL4 expressing larvae that exhibit instantaneous contraction behavior (CT) as a function of time in seconds in the presence of UAS-tetanus toxin (TnT) and noxious cold stimulation.
Chair-1: percentage of Chair-1 neuron GAL4 expressing larvae that exhibit instantaneous contraction behavior (CT) as a function of time in seconds in the presence of UAS-tetanus toxin (TnT) and noxious cold stimulation.
DnB': percentage of Down-and-Back (line 1) (DnB') neuron GAL4 expressing larvae that exhibit instantaneous contraction behavior (CT) as a function of time in seconds in the presence of UAS-tetanus toxin (TnT) and noxious cold stimulation.
DnB'': percentage of Down-and-Back (line 2) (DnB'') neuron GAL4 expressinglarvae that exhibit instantaneous contraction behavior (CT) as a function of time in seconds in the presence of UAS-tetanus toxin (TnT) and noxious cold stimulation.
mCSI: percentage of mCSI neuron GAL4 expressing larvae that exhibit instantaneous contraction behavior (CT) as a function of time in seconds in the presence of UAS-tetanus toxin (TnT) and noxious cold stimulation.
A01d3: percentage of A01d3 neuron GAL4 expressing larvae that exhibit instantaneous contraction behavior (CT) as a function of time in seconds in the presence of UAS-tetanus toxin (TnT) and noxious cold stimulation.
A02e: percentage of A02e neuron GAL4 expressing larvae that exhibit instantaneous contraction behavior (CT) as a function of time in seconds in the presence of UAS-tetanus toxin (TnT) and noxious cold stimulation.
A02f: percentage of A02f neuron GAL4 expressing larvae that exhibit instantaneous contraction behavior (CT) as a function of time in seconds in the presence of UAS-tetanus toxin (TnT) and noxious cold stimulation.
A02g: percentage of A02g neuron GAL4 expressing larvae that exhibit instantaneous contraction behavior (CT) as a function of time in seconds in the presence of UAS-tetanus toxin (TnT) and noxious cold stimulation.
A27k: percentage of A27k neuron GAL4 expressing larvae that exhibit instantaneous contraction behavior (CT) as a function of time in seconds in the presence of UAS-tetanus toxin (TnT) and noxious cold stimulation.
A31k: percentage of A31k neuron GAL4 expressing larvae that exhibit instantaneous contraction behavior (CT) as a function of time in seconds in the presence of UAS-tetanus toxin (TnT) and noxious cold stimulation.
A09e: percentage of A09e neuron GAL4 expressinglarvae that exhibit instantaneous contraction behavior (CT) as a function of time in seconds in the presence of UAS-tetanus toxin (TnT) and noxious cold stimulation.
R61A01: percentage of R61A01 neuron GAL4 expressing larvae that exhibit instantaneous contraction behavior (CT) as a function of time in seconds in the presence of UAS-tetanus toxin (TnT) and noxious cold stimulation.
A08n: percentage of A08n neuron GAL4 expressing larvae that exhibit instantaneous contraction behavior (CT) as a function of time in seconds in the presence of UAS-tetanus toxin (TnT) and noxious cold stimulation.
dILP7: percentage of dILP7 neuron GAL4 expressing larvae that exhibit instantaneous contraction behavior (CT) as a function of time in seconds in the presence of UAS-tetanus toxin (TnT) and noxious cold stimulation.
A02o: percentage of A02o neuron GAL4 expressing larvae that exhibit instantaneous contraction behavior (CT) as a function of time in seconds in the presence of UAS-tetanus toxin (TnT) and noxious cold stimulation.

Variables

Variables include cell-type-specific GAL4 transgenes (e.g. Ch, CIII, CIV) and all were performed in the presence of UAS-tetanus toxin (TnT).

Tab 2: CT magnitude

w1118: average percent change in larval area under noxious cold stimulation for genetic background control (w1118) in the absence of UAS-tetanus toxin (TnT). Each entry represents an individual third instar larva.
Empty[GAL4]': average percent change in larval area under noxious cold stimulation for GAL4 only control (Empty[GAL4]' - line 1) in the presence of UAS-tetanus toxin (TnT). Each entry represents an individual third instar larva.
Empty[GAL4]': average percent change in larval area under noxious cold stimulation for GAL4 only control (Empty[GAL4]'' - line 2) in the presence of UAS-tetanus toxin (TnT). Each entry represents an individual third instar larva.
All Basin: average percent change in larval area under noxious cold stimulation for Basin 1-4 (All Basin) GAL4 driving the expression of UAS-tetanus toxin (TnT). Each entry represents an individual third instar larva.
Basin 1: average percent change in larval area under noxious cold stimulation for Basin 1 GAL4 driving the expression of UAS-tetanus toxin (TnT). Each entry represents an individual third instar larva.
Basin 2: average percent change in larval area under noxious cold stimulation for Basin 2 GAL4 driving the expression of UAS-tetanus toxin (TnT). Each entry represents an individual third instar larva.
Basin 4: average percent change in larval area under noxious cold stimulation for Basin 4 GAL4 driving the expression of UAS-tetanus toxin (TnT). Each entry represents an individual third instar larva.
A00c: average percent change in larval area under noxious cold stimulation for A00c GAL4 driving the expression of UAS-tetanus toxin (TnT). Each entry represents an individual third instar larva.
A05q: average percent change in larval area under noxious cold stimulation for A05q GAL4 driving the expression of UAS-tetanus toxin (TnT). Each entry represents an individual third instar larva.
Goro: average percent change in larval area under noxious cold stimulation for Goro GAL4 driving the expression of UAS-tetanus toxin (TnT). Each entry represents an individual third instar larva.
Chair-1: average percent change in larval area under noxious cold stimulation for Chair-1 GAL4 driving the expression of UAS-tetanus toxin (TnT). Each entry represents an individual third instar larva.
DnB': average percent change in larval area under noxious cold stimulation for Down-and-Back (line 1) (DnB') GAL4 driving the expression of UAS-tetanus toxin (TnT). Each entry represents an individual third instar larva.
DnB'': DnB': average percent change in larval area under noxious cold stimulation for Down-and-Back (line 2) (DnB'') GAL4 driving the expression of UAS-tetanus toxin (TnT). Each entry represents an individual third instar larva.
mCSI: average percent change in larval area under noxious cold stimulation for mCSI GAL4 driving the expression of UAS-tetanus toxin (TnT). Each entry represents an individual third instar larva.
A01d3: average percent change in larval area under noxious cold stimulation for A01d3 GAL4 driving the expression of UAS-tetanus toxin (TnT). Each entry represents an individual third instar larva.
A02e: average percent change in larval area under noxious cold stimulation for A02e GAL4 driving the expression of UAS-tetanus toxin (TnT). Each entry represents an individual third instar larva.
A02f: average percent change in larval area under noxious cold stimulation for A02f GAL4 driving the expression of UAS-tetanus toxin (TnT). Each entry represents an individual third instar larva.
A02g: average percent change in larval area under noxious cold stimulation for A02g GAL4 driving the expression of UAS-tetanus toxin (TnT). Each entry represents an individual third instar larva.
A27k: average percent change in larval area under noxious cold stimulation for A27k GAL4 driving the expression of UAS-tetanus toxin (TnT). Each entry represents an individual third instar larva.
A31k: average percent change in larval area under noxious cold stimulation for A31k GAL4 driving the expression of UAS-tetanus toxin (TnT). Each entry represents an individual third instar larva.
A09e: average percent change in larval area under noxious cold stimulation for A09e GAL4 driving the expression of UAS-tetanus toxin (TnT). Each entry represents an individual third instar larva.
R61A01: average percent change in larval area under noxious cold stimulation for R61A01 GAL4 driving the expression of UAS-tetanus toxin (TnT). Each entry represents an individual third instar larva.
A08n: average percent change in larval area under noxious cold stimulation for A08n GAL4 driving the expression of UAS-tetanus toxin (TnT). Each entry represents an individual third instar larva.
dILP7: average percent change in larval area under noxious cold stimulation for dILP7 GAL4 driving the expression of UAS-tetanus toxin (TnT). Each entry represents an individual third instar larva.
A02o: average percent change in larval area under noxious cold stimulation for A02o GAL4 driving the expression of UAS-tetanus toxin (TnT). Each entry represents an individual third instar larva.

Variables

Variables include cell-type-specific GAL4 transgenes and all were performed in the presence of UAS-tetanus toxin (TnT) with the exception of the w1118 genetic background control.

Tab 3: CT duration

w1118: Duration of contraction (CT) behavioral response (in seconds) to noxious cold stimulation for genetic background control (w1118) in the absence of UAS-tetanus toxin (TnT). Each entry represents an individual third instar larva.
Empty[GAL4]': Duration of contraction (CT) behavioral response (in seconds) to noxious cold stimulation for GAL4 only control (Empty[GAL4]' - line 1) in the presence of UAS-tetanus toxin (TnT). Each entry represents an individual third instar larva.
Empty[GAL4]': Duration of contraction (CT) behavioral response (in seconds) to noxious cold stimulation for GAL4 only control (Empty[GAL4]'' - line 2) in the presence of UAS-tetanus toxin (TnT). Each entry represents an individual third instar larva.
All Basin: Duration of contraction (CT) behavioral response (in seconds) to noxious cold stimulation for Basin 1-4 (All Basin) GAL4 driving the expression of UAS-tetanus toxin (TnT). Each entry represents an individual third instar larva.
Basin 1: Duration of contraction (CT) behavioral response (in seconds) to noxious cold stimulation for Basin 1 GAL4 driving the expression of UAS-tetanus toxin (TnT). Each entry represents an individual third instar larva.
Basin 2: Duration of contraction (CT) behavioral response (in seconds) to noxious cold stimulation for Basin 2 GAL4 driving the expression of UAS-tetanus toxin (TnT). Each entry represents an individual third instar larva.
Basin 4: Duration of contraction (CT) behavioral response (in seconds) to noxious cold stimulation for Basin 4 GAL4 driving the expression of UAS-tetanus toxin (TnT). Each entry represents an individual third instar larva.
A00c: Duration of contraction (CT) behavioral response (in seconds) to noxious cold stimulation for A00c GAL4 driving the expression of UAS-tetanus toxin (TnT). Each entry represents an individual third instar larva.
A05q: Duration of contraction (CT) behavioral response (in seconds) to noxious cold stimulation for A05q GAL4 driving the expression of UAS-tetanus toxin (TnT). Each entry represents an individual third instar larva.
Goro: Duration of contraction (CT) behavioral response (in seconds) to noxious cold stimulation for Goro GAL4 driving the expression of UAS-tetanus toxin (TnT). Each entry represents an individual third instar larva.
Chair-1: Duration of contraction (CT) behavioral response (in seconds) to noxious cold stimulation for Chair-1 GAL4 driving the expression of UAS-tetanus toxin (TnT). Each entry represents an individual third instar larva.
DnB': Duration of contraction (CT) behavioral response (in seconds) to noxious cold stimulation for Down-and-Back (line 1) (DnB') GAL4 driving the expression of UAS-tetanus toxin (TnT). Each entry represents an individual third instar larva.
DnB'': DnB': Duration of contraction (CT) behavioral response (in seconds) to noxious cold stimulation for Down-and-Back (line 2) (DnB'') GAL4 driving the expression of UAS-tetanus toxin (TnT). Each entry represents an individual third instar larva.
mCSI: Duration of contraction (CT) behavioral response (in seconds) to noxious cold stimulationfor mCSI GAL4 driving the expression of UAS-tetanus toxin (TnT). Each entry represents an individual third instar larva.
A01d3: Duration of contraction (CT) behavioral response (in seconds) to noxious cold stimulation for A01d3 GAL4 driving the expression of UAS-tetanus toxin (TnT). Each entry represents an individual third instar larva.
A02e: Duration of contraction (CT) behavioral response (in seconds) to noxious cold stimulation for A02e GAL4 driving the expression of UAS-tetanus toxin (TnT). Each entry represents an individual third instar larva.
A02f: Duration of contraction (CT) behavioral response (in seconds) to noxious cold stimulation for A02f GAL4 driving the expression of UAS-tetanus toxin (TnT). Each entry represents an individual third instar larva.
A02g: Duration of contraction (CT) behavioral response (in seconds) to noxious cold stimulation for A02g GAL4 driving the expression of UAS-tetanus toxin (TnT). Each entry represents an individual third instar larva.
A27k: Duration of contraction (CT) behavioral response (in seconds) to noxious cold stimulation for A27k GAL4 driving the expression of UAS-tetanus toxin (TnT). Each entry represents an individual third instar larva.
A31k: Duration of contraction (CT) behavioral response (in seconds) to noxious cold stimulation for A31k GAL4 driving the expression of UAS-tetanus toxin (TnT). Each entry represents an individual third instar larva.
A09e: Duration of contraction (CT) behavioral response (in seconds) to noxious cold stimulation for A09e GAL4 driving the expression of UAS-tetanus toxin (TnT). Each entry represents an individual third instar larva.
R61A01: Duration of contraction (CT) behavioral response (in seconds) to noxious cold stimulation for R61A01 GAL4 driving the expression of UAS-tetanus toxin (TnT). Each entry represents an individual third instar larva.
A08n: Duration of contraction (CT) behavioral response (in seconds) to noxious cold stimulation for A08n GAL4 driving the expression of UAS-tetanus toxin (TnT). Each entry represents an individual third instar larva.
dILP7: Duration of contraction (CT) behavioral response (in seconds) to noxious cold stimulation for dILP7 GAL4 driving the expression of UAS-tetanus toxin (TnT). Each entry represents an individual third instar larva.
A02o: Duration of contraction (CT) behavioral response (in seconds) to noxious cold stimulation for A02o GAL4 driving the expression of UAS-tetanus toxin (TnT). Each entry represents an individual third instar larva.

Variables

Variables include cell-type-specific GAL4 transgenes and all were performed in the presence of UAS-tetanus toxin (TnT) with the exception of the w1118 genetic background control.

Tab 4: Cumulative Response

Genotype: list of the GAL4 transgenes or controls (genetic background or GAL4 only) used. Corresponds to the same GAL4 transgenes used in Tabs 1-3 of this file.
Cumulative CT%: Cumulative percentage of larvae by genotype that exhibit contraction (CT) behavior in response to noxious cold stimulation in the presence of UAS-tetanus toxin (TnT).
SEP: Standard error of proportion (SEP) by genotype of the cumulative percentage of larvae that exhibit contraction (CT) behavior in response to noxious cold stimulation in the presence of UAS-tetanus toxin (TnT).

Variables

Variables include cell-type-specific GAL4 transgenes and all were performed in the presence of UAS-tetanus toxin (TnT).

File: Neural_coactivation.xlsx

Description: Impact of optogenetic co-activation of neuronal subtypes that are substrates of the circuitry for noxious cold-evoked nociceptive behavior. Data is reported under seven tabs: (1) instantaneous CT; (2) peak CT response; (3) CT duration; (4) CT magnitude; (5) % immobility over time; (6) average immobility; (7) immobility duration. Data are distributed across numerous figures in the published study which are listed across each of the four tabs.

Tab 1: Instantaneous CT%

Time in seconds: time increments in ~0.033 second increments from zero to ten seconds.
CIII: percentage of Class III (CIII) neuron GAL4 expressing larvae that exhibit instantaneous contraction (CT) behavior as a function of time in seconds in the presence of UAS-ChETA for optogenetic activation and blue light stimulation. Each entry represents an individual larva.
Ch: percentage of chordotonal neuron GAL4 expressing larvae that exhibit instantaneous contraction behavior (CT) as a function of time in seconds in the presence of UAS-ChETA for optogenetic activation and blue light stimulation. Each entry represents an individual larva.
CIV: percentage of Class IV (CIV) neuron GAL4 expressing larvae that exhibit instantaneous contraction behavior (CT) as a function of time in seconds in the presence of UAS-ChETA for optogenetic activation and blue light stimulation. Each entry represents an individual larva.
CIII + 83B04: percentage of larvae that exhibit instantaneous contraction behavior (CT) as a function of time in seconds for larvae co-expressing Class III (CIII) GAL4 and 83B04 GAL4 in the presence of UAS-ChETA for optogenetic activation and blue light stimulation. Each entry represents an individual larva.
CIII + Ch: percentage of larvae that exhibit instantaneous contraction behavior (CT) as a function of time in seconds for larvae co-expressing Class III (CIII) GAL4 and chordotonal (Ch) GAL4 in the presence of UAS-ChETA for optogenetic activation and blue light stimulation. Each entry represents an individual larva.
CIII + CIV: percentage of larvae that exhibit instantaneous contraction behavior (CT) as a function of time in seconds for larvae co-expressing Class III (CIII) GAL4 and Class IV (CIV) GAL4 in the presence of UAS-ChETA for optogenetic activation and blue light stimulation. Each entry represents an individual larva.
CIII + Empty GAL4': percentage of larvae that exhibit instantaneous contraction behavior (CT) as a function of time in seconds for larvae co-expressing Class III (CIII) GAL4 and GAL4 only control (Empty[GAL4]' - line 1) in the presence of UAS-ChETA for optogenetic activation and blue light stimulation. Each entry represents an individual larva.
CIII + All Basin: percentage of larvae that exhibit instantaneous contraction behavior (CT) as a function of time in seconds for larvae co-expressing Class III (CIII) GAL4 and Basin 1-4 (All Basin) GAL4 in the presence of UAS-ChETA for optogenetic activation and blue light stimulation. Each entry represents an individual larva.
CIII + Basin 1: percentage of larvae that exhibit instantaneous contraction behavior (CT) as a function of time in seconds for larvae co-expressing Class III (CIII) GAL4 and Basin 1 GAL4 in the presence of UAS-ChETA for optogenetic activation and blue light stimulation. Each entry represents an individual larva.
CIII + Basin 2: percentage of larvae that exhibit instantaneous contraction behavior (CT) as a function of time in seconds for larvae co-expressing Class III (CIII) GAL4 and Basin 2 GAL4 in the presence of UAS-ChETA for optogenetic activation and blue light stimulation. Each entry represents an individual larva.
CIII + Basin 4: percentage of larvae that exhibit instantaneous contraction behavior (CT) as a function of time in seconds for larvae co-expressing Class III (CIII) GAL4 and Basin 4 GAL4 in the presence of UAS-ChETA for optogenetic activation and blue light stimulation. Each entry represents an individual larva.
CIII + A00c: percentage of larvae that exhibit instantaneous contraction behavior (CT) as a function of time in seconds for larvae co-expressing Class III (CIII) GAL4 and A00c GAL4 in the presence of UAS-ChETA for optogenetic activation and blue light stimulation. Each entry represents an individual larva.
CIII + A05q: percentage of larvae that exhibit instantaneous contraction behavior (CT) as a function of time in seconds for larvae co-expressing Class III (CIII) GAL4 and A05q GAL4 in the presence of UAS-ChETA for optogenetic activation and blue light stimulation. Each entry represents an individual larva.
CIII + Goro: percentage of larvae that exhibit instantaneous contraction behavior (CT) as a function of time in seconds for larvae co-expressing Class III (CIII) GAL4 and Goro GAL4 in the presence of UAS-ChETA for optogenetic activation and blue light stimulation. Each entry represents an individual larva.
CIII + Chair-1: percentage of larvae that exhibit instantaneous contraction behavior (CT) as a function of time in seconds for larvae co-expressing Class III (CIII) GAL4 and Chair-1 GAL4 in the presence of UAS-ChETA for optogenetic activation and blue light stimulation. Each entry represents an individual larva.
CIII + DnB': percentage of larvae that exhibit instantaneous contraction behavior (CT) as a function of time in seconds for larvae co-expressing Class III (CIII) GAL4 and Down-and-Back line 1 (DnB') GAL4 in the presence of UAS-ChETA for optogenetic activation and blue light stimulation. Each entry represents an individual larva.
CIII + DnB'': percentage of larvae that exhibit instantaneous contraction behavior (CT) as a function of time in seconds for larvae co-expressing Class III (CIII) GAL4 and Down-and-Back line 2 (DnB'') GAL4 in the presence of UAS-ChETA for optogenetic activation and blue light stimulation. Each entry represents an individual larva.
CIII + mCSI: percentage of larvae that exhibit instantaneous contraction behavior (CT) as a function of time in seconds for larvae co-expressing Class III (CIII) GAL4 and mCSI GAL4 in the presence of UAS-ChETA for optogenetic activation and blue light stimulation. Each entry represents an individual larva.
CIII + A09e: percentage of larvae that exhibit instantaneous contraction behavior (CT) as a function of time in seconds for larvae co-expressing Class III (CIII) GAL4 and A09e GAL4 in the presence of UAS-ChETA for optogenetic activation and blue light stimulation. Each entry represents an individual larva.
CIII + R61A01: percentage of larvae that exhibit instantaneous contraction behavior (CT) as a function of time in seconds for larvae co-expressing Class III (CIII) GAL4 and R61A01 GAL4 in the presence of UAS-ChETA for optogenetic activation and blue light stimulation. Each entry represents an individual larva.
CIII + A08n: percentage of larvae that exhibit instantaneous contraction behavior (CT) as a function of time in seconds for larvae co-expressing Class III (CIII) GAL4 and A08n GAL4 in the presence of UAS-ChETA for optogenetic activation and blue light stimulation. Each entry represents an individual larva.

Variables

Variables include cell-type-specific GAL4 transgenes and all were performed in the presence of all trans retinal as a co-factor for UAS-ChETA activation. Optogenetic light exposure at 5-10 seconds.

Tab 2: peak CT response

GAL4 lines tested: lists the single GAL4 or combinations of GAL4 lines used to measure the average peak CT response with optogenetic blue light activation of UAS-ChETA.
Peak CT %: average peak contraction (CT) behavior response for neuron cell-type-specific optogenetic activation or co-activation.
SEP: standard error or proportion (SEP) for average peak contraction (CT) behavior for neuron cell-type specific optogenetic activation or co-activation.

Variables

Variables include cell-type-specific GAL4 transgenes and all were performed in the presence of all trans retinal as a co-factor for UAS-ChETA activation.

Tab 3: CT duration

CIII + Empty GAL4': contraction (CT) behavior duration in seconds following optogenetic co-activation of UAS-ChETA by Class III (CIII) GAL4 and GAL4 only control line 1 (Empty GAL4'). Each entry represents an individual larva.
CIII + All Basin: contraction (CT) behavior duration in seconds following optogenetic co-activation of UAS-ChETA by Class III (CIII) GAL4 and Basin 1-4 (All Basin) GAL4. Each entry represents an individual larva.
CIII + Basin 1: contraction (CT) behavior duration in seconds following optogenetic co-activation of UAS-ChETA by Class III (CIII) GAL4 and Basin 1 GAL4. Each entry represents an individual larva.
CIII + Basin 2: contraction (CT) behavior duration in seconds following optogenetic co-activation of UAS-ChETA by Class III (CIII) GAL4 and Basin 2 GAL4. Each entry represents an individual larva.
CIII + Basin 4: contraction (CT) behavior duration in seconds following optogenetic co-activation of UAS-ChETA by Class III (CIII) GAL4 and Basin 4 GAL4. Each entry represents an individual larva.
CIII + A00c: contraction (CT) behavior duration in seconds following optogenetic co-activation of UAS-ChETA by Class III (CIII) GAL4 and A00c GAL4. Each entry represents an individual larva.
CIII + A05q: contraction (CT) behavior duration in seconds following optogenetic co-activation of UAS-ChETA by Class III (CIII) GAL4 and A05q GAL4. Each entry represents an individual larva.
CIII + Goro: contraction (CT) behavior duration in seconds following optogenetic co-activation of UAS-ChETA by Class III (CIII) GAL4 and Goro GAL4. Each entry represents an individual larva.
CIII + Chair-1: contraction (CT) behavior duration in seconds following optogenetic co-activation of UAS-ChETA by Class III (CIII) GAL4 and Chair-1 GAL4. Each entry represents an individual larva.
CIII + DnB': contraction (CT) behavior duration in seconds following optogenetic co-activation of UAS-ChETA by Class III (CIII) GAL4 and Down-and-Back line 1 (DnB'). Each entry represents an individual larva.
CIII + DnB'': contraction (CT) behavior duration in seconds following optogenetic co-activation of UAS-ChETA by Class III (CIII) GAL4 and Down-and-Back line 2 (DnB''). Each entry represents an individual larva.
CIII + mCSI: contraction (CT) behavior duration in seconds following optogenetic co-activation of UAS-ChETA by Class III (CIII) GAL4 and mCSI GAL4. Each entry represents an individual larva.
CIII + A09e: contraction (CT) behavior duration in seconds following optogenetic co-activation of UAS-ChETA by Class III (CIII) GAL4 and A09e GAL4. Each entry represents an individual larva.
CIII + R61A01: contraction (CT) behavior duration in seconds following optogenetic co-activation of UAS-ChETA by Class III (CIII) GAL4 and R61A01 GAL4. Each entry represents an individual larva.
CIII + A08n: contraction (CT) behavior duration in seconds following optogenetic co-activation of UAS-ChETA by Class III (CIII) GAL4 and A08n GAL4. Each entry represents an individual larva.

Variables

Variables include cell-type-specific GAL4 transgenes and all were performed in the presence of all trans retinal as a co-factor for UAS-ChETA activation.

Tab 4: CT magnitude

CIII + Empty[GAL4]': average percent change in larval area for GAL4 only control (Empty[GAL4]' - line 1) in the presence of Class III (CIII) GAL4 driven expression of optogenetic activator UAS-ChETA. Each entry represents an individual third instar larva.
CIII + All Basin: average percent change in larval area resulting from CIII GAL4 and Basin 1-4 (All Basin) GAL4 driven co-activation of the optogenetic activator UAS-ChETA. Each entry represents an individual third instar larva.
CIII + Basin 1: average percent change in larval area resulting from CIII GAL4 and Basin 1 GAL4 driven co-activation of the optogenetic activator UAS-ChETA. Each entry represents an individual third instar larva.
CIII + Basin 2: average percent change in larval area resulting from CIII GAL4 and Basin 2 GAL4 driven co-activation of the optogenetic activator UAS-ChETA. Each entry represents an individual third instar larva.
CIII + Basin 4: average percent change in larval area resulting from CIII GAL4 and Basin 4 GAL4 driven co-activation of the optogenetic activator UAS-ChETA. Each entry represents an individual third instar larva.
CIII + A00c: average percent change in larval area resulting from CIII GAL4 and A00c GAL4 driven co-activation of the optogenetic activator UAS-ChETA. Each entry represents an individual third instar larva.
CIII + A05q: average percent change in larval area resulting from CIII GAL4 and A05q GAL4 driven co-activation of the optogenetic activator UAS-ChETA. Each entry represents an individual third instar larva.
CIII + Goro: average percent change in larval area resulting from CIII GAL4 and Goro GAL4 driven co-activation of the optogenetic activator UAS-ChETA. Each entry represents an individual third instar larva.
CIII + Chair-1: average percent change in larval area resulting from CIII GAL4 and Chair-1 GAL4 driven co-activation of the optogenetic activator UAS-ChETA. Each entry represents an individual third instar larva.
CIII + DnB': average percent change in larval area resulting from CIII GAL4 and Down and Back line 1 (DnB') GAL4 driven co-activation of the optogenetic activator UAS-ChETA. Each entry represents an individual third instar larva.
CIII + DnB'': average percent change in larval area resulting from CIII GAL4 and Down and Back line 2 (DnB'') GAL4 driven co-activation of the optogenetic activator UAS-ChETA. Each entry represents an individual third instar larva.
CIII + mCSI: average percent change in larval area resulting from CIII GAL4 and mCSI GAL4 driven co-activation of the optogenetic activator UAS-ChETA. Each entry represents an individual third instar larva.
CIII + A09e: average percent change in larval area resulting from CIII GAL4 and A09e GAL4 driven co-activation of the optogenetic activator UAS-ChETA. Each entry represents an individual third instar larva.
CIII + R61A01: average percent change in larval area resulting from CIII GAL4 and R61A01 GAL4 driven co-activation of the optogenetic activator UAS-ChETA. Each entry represents an individual third instar larva.
CIII + A08n: average percent change in larval area resulting from CIII GAL4 and A08n GAL4 driven co-activation of the optogenetic activator UAS-ChETA. Each entry represents an individual third instar larva.

Variables

Variables include cell-type-specific GAL4 transgenes and all were performed in the presence of all trans retinal as a co-factor for UAS-ChETA activation.

Tab 5: percent immobility over time

Time in seconds: time increments in ~0.033 second increments from zero to ten seconds.
CIII: percentage of larvae that exhibit larval immobility following Class III (CIII) GAL4 driven expression of the optogenetic activator, UAS-ChETA. Each entry represents an individual third instar larva.
CIII + 83B04: percentage of larvae that exhibit larval immobility following Class III (CIII) GAL4 and 83B04 GAL4 driven co-expression of the optogenetic activator, UAS-ChETA. Each entry represents an individual third instar larva.
Ch: percentage of larvae that exhibit larval immobility following Chordotonal (Ch) GAL4 driven expression of the optogenetic activator, UAS-ChETA. Each entry represents an individual third instar larva.
CIII + Ch: percentage of larvae that exhibit larval immobility following Class III (CIII) GAL4 and Chordotonal (Ch) GAL4 driven co-expression of the optogenetic activator, UAS-ChETA. Each entry represents an individual third instar larva.
CIV: percentage of larvae that exhibit larval immobility following Class IV (CIV) GAL4 driven expression of the optogenetic activator, UAS-ChETA. Each entry represents an individual third instar larva.
CIII + CIV: percentage of larvae that exhibit larval immobility following Class III (CIII) GAL4 and Class IV (CIV) GAL4 driven co-expression of the optogenetic activator, UAS-ChETA. Each entry represents an individual third instar larva.
CIII + Empty[GAL4']: percentage of larvae that exhibit larval immobility following Class III (CIII) GAL4 and GAL4-only control line 1 (Empty GAL4') driven co-expression of the optogenetic activator, UAS-ChETA. Each entry represents an individual third instar larva.
CIII + All Basin: percentage of larvae that exhibit larval immobility following Class III (CIII) GAL4 and Basin 1-4 (All Basin) GAL4 driven co-expression of the optogenetic activator, UAS-ChETA. Each entry represents an individual third instar larva.
CIII + Basin 1: percentage of larvae that exhibit larval immobility following Class III (CIII) GAL4 and Basin 1 GAL4 driven co-expression of the optogenetic activator, UAS-ChETA. Each entry represents an individual third instar larva.
CIII + Basin 2: percentage of larvae that exhibit larval immobility following Class III (CIII) GAL4 and Basin 2 GAL4 driven co-expression of the optogenetic activator, UAS-ChETA. Each entry represents an individual third instar larva.
CIII + Basin 4: percentage of larvae that exhibit larval immobility following Class III (CIII) GAL4 and Basin 4 GAL4 driven co-expression of the optogenetic activator, UAS-ChETA. Each entry represents an individual third instar larva.
CIII + A00c: percentage of larvae that exhibit larval immobility following Class III (CIII) GAL4 and A00c GAL4 driven co-expression of the optogenetic activator, UAS-ChETA. Each entry represents an individual third instar larva.
CIII + A05q: percentage of larvae that exhibit larval immobility following Class III (CIII) GAL4 and A05q GAL4 driven co-expression of the optogenetic activator, UAS-ChETA. Each entry represents an individual third instar larva.
CIII + Goro: percentage of larvae that exhibit larval immobility following Class III (CIII) GAL4 and Goro GAL4 driven co-expression of the optogenetic activator, UAS-ChETA. Each entry represents an individual third instar larva.
CIII + Chair-1: percentage of larvae that exhibit larval immobility following Class III (CIII) GAL4 and Chair-1 GAL4 driven co-expression of the optogenetic activator, UAS-ChETA. Each entry represents an individual third instar larva.
CIII + DnB': percentage of larvae that exhibit larval immobility following Class III (CIII) GAL4 and Down and Back line 1 (DnB') GAL4 driven co-expression of the optogenetic activator, UAS-ChETA. Each entry represents an individual third instar larva.
CIII + DnB'': percentage of larvae that exhibit larval immobility following Class III (CIII) GAL4 and Down and Back line 2 (DnB'') GAL4 driven co-expression of the optogenetic activator, UAS-ChETA. Each entry represents an individual third instar larva.
CIII + mCSI: percentage of larvae that exhibit larval immobility following Class III (CIII) GAL4 and mCSI GAL4 driven co-expression of the optogenetic activator, UAS-ChETA. Each entry represents an individual third instar larva.
CIII + A09e: percentage of larvae that exhibit larval immobility following Class III (CIII) GAL4 and A09e GAL4 driven co-expression of the optogenetic activator, UAS-ChETA. Each entry represents an individual third instar larva.
CIII + R61A01: percentage of larvae that exhibit larval immobility following Class III (CIII) GAL4 and R61A01 GAL4 driven co-expression of the optogenetic activator, UAS-ChETA. Each entry represents an individual third instar larva.
CIII + A08n: percentage of larvae that exhibit larval immobility following Class III (CIII) GAL4 and A08n GAL4 driven co-expression of the optogenetic activator, UAS-ChETA. Each entry represents an individual third instar larva.

Variables

Variables include cell-type-specific GAL4 transgenes and all were performed in the presence of all trans retinal as a co-factor for UAS-ChETA activation.

Tab 6: average immobility

Empty[GAL4']: average percent change in larval mobility following GAL4-only control line 1 (Empty GAL4') driven expression of the optogenetic activator, UAS-ChETA. Each entry represents an individual third instar larva.
CIII: average percent change in larval mobility following Class III (CIII) GAL4 driven expression of the optogenetic activator, UAS-ChETA. Each entry represents an individual third instar larva.
Ch: average percent change in larval mobility following Chordotonal (Ch) GAL4 driven expression of the optogenetic activator, UAS-ChETA. Each entry represents an individual third instar larva.
CIV: average percent change in larval mobility following Class IV (CIV) GAL4 driven expression of the optogenetic activator, UAS-ChETA. Each entry represents an individual third instar larva.
CIII + Ch: average percent change in larval mobility following Class III (CIII) GAL4 and Chordotonal (Ch) GAL4 driven co-expression of the optogenetic activator, UAS-ChETA. Each entry represents an individual third instar larva.
CIII + 83B04: average percent change in larval mobility following Class III (CIII) GAL4 and Chordotonal (Ch) GAL4 driven co-expression of the optogenetic activator, UAS-ChETA. Each entry represents an individual third instar larva.
CIII + CIV: average percent change in larval mobility following Class III (CIII) GAL4 and Chordotonal (Ch) GAL4 driven co-expression of the optogenetic activator, UAS-ChETA. Each entry represents an individual third instar larva.
CIII + Empty[GAL4']: average percent change in larval mobility following Class III (CIII) GAL4 and GAL4-only control line 1 (Empty GAL4') driven co-expression of the optogenetic activator, UAS-ChETA. Each entry represents an individual third instar larva.
CIII + All Basin: average percent change in larval mobility following Class III (CIII) GAL4 and Basin 1-4 (All Basin) GAL4 driven co-expression of the optogenetic activator, UAS-ChETA. Each entry represents an individual third instar larva.
CIII + Basin 1: average percent change in larval mobility following Class III (CIII) GAL4 and Basin 1 GAL4 driven co-expression of the optogenetic activator, UAS-ChETA. Each entry represents an individual third instar larva.
CIII + Basin 2: average percent change in larval mobility following Class III (CIII) GAL4 and Basin 2 GAL4 driven co-expression of the optogenetic activator, UAS-ChETA. Each entry represents an individual third instar larva.
CIII + Basin 4: average percent change in larval mobility following Class III (CIII) GAL4 and Basin 4 GAL4 driven co-expression of the optogenetic activator, UAS-ChETA. Each entry represents an individual third instar larva.
CIII + A00c: average percent change in larval mobility following Class III (CIII) GAL4 and A00c GAL4 driven co-expression of the optogenetic activator, UAS-ChETA. Each entry represents an individual third instar larva..
CIII + A05q: average percent change in larval mobility following Class III (CIII) GAL4 and A05q GAL4 driven co-expression of the optogenetic activator, UAS-ChETA. Each entry represents an individual third instar larva.
CIII + Goro: average percent change in larval mobility following Class III (CIII) GAL4 and Goro GAL4 driven co-expression of the optogenetic activator, UAS-ChETA. Each entry represents an individual third instar larva.
CIII + Chair-1: average percent change in larval mobility following Class III (CIII) GAL4 and Chair-1 GAL4 driven co-expression of the optogenetic activator, UAS-ChETA. Each entry represents an individual third instar larva.
CIII + DnB': average percent change in larval mobility following Class III (CIII) GAL4 and Down and Back line 1 (DnB') GAL4 driven co-expression of the optogenetic activator, UAS-ChETA. Each entry represents an individual third instar larva.
CIII + DnB'': average percent change in larval mobility following Class III (CIII) GAL4 and Down and Back line 2 (DnB'') GAL4 driven co-expression of the optogenetic activator, UAS-ChETA. Each entry represents an individual third instar larva.
CIII + mCSI: average percent change in larval mobility following Class III (CIII) GAL4 and mCSI GAL4 driven co-expression of the optogenetic activator, UAS-ChETA. Each entry represents an individual third instar larva.
CIII + A09e: average percent change in larval mobility following Class III (CIII) GAL4 and A09e GAL4 driven co-expression of the optogenetic activator, UAS-ChETA. Each entry represents an individual third instar larva.
CIII + R61A01: average percent change in larval mobility following Class III (CIII) GAL4 and R61A01 GAL4 driven co-expression of the optogenetic activator, UAS-ChETA. Each entry represents an individual third instar larva.
CIII + A08n: average percent change in larval mobility following Class III (CIII) GAL4 and A08n GAL4 driven co-expression of the optogenetic activator, UAS-ChETA. Each entry represents an individual third instar larva.

Variables

Variables include cell-type-specific GAL4 transgenes and all were performed in the presence of all trans retinal as a co-factor for UAS-ChETA activation.

Tab 7: immobility duration

Empty[GAL4']: average time in seconds of larval immobility duration following GAL4-only control line 1 (Empty GAL4') driven expression of the optogenetic activator, UAS-ChETA. Each entry represents an individual third instar larva.
Ch: average time in seconds of larval immobility duration following Chordotonal (Ch) GAL4 driven expression of the optogenetic activator, UAS-ChETA. Each entry represents an individual third instar larva.
CIII: average time in seconds of larval immobility duration following Class III (CIII) GAL4 driven expression of the optogenetic activator, UAS-ChETA. Each entry represents an individual third instar larva.
CIV: average time in seconds of larval immobility duration following Class IV (CIV) GAL4 driven expression of the optogenetic activator, UAS-ChETA. Each entry represents an individual third instar larva.
CIII + Ch: average time in seconds of larval immobility duration following Class III (CIII) GAL4 and Chordotonal (Ch) GAL4 driven co-expression of the optogenetic activator, UAS-ChETA. Each entry represents an individual third instar larva.
CIII + 83B04: average time in seconds of larval immobility duration following Class III (CIII) GAL4 and Chordotonal (Ch) GAL4 driven co-expression of the optogenetic activator, UAS-ChETA. Each entry represents an individual third instar larva.
CIII + CIV: average time in seconds of larval immobility duration following Class III (CIII) GAL4 and Chordotonal (Ch) GAL4 driven co-expression of the optogenetic activator, UAS-ChETA. Each entry represents an individual third instar larva.
CIII + Empty[GAL4']: average time in seconds of larval immobility duration following Class III (CIII) GAL4 and GAL4-only control line 1 (Empty GAL4') driven co-expression of the optogenetic activator, UAS-ChETA. Each entry represents an individual third instar larva.
CIII + All Basin: average time in seconds of larval immobility duration following Class III (CIII) GAL4 and Basin 1-4 (All Basin) GAL4 driven co-expression of the optogenetic activator, UAS-ChETA. Each entry represents an individual third instar larva.
CIII + Basin 1: average time in seconds of larval immobility duration following Class III (CIII) GAL4 and Basin 1 GAL4 driven co-expression of the optogenetic activator, UAS-ChETA. Each entry represents an individual third instar larva.
CIII + Basin 2: average time in seconds of larval immobility duration following Class III (CIII) GAL4 and Basin 2 GAL4 driven co-expression of the optogenetic activator, UAS-ChETA. Each entry represents an individual third instar larva.
CIII + Basin 4: average time in seconds of larval immobility duration following Class III (CIII) GAL4 and Basin 4 GAL4 driven co-expression of the optogenetic activator, UAS-ChETA. Each entry represents an individual third instar larva.
CIII + A00c: average time in seconds of larval immobility duration following Class III (CIII) GAL4 and A00c GAL4 driven co-expression of the optogenetic activator, UAS-ChETA. Each entry represents an individual third instar larva..
CIII + A05q: average time in seconds of larval immobility duration following Class III (CIII) GAL4 and A05q GAL4 driven co-expression of the optogenetic activator, UAS-ChETA. Each entry represents an individual third instar larva.
CIII + Goro: average time in seconds of larval immobility duration following Class III (CIII) GAL4 and Goro GAL4 driven co-expression of the optogenetic activator, UAS-ChETA. Each entry represents an individual third instar larva.
CIII + Chair-1: average time in seconds of larval immobility duration following Class III (CIII) GAL4 and Chair-1 GAL4 driven co-expression of the optogenetic activator, UAS-ChETA. Each entry represents an individual third instar larva.
CIII + DnB': average time in seconds of larval immobility duration following Class III (CIII) GAL4 and Down and Back line 1 (DnB') GAL4 driven co-expression of the optogenetic activator, UAS-ChETA. Each entry represents an individual third instar larva.
CIII + DnB'': average time in seconds of larval immobility duration following Class III (CIII) GAL4 and Down and Back line 2 (DnB'') GAL4 driven co-expression of the optogenetic activator, UAS-ChETA. Each entry represents an individual third instar larva.
CIII + mCSI: average time in seconds of larval immobility duration following Class III (CIII) GAL4 and mCSI GAL4 driven co-expression of the optogenetic activator, UAS-ChETA. Each entry represents an individual third instar larva.
CIII + A09e: average time in seconds of larval immobility duration following Class III (CIII) GAL4 and A09e GAL4 driven co-expression of the optogenetic activator, UAS-ChETA. Each entry represents an individual third instar larva.
CIII + R61A01: average time in seconds of larval immobility duration following Class III (CIII) GAL4 and R61A01 GAL4 driven co-expression of the optogenetic activator, UAS-ChETA. Each entry represents an individual third instar larva.
CIII + A08n: average time in seconds of larval immobility durationfollowing Class III (CIII) GAL4 and A08n GAL4 driven co-expression of the optogenetic activator, UAS-ChETA. Each entry represents an individual third instar larva.

Variables

Variables include cell-type-specific GAL4 transgenes and all were performed in the presence of all trans retinal as a co-factor for UAS-ChETA activation.

File: life_stages_silencing_and_activation.xlsx

Description: Impact of Class III md neuron neuronal silencing via tetanus toxin (TnT) expression or Class III activation via UAS-ChETA optogenetic activator expression across first, second, and third larval instar stages. Data are reported under two tabs: (1) CT magnitude; (2) CT duration. These data are presented in Figure 1G and 1H in the published study.

Tab 1: CT magnitude

Control 3rd: average percent change in larval area under noxious cold stimulation for third instar larvae following Class III (CIII) GAL4-driven expression of an inactivated tetanus toxin UAS transgene acting as a control for neural silencing. Each entry represents an individual third instar larva.
Control 2nd: average percent change in larval area under noxious cold stimulation for second instar larvae following Class III (CIII) GAL4-driven expression of an inactivated tetanus toxin UAS transgene acting as a control for neural silencing. Each entry represents an individual second instar larva.
Control 1st: average percent change in larval area under noxious cold stimulation for first instar larvae following Class III (CIII) GAL4-driven expression of an inactivated tetanus toxin UAS transgene acting as a control for neural silencing. Each entry represents an individual first instar larva.
CIII>TnT 3rd: average percent change in larval area under noxious cold stimulation for third instar larvae following Class III (CIII) GAL4-driven expression of an activated tetanus toxin (TnT) UAS transgene leading to neural silencing. Each entry represents an individual third instar larva.
CIII>TnT 2nd: average percent change in larval area under noxious cold stimulation for second instar larvae following Class III (CIII) GAL4-driven expression of an activated tetanus toxin (TnT) UAS transgene leading to neural silencing. Each entry represents an individual second instar larva.
CIII>TnT 1st: average percent change in larval area under noxious cold stimulation for first instar larvae following Class III (CIII) GAL4-driven expression of an activated tetanus toxin (TnT) UAS transgene leading to neural silencing. Each entry represents an individual first instar larva.
Control 3rd - no ATR: average percent change in third instar larval area under Class III (CIII) GAL4 driven optogenetic activator expression in the absence of all trans retinal (ATR). Each entry represents an individual third instar larva.
Control 2nd - no ATR: average percent change in second instar larval area under Class III (CIII) GAL4 driven optogenetic activator expression in the absence of all trans retinal (ATR). Each entry represents an individual second instar larva.
Control 1st - no ATR: average percent change in first instar larval area under Class III (CIII) GAL4 driven optogenetic activator expression in the absence of all trans retinal (ATR). Each entry represents an individual first instar larva.
Control 3rd + ATR: average percent change in third instar larval area under Class III (CIII) GAL4 driven optogenetic activator expression in the presence of all trans retinal (ATR). Each entry represents an individual third instar larva.
Control 2nd + ATR: average percent change in second instar larval area under Class III (CIII) GAL4 driven optogenetic activator expression in the presence of all trans retinal (ATR). Each entry represents an individual second instar larva.
Control 1st + ATR: average percent change in first instar larval area under Class III (CIII) GAL4 driven optogenetic activator expression in the presence of all trans retinal (ATR). Each entry represents an individual first instar larva.
Larval stages: list the larval stages of development investigated, including first (1st); second (2nd); and third (3rd) instar larval stages.
percent change from first instar in response to noxious cold: average percentage change in noxious cold-evoked larval contraction (CT) behavior across second and third instar larval stages relative to first instar.
percent change from first instar in response to optogenetic activation: average percentage change in Class III neuron optogenetic-evoked contraction (CT) behavior across second and third instar larval stages relative to first instar.

Variables

For neural silencing experiments, the presence or absence of an active UAS-inducible tetanus toxin (TnT) expressed in Class III neurons. For neural activation experiments, the presence or absence of all trans retinal as a requisite co-factor for optogenetic activation.

Tab 2: CT duration

Control 3rd: average contraction (CT) behavior duration in seconds under noxious cold stimulation for third instar larvae following Class III (CIII) GAL4-driven expression of an inactivated tetanus toxin UAS transgene acting as a control for neural silencing. Each entry represents an individual third instar larva.
Control 2nd: average contraction (CT) behavior duration in seconds under noxious cold stimulation for second instar larvae following Class III (CIII) GAL4-driven expression of an inactivated tetanus toxin UAS transgene acting as a control for neural silencing. Each entry represents an individual second instar larva.
Control 1st: average contraction (CT) behavior duration in seconds under noxious cold stimulation for first instar larvae following Class III (CIII) GAL4-driven expression of an inactivated tetanus toxin UAS transgene acting as a control for neural silencing. Each entry represents an individual first instar larva.
CIII>TnT 3rd: average contraction (CT) behavior duration in seconds under noxious cold stimulation for third instar larvae following Class III (CIII) GAL4-driven expression of an activated tetanus toxin (TnT) UAS transgene leading to neural silencing. Each entry represents an individual third instar larva.
CIII>TnT 2nd: average contraction (CT) behavior duration in seconds under noxious cold stimulation for third instar larvae following Class III (CIII) GAL4-driven expression of an activated tetanus toxin (TnT) UAS transgene leading to neural silencing. Each entry represents an individual third instar larva.
CIII>TnT 1st: average contraction (CT) behavior duration in seconds under noxious cold stimulation for third instar larvae following Class III (CIII) GAL4-driven expression of an activated tetanus toxin (TnT) UAS transgene leading to neural silencing. Each entry represents an individual third instar larva.
Control 3rd - no ATR: average contraction (CT) behavior duration in seconds under Class III (CIII) GAL4 driven optogenetic activator expression in the absence of all trans retinal (ATR). Each entry represents an individual third instar larva.
Control 2nd - no ATR: average contraction (CT) behavior duration in seconds under Class III (CIII) GAL4 driven optogenetic activator expression in the absence of all trans retinal (ATR). Each entry represents an individual second instar larva.
Control 1st - no ATR: average contraction (CT) behavior duration in seconds under Class III (CIII) GAL4 driven optogenetic activator expression in the absence of all trans retinal (ATR). Each entry represents an individual first instar larva.
Control 3rd + ATR: average contraction (CT) behavior duration in seconds under Class III (CIII) GAL4 driven optogenetic activator expression in the presence of all trans retinal (ATR). Each entry represents an individual third instar larva.
Control 2nd + ATR: average contraction (CT) behavior duration in seconds under Class III (CIII) GAL4 driven optogenetic activator expression in the presence of all trans retinal (ATR). Each entry represents an individual second instar larva.
Control 1st + ATR: average contraction (CT) behavior duration in seconds under Class III (CIII) GAL4 driven optogenetic activator expression in the presence of all trans retinal (ATR). Each entry represents an individual first instar larva.
Larval stages: list the larval stages of development investigated, including first (1st); second (2nd); and third (3rd) instar larval stages.
percent change from first instar in response to noxious cold: average percentage change in noxious cold-evoked larval contraction (CT) behavior duration across second and third instar larval stages relative to first instar.
percent change from first instar in response to optogenetic activation: average percentage change in Class III neuron optogenetic-evoked contraction (CT) behavior duration across second and third instar larval stages relative to first instar.

Variables

For neural silencing experiments, the presence or absence of an active UAS-inducible tetanus toxin (TnT) expressed in Class III neurons. For neural activation experiments, the presence or absence of all trans retinal as a requisite co-factor for optogenetic activation.

File: CIII_gcamp_and_head_withdrawal.xlsx

Description: Raw data for Figure 1 figure supplement 4C demonstrating that Class III md neurotransmitter release is required for cold-evoked mouth hook retraction in Drosophila larvae as measured by GCaMP6 calcium imaging in the presence or absence of tetanus toxin (TnT).

Larvae (N value): represents the N value for larvae tested under each condition where the genotypes are GAL4[19-12]>GCaMP6 plus or minus a UAS-tetanus toxin (TnT) transgene.
Control-Stimulation 1: time in seconds for delay in larval mouth hook retraction upon noxious cold stimulation in the absence of tetanus toxin (TnT).
Control-Stimulation 2: time in seconds for delay in larval mouth hook retraction upon noxious cold stimulation in the absence of tetanus toxin (TnT).
Control-Stimulation 3: time in seconds for delay in larval mouth hook retraction upon noxious cold stimulation in the absence of tetanus toxin (TnT).
CIII>TnT - Stimulation 1: time in seconds for delay in larval mouth hook retraction upon noxious cold stimulation in the presence of tetanus toxin (TnT).
CIII>TnT - Stimulation 2: time in seconds for delay in larval mouth hook retraction upon noxious cold stimulation in the presence of tetanus toxin (TnT).
CIII>TnT - Stimulation 3: time in seconds for delay in larval mouth hook retraction upon noxious cold stimulation in the presence of tetanus toxin (TnT).

Variables

Presence or absence of genetically-encoded tetanus toxin (TnT) expression in Class III md neurons.

File: EM_connectome.xlsx

Description: Electron microscope connectivity matrices. Plots synaptic connections between presynaptic and postsynaptic neurons or muscle groups that form the cold nociceptive circuitry in Drosophila third instar larvae. Data are reported under two tabs: (1) absolute synaptic connections; (2) proportion of synaptic input; (3) PMN to MN connectivity. Data are distributed across numerous figures in the published study.

Tab 1: absolute synaptic connections

neuron subtypes: list names of all somatosensory, premotor, projection and motor neuron (MN) subtypes analyzed for the absolute number of synaptic connections based on electron microscope (EM) connectome dataset of the third instar larva from Drosophila (https://neurophyla.mrc-lmb.cam.ac.uk/).
Ch: absolute (total) number of synaptic connections that Chordotonal (Ch) neurons receive from somatosensory, premotor, projection and motor neuron subtypes.
CIII: absolute (total) number of synaptic connections that Class III (CIII) neurons receive from somatosensory, premotor, projection and motor neuron subtypes.
CIV: absolute (total) number of synaptic connections that Class IV (CIV) neurons receive from somatosensory, premotor, projection and motor neuron subtypes.
Basin 1: absolute (total) number of synaptic connections that Basin 1 neurons receive from somatosensory, premotor, projection and motor neuron subtypes.
Basin 2: absolute (total) number of synaptic connections that Basin 2 neurons receive from somatosensory, premotor, projection and motor neuron subtypes.
Basin 3: absolute (total) number of synaptic connections that Basin 3 neurons receive from somatosensory, premotor, projection and motor neuron subtypes.
Basin 4: absolute (total) number of synaptic connections that Basin 4 neurons receive from somatosensory, premotor, projection and motor neuron subtypes.
A00c: absolute (total) number of synaptic connections that A00c neurons receive from somatosensory, premotor, projection and motor neuron subtypes.
A05q: absolute (total) number of synaptic connections that A05q neurons receive from somatosensory, premotor, projection and motor neuron subtypes.
Goro: absolute (total) number of synaptic connections that Goro neurons receive from somatosensory, premotor, projection and motor neuron subtypes.
A01d3: absolute (total) number of synaptic connections that A01d3 neurons receive from somatosensory, premotor, projection and motor neuron subtypes.
A02e: absolute (total) number of synaptic connections that A02e neurons receive from somatosensory, premotor, projection and motor neuron subtypes.
A02f: absolute (total) number of synaptic connections that A02f neurons receive from somatosensory, premotor, projection and motor neuron subtypes.
A02g: absolute (total) number of synaptic connections that A02g neurons receive from somatosensory, premotor, projection and motor neuron subtypes.
A02h: absolute (total) number of synaptic connections that A02h neurons receive from somatosensory, premotor, projection and motor neuron subtypes.
A02m: absolute (total) number of synaptic connections that A02m neurons receive from somatosensory, premotor, projection and motor neuron subtypes.
A02n: absolute (total) number of synaptic connections that A02n neurons receive from somatosensory, premotor, projection and motor neuron subtypes.
A27k: absolute (total) number of synaptic connections that A27k neurons receive from somatosensory, premotor, projection and motor neuron subtypes.
A31k: absolute (total) number of synaptic connections that A31k neurons receive from somatosensory, premotor, projection and motor neuron subtypes.
Chair-1: absolute (total) number of synaptic connections that Chair-1 neurons receive from somatosensory, premotor, projection and motor neuron subtypes.
DnB: absolute (total) number of synaptic connections that Down-and-Back (DnB) neurons receive from somatosensory, premotor, projection and motor neuron subtypes.
A02o: absolute (total) number of synaptic connections that A02o neurons receive from somatosensory, premotor, projection and motor neuron subtypes.
A08n: absolute (total) number of synaptic connections that A08n neurons receive from somatosensory, premotor, projection and motor neuron subtypes.
A09e: absolute (total) number of synaptic connections that A09e neurons receive from somatosensory, premotor, projection and motor neuron subtypes.
A09o: absolute (total) number of synaptic connections that A09o neurons receive from somatosensory, premotor, projection and motor neuron subtypes.
A10j: absolute (total) number of synaptic connections that A10j neurons receive from somatosensory, premotor, projection and motor neuron subtypes.
dILP7: absolute (total) number of synaptic connections that dILP7 neurons receive from somatosensory, premotor, projection and motor neuron subtypes.
TePn04: absolute (total) number of synaptic connections that TePn04 neurons receive from somatosensory, premotor, projection and motor neuron subtypes.
TePn05: absolute (total) number of synaptic connections that TePn05 neurons receive from somatosensory, premotor, projection and motor neuron subtypes.
TePn19: absolute (total) number of synaptic connections that TePn19 neurons receive from somatosensory, premotor, projection and motor neuron subtypes.
dorsal longitudinal (DL) MN: absolute (total) number of synaptic connections that dorsal longitudinal (DL) motor neurons (MN) receive from somatosensory, premotor, projection and motor neuron subtypes.
doral oblique (DO) MN: absolute (total) number of synaptic connections that dorsal oblique (DO) motor neurons (MN) receive from somatosensory, premotor, projection and motor neuron subtypes.
transverse MN: absolute (total) number of synaptic connections that transverse motor neurons (MN) receive from somatosensory, premotor, projection and motor neuron subtypes.
ventral longitudinal (VL) MN: absolute (total) number of synaptic connections that ventral longitudinal (VL) motor neurons (MN) receive from somatosensory, premotor, projection and motor neuron subtypes.
ventral oblique (VO) MN: absolute (total) number of synaptic connections that ventral oblique (VO) motor neurons (MN) receive from somatosensory, premotor, projection and motor neuron subtypes.
ventral abdominal (VA) MN: absolute (total) number of synaptic connections that ventral abdominal (VA) motor neurons (MN) receive from somatosensory, premotor, projection and motor neuron subtypes.

Tab 2: proportion of synaptic input

neuron subtypes: list names of all somatosensory, premotor, projection and motor neuron (MN) subtypes analyzed for proportion of synaptic input based on electron microscope (EM) connectome dataset of the third instar larva from Drosophila (https://neurophyla.mrc-lmb.cam.ac.uk/).
Ch: proportion of total synaptic input that Chordotonal (Ch) neurons receive from somatosensory, premotor, projection and motor neuron subtypes.
CIII: proportion of total synaptic input that Class III (CIII) neurons receive from somatosensory, premotor, projection and motor neuron subtypes.
CIV: proportion of total synaptic input that Class IV (CIV) neurons receive from somatosensory, premotor, projection and motor neuron subtypes.
Basin 1: proportion of total synaptic input that Basin 1 neurons receive from somatosensory, premotor, projection and motor neuron subtypes.
Basin 2: proportion of total synaptic input that Basin 2 neurons receive from somatosensory, premotor, projection and motor neuron subtypes.
Basin 3: proportion of total synaptic input that Basin 3 neurons receive from somatosensory, premotor, projection and motor neuron subtypes.
Basin 4: proportion of total synaptic input that Basin 4 neurons receive from somatosensory, premotor, projection and motor neuron subtypes.
A00c: proportion of total synaptic input that A00c neurons receive from somatosensory, premotor, projection and motor neuron subtypes.
A05q: proportion of total synaptic input that A05q neurons receive from somatosensory, premotor, projection and motor neuron subtypes.
Goro: proportion of total synaptic input that Goro neurons receive from somatosensory, premotor, projection and motor neuron subtypes.
A01d3: proportion of total synaptic input that A01d3 neurons receive from somatosensory, premotor, projection and motor neuron subtypes.
A02e: proportion of total synaptic input that A02e neurons receive from somatosensory, premotor, projection and motor neuron subtypes.
A02f: proportion of total synaptic input that A02f neurons receive from somatosensory, premotor, projection and motor neuron subtypes.
A02g: proportion of total synaptic input that A02g neurons receive from somatosensory, premotor, projection and motor neuron subtypes.
A02h: proportion of total synaptic input that A02h neurons receive from somatosensory, premotor, projection and motor neuron subtypes.
A02m: proportion of total synaptic input that A02m neurons receive from somatosensory, premotor, projection and motor neuron subtypes.
A02n: proportion of total synaptic input that A02n neurons receive from somatosensory, premotor, projection and motor neuron subtypes.
A27k: proportion of total synaptic input that A27k neurons receive from somatosensory, premotor, projection and motor neuron subtypes.
A31k: proportion of total synaptic input that A31k neurons receive from somatosensory, premotor, projection and motor neuron subtypes.
Chair-1: proportion of total synaptic input that Chair-1 neurons receive from somatosensory, premotor, projection and motor neuron subtypes.
DnB: proportion of total synaptic input that Down-and-Back (DnB) neurons receive from somatosensory, premotor, projection and motor neuron subtypes.
A02o: proportion of total synaptic input that A02o neurons receive from somatosensory, premotor, projection and motor neuron subtypes.
A08n: proportion of total synaptic input that A08n neurons receive from somatosensory, premotor, projection and motor neuron subtypes.
A09e: proportion of total synaptic input that A09e neurons receive from somatosensory, premotor, projection and motor neuron subtypes.
A09o: proportion of total synaptic input that A09o neurons receive from somatosensory, premotor, projection and motor neuron subtypes.
A10j: proportion of total synaptic input that A10j neurons receive from somatosensory, premotor, projection and motor neuron subtypes.
dILP7: proportion of total synaptic input that dILP7 neurons receive from somatosensory, premotor, projection and motor neuron subtypes.
TePn04: proportion of total synaptic input that TePn04 neurons receive from somatosensory, premotor, projection and motor neuron subtypes.
TePn05: proportion of total synaptic input that TePn05 neurons receive from somatosensory, premotor, projection and motor neuron subtypes.
TePn19: proportion of total synaptic input that TePn19 neurons receive from somatosensory, premotor, projection and motor neuron subtypes.
dorsal longitudinal (DL) MN: proportion of total synaptic input that dorsal longitudinal (DL) motor neurons (MN) receive from somatosensory, premotor, projection and motor neuron subtypes.
doral oblique (DO) MN: proportion of total synaptic input that dorsal oblique (DO) motor neurons (MN) receive from somatosensory, premotor, projection and motor neuron subtypes.
transverse MN: proportion of total synaptic input that transverse motor neurons (MN) receive from somatosensory, premotor, projection and motor neuron subtypes.
ventral longitudinal (VL) MN: proportion of total synaptic input that ventral longitudinal (VL) motor neurons (MN) receive from somatosensory, premotor, projection and motor neuron subtypes.
ventral oblique (VO) MN: proportion of total synaptic input that ventral oblique (VO) motor neurons (MN) receive from somatosensory, premotor, projection and motor neuron subtypes.
ventral abdominal (VA) MN: proportion of total synaptic input that ventral abdominal (VA) motor neurons (MN) receive from somatosensory, premotor, projection and motor neuron subtypes.

Tab 3: PMN to MN connectivity

pre-motor neuron (PMN) subtypes: list names of all pre-motor neuron subtypes analyzed for synaptic connectivity to motor neuron (MN) subtypes listed in remaining columns. Data is based on electron microscope (EM) connectome dataset of the third instar larva from Drosophila (https://neurophyla.mrc-lmb.cam.ac.uk/).
MN1: proportion of total synaptic input that motor neuron (MN) 1 receive from premotor neuron subtypes.
MN2: proportion of total synaptic input that motor neuron (MN) 2 receive from premotor neuron subtypes.
MN3: proportion of total synaptic input that motor neuron (MN) 3 receive from premotor neuron subtypes.
MN4: proportion of total synaptic input that motor neuron (MN) 4 receive from premotor neuron subtypes.
MN9: proportion of total synaptic input that motor neuron (MN) 9 receive from premotor neuron subtypes.
MN10: proportion of total synaptic input that motor neuron (MN) 10 receive from premotor neuron subtypes.
MN5: proportion of total synaptic input that motor neuron (MN) 5 receive from premotor neuron subtypes.
MN11: proportion of total synaptic input that motor neuron (MN) 11 receive from premotor neuron subtypes.
MN19: proportion of total synaptic input that motor neuron (MN) 19 receive from premotor neuron subtypes.
MN20: proportion of total synaptic input that motor neuron (MN) 20 receive from premotor neuron subtypes.
MN8: proportion of total synaptic input that motor neuron (MN) 8 receive from premotor neuron subtypes.
MN18: proportion of total synaptic input that motor neuron (MN) 18 receive from premotor neuron subtypes.
MN21/22: proportion of total synaptic input that motor neuron (MN) 21/22 receive from premotor neuron subtypes.
MN22/23: proportion of total synaptic input that motor neuron (MN) 22/23 receive from premotor neuron subtypes.
MN23/24: proportion of total synaptic input that motor neuron (MN) 23/24 receive from premotor neuron subtypes.
MN6/7: proportion of total synaptic input that motor neuron (MN) 6/7 receive from premotor neuron subtypes.
MN12: proportion of total synaptic input that motor neuron (MN) 12 receive from premotor neuron subtypes.
MN13: proportion of total synaptic input that motor neuron (MN) 13 receive from premotor neuron subtypes.
MN14: proportion of total synaptic input that motor neuron (MN) 14 receive from premotor neuron subtypes.
MN30: proportion of total synaptic input that motor neuron (MN) 30 receive from premotor neuron subtypes.
MN15/16: proportion of total synaptic input that motor neuron (MN) 15/16 receive from premotor neuron subtypes.
MN15/16/17: proportion of total synaptic input that motor neuron (MN) 15/16/17 receive from premotor neuron subtypes.
MN28: proportion of total synaptic input that motor neuron (MN) 28 receive from premotor neuron subtypes.
MN26: proportion of total synaptic input that motor neuron (MN) 26 receive from premotor neuron subtypes.
MN27: proportion of total synaptic input that motor neuron (MN) 27 receive from premotor neuron subtypes.
MN29: proportion of total synaptic input that motor neuron (MN) 29 receive from premotor neuron subtypes.

Variables

Not applicable.

File: muscle_figure.xlsx

Description: Muscular basis of Drosophila larval cold-evoked contraction (CT) behavior at segmental and individual muscle level. Data are presented in five tabs: (1) muscle segment average delta F; (2) muscle segment delta F; (3) individual muscle delta F; (4) individual time to max delta F; (5) individual muscle max delta F. These data are plotted in Figure 10H and 10I in the published study.

Tab 1: muscle segment average delta F

larva number: reflects the individual larva (N=16) for these analyses (Larva 1-16).
T1: average change in cold-evoked jRCaMP1a fluorescence (delta F) driven by pan-muscle driver Mef2-GAL4 for larval thoracic segment 1 (T1). Each entry represents average change in fluorescence for an individual third instar larva for a given larval segment.
T2: average change in cold-evoked jRCaMP1a fluorescence (delta F) driven by pan-muscle driver Mef2-GAL4 for larval thoracic segment 2 (T2). Each entry represents average change in fluorescence for an individual third instar larva for a given larval segment.
T3: average change in cold-evoked jRCaMP1a fluorescence (delta F) driven by pan-muscle driver Mef2-GAL4 for larval thoracic segment 3 (T3). Each entry represents average change in fluorescence for an individual third instar larva for a given larval segment.
A1: average change in cold-evoked jRCaMP1a fluorescence (delta F) driven by pan-muscle driver Mef2-GAL4 for larval abdominal segment 1 (A1). Each entry represents average change in fluorescence for an individual third instar larva for a given larval segment.
A2: average change in cold-evoked jRCaMP1a fluorescence (delta F) driven by pan-muscle driver Mef2-GAL4 for larval abdominal segment 2 (A2). Each entry represents average change in fluorescence for an individual third instar larva for a given larval segment.
A3: average change in cold-evoked jRCaMP1a fluorescence (delta F) driven by pan-muscle driver Mef2-GAL4 for larval abdominal segment 3 (A3). Each entry represents average change in fluorescence for an individual third instar larva for a given larval segment.
A4: average change in cold-evoked jRCaMP1a fluorescence (delta F) driven by pan-muscle driver Mef2-GAL4 for larval abdominal segment 4 (A4). Each entry represents average change in fluorescence for an individual third instar larva for a given larval segment.
A5: average change in cold-evoked jRCaMP1a fluorescence (delta F) driven by pan-muscle driver Mef2-GAL4 for larval abdominal segment 5 (A5). Each entry represents average change in fluorescence for an individual third instar larva for a given larval segment.
A6: average change in cold-evoked jRCaMP1a fluorescence (delta F) driven by pan-muscle driver Mef2-GAL4 for larval abdominal segment 6 (A6). Each entry represents average change in fluorescence for an individual third instar larva for a given larval segment.
A7: average change in cold-evoked jRCaMP1a fluorescence (delta F) driven by pan-muscle driver Mef2-GAL4 for larval abdominal segment 7 (A7). Each entry represents average change in fluorescence for an individual third instar larva for a given larval segment.
A8: average change in cold-evoked jRCaMP1a fluorescence (delta F) driven by pan-muscle driver Mef2-GAL4 for larval abdominal segment 8 (A8). Each entry represents average change in fluorescence for an individual third instar larva for a given larval segment.

Tab 2: muscle segment delta F

Time in seconds: time increments in ~0.033 second increments from zero to approximately 120 seconds.
T1: average change in jRCaMP1a fluorescence (delta F) driven by pan-muscle driver Mef2-GAL4 as a function of time in seconds for larval thoracic segment 1 (T1). Onset of noxious cold stimulation at 50 seconds. Each entry represents change in fluorescence for an individual third instar larva for a given segment as a function of time.
T2: average change in jRCaMP1a fluorescence (delta F) driven by pan-muscle driver Mef2-GAL4 as a function of time in seconds for larval thoracic segment 2 (T2). Onset of noxious cold stimulation at 50 seconds. Each entry represents change in fluorescence for an individual third instar larva for a given segment as a function of time.
T3: average change in jRCaMP1a fluorescence (delta F) driven by pan-muscle driver Mef2-GAL4 as a function of time in seconds for larval thoracic segment 3 (T3). Onset of noxious cold stimulation at 50 seconds. Each entry represents change in fluorescence for an individual third instar larva for a given segment as a function of time.
A1: average change in jRCaMP1a fluorescence (delta F) driven by pan-muscle driver Mef2-GAL4 as a function of time in seconds for larval abdominal segment 1 (A1). Onset of noxious cold stimulation at 50 seconds. Each entry represents change in fluorescence for an individual third instar larva for a given segment as a function of time.
A2: average change in jRCaMP1a fluorescence (delta F) driven by pan-muscle driver Mef2-GAL4 as a function of time in seconds for larval abdominal segment 2 (A2). Onset of noxious cold stimulation at 50 seconds. Each entry represents change in fluorescence for an individual third instar larva for a given segment as a function of time.
A3: average change in jRCaMP1a fluorescence (delta F) driven by pan-muscle driver Mef2-GAL4 as a function of time in seconds for larval abdominal segment 3 (A3). Onset of noxious cold stimulation at 50 seconds. Each entry represents change in fluorescence for an individual third instar larva for a given segment as a function of time.
A4: average change in jRCaMP1a fluorescence (delta F) driven by pan-muscle driver Mef2-GAL4 as a function of time in seconds for larval abdominal segment 4 (A4). Onset of noxious cold stimulation at 50 seconds. Each entry represents change in fluorescence for an individual third instar larva for a given segment as a function of time.
A5: average change in jRCaMP1a fluorescence (delta F) driven by pan-muscle driver Mef2-GAL4 as a function of time in seconds for larval abdominal segment 5 (A5). Onset of noxious cold stimulation at 50 seconds. Each entry represents change in fluorescence for an individual third instar larva for a given segment as a function of time.
A6: average change in jRCaMP1a fluorescence (delta F) driven by pan-muscle driver Mef2-GAL4 as a function of time in seconds for larval abdominal segment 6 (A6). Onset of noxious cold stimulation at 50 seconds. Each entry represents change in fluorescence for an individual third instar larva for a given segment as a function of time.
A7: average change in jRCaMP1a fluorescence (delta F) driven by pan-muscle driver Mef2-GAL4 as a function of time in seconds for larval abdominal segment 7 (A7). Onset of noxious cold stimulation at 50 seconds. Each entry represents change in fluorescence for an individual third instar larva for a given segment as a function of time.
A8: average change in jRCaMP1a fluorescence (delta F) driven by pan-muscle driver Mef2-GAL4 as a function of time in seconds for larval abdominal segment 8 (A8). Onset of noxious cold stimulation at 50 seconds. Each entry represents change in fluorescence for an individual third instar larva for a given segment as a function of time.

Tab 3: individual muscle delta F

Time in seconds: time increments in ~0.033 second increments from zero to approximately 120 seconds.
Muscle 1: average change in jRCaMP1a fluorescence (delta F) driven by pan-muscle driver Mef2-GAL4 as a function of time in seconds for larval muscle 1. Onset of noxious cold stimulation at ~45 seconds. Each entry represents the change in fluorescence for an individual third instar larva for a given muscle as a function of time.
Muscle 2: average change in jRCaMP1a fluorescence (delta F) driven by pan-muscle driver Mef2-GAL4 as a function of time in seconds for larval muscle 2. Onset of noxious cold stimulation at ~45 seconds. Each entry represents the change in fluorescence for an individual third instar larva for a given muscle as a function of time.
Muscle 3: average change in jRCaMP1a fluorescence (delta F) driven by pan-muscle driver Mef2-GAL4 as a function of time in seconds for larval muscle 3. Onset of noxious cold stimulation at ~45 seconds. Each entry represents the change in fluorescence for an individual third instar larva for a given muscle as a function of time.
Muscle 4: average change in jRCaMP1a fluorescence (delta F) driven by pan-muscle driver Mef2-GAL4 as a function of time in seconds for larval muscle 4. Onset of noxious cold stimulation at ~45 seconds. Each entry represents the change in fluorescence for an individual third instar larva for a given muscle as a function of time.
Muscle 5: average change in jRCaMP1a fluorescence (delta F) driven by pan-muscle driver Mef2-GAL4 as a function of time in seconds for larval muscle 5. Onset of noxious cold stimulation at ~45 seconds. Each entry represents the change in fluorescence for an individual third instar larva for a given muscle as a function of time.
Muscle 6: average change in jRCaMP1a fluorescence (delta F) driven by pan-muscle driver Mef2-GAL4 as a function of time in seconds for larval muscle 6. Onset of noxious cold stimulation at ~45 seconds. Each entry represents the change in fluorescence for an individual third instar larva for a given muscle as a function of time.
Muscle 7: average change in jRCaMP1a fluorescence (delta F) driven by pan-muscle driver Mef2-GAL4 as a function of time in seconds for larval muscle 7. Onset of noxious cold stimulation at ~45 seconds. Each entry represents the change in fluorescence for an individual third instar larva for a given muscle as a function of time.
Muscle 8: average change in jRCaMP1a fluorescence (delta F) driven by pan-muscle driver Mef2-GAL4 as a function of time in seconds for larval muscle 8. Onset of noxious cold stimulation at ~45 seconds. Each entry represents the change in fluorescence for an individual third instar larva for a given muscle as a function of time.
Muscle 9: average change in jRCaMP1a fluorescence (delta F) driven by pan-muscle driver Mef2-GAL4 as a function of time in seconds for larval muscle 9. Onset of noxious cold stimulation at ~45 seconds. Each entry represents the change in fluorescence for an individual third instar larva for a given muscle as a function of time.
Muscle 10: average change in jRCaMP1a fluorescence (delta F) driven by pan-muscle driver Mef2-GAL4 as a function of time in seconds for larval muscle 10. Onset of noxious cold stimulation at ~45 seconds. Each entry represents the change in fluorescence for an individual third instar larva for a given muscle as a function of time.
Muscle 11: average change in jRCaMP1a fluorescence (delta F) driven by pan-muscle driver Mef2-GAL4 as a function of time in seconds for larval muscle 11. Onset of noxious cold stimulation at ~45 seconds. Each entry represents the change in fluorescence for an individual third instar larva for a given muscle as a function of time.
Muscle 12: average change in jRCaMP1a fluorescence (delta F) driven by pan-muscle driver Mef2-GAL4 as a function of time in seconds for larval muscle 12. Onset of noxious cold stimulation at ~45 seconds. Each entry represents the change in fluorescence for an individual third instar larva for a given muscle as a function of time.
Muscle 13: average change in jRCaMP1a fluorescence (delta F) driven by pan-muscle driver Mef2-GAL4 as a function of time in seconds for larval muscle 13. Onset of noxious cold stimulation at ~45 seconds. Each entry represents the change in fluorescence for an individual third instar larva for a given muscle as a function of time.
Muscle 14: average change in jRCaMP1a fluorescence (delta F) driven by pan-muscle driver Mef2-GAL4 as a function of time in seconds for larval muscle 14. Onset of noxious cold stimulation at ~45 seconds. Each entry represents the change in fluorescence for an individual third instar larva for a given muscle as a function of time.
Muscle 15: average change in jRCaMP1a fluorescence (delta F) driven by pan-muscle driver Mef2-GAL4 as a function of time in seconds for larval muscle 15. Onset of noxious cold stimulation at ~45 seconds. Each entry represents the change in fluorescence for an individual third instar larva for a given muscle as a function of time.
Muscle 16: average change in jRCaMP1a fluorescence (delta F) driven by pan-muscle driver Mef2-GAL4 as a function of time in seconds for larval muscle 16. Onset of noxious cold stimulation at ~45 seconds. Each entry represents the change in fluorescence for an individual third instar larva for a given muscle as a function of time.
Muscle 17: average change in jRCaMP1a fluorescence (delta F) driven by pan-muscle driver Mef2-GAL4 as a function of time in seconds for larval muscle 17. Onset of noxious cold stimulation at ~45 seconds. Each entry represents the change in fluorescence for an individual third instar larva for a given muscle as a function of time.
Muscle 18: average change in jRCaMP1a fluorescence (delta F) driven by pan-muscle driver Mef2-GAL4 as a function of time in seconds for larval muscle 18. Onset of noxious cold stimulation at ~45 seconds. Each entry represents the change in fluorescence for an individual third instar larva for a given muscle as a function of time.
Muscle 19: average change in jRCaMP1a fluorescence (delta F) driven by pan-muscle driver Mef2-GAL4 as a function of time in seconds for larval muscle 19. Onset of noxious cold stimulation at ~45 seconds. Each entry represents the change in fluorescence for an individual third instar larva for a given muscle as a function of time.
Muscle 20: average change in jRCaMP1a fluorescence (delta F) driven by pan-muscle driver Mef2-GAL4 as a function of time in seconds for larval muscle 20. Onset of noxious cold stimulation at ~45 seconds. Each entry represents the change in fluorescence for an individual third instar larva for a given muscle as a function of time.
Muscle 21: average change in jRCaMP1a fluorescence (delta F) driven by pan-muscle driver Mef2-GAL4 as a function of time in seconds for larval muscle 21. Onset of noxious cold stimulation at ~45 seconds. Each entry represents the change in fluorescence for an individual third instar larva for a given muscle as a function of time.
Muscle 22: average change in jRCaMP1a fluorescence (delta F) driven by pan-muscle driver Mef2-GAL4 as a function of time in seconds for larval muscle 22. Onset of noxious cold stimulation at ~45 seconds. Each entry represents the change in fluorescence for an individual third instar larva for a given muscle as a function of time.
Muscle 23: average change in jRCaMP1a fluorescence (delta F) driven by pan-muscle driver Mef2-GAL4 as a function of time in seconds for larval muscle 23. Onset of noxious cold stimulation at ~45 seconds. Each entry represents the change in fluorescence for an individual third instar larva for a given muscle as a function of time.
Muscle 24: average change in jRCaMP1a fluorescence (delta F) driven by pan-muscle driver Mef2-GAL4 as a function of time in seconds for larval muscle 24. Onset of noxious cold stimulation at ~45 seconds. Each entry represents the change in fluorescence for an individual third instar larva for a given muscle as a function of time.

Tab 4: individual time to max delta F

muscle: list the larval muscle numbers that are represented in each larval hemisegment.
time to max delta F in seconds: average time in seconds to achieve the maximum change in fluorescence (delta F) relative pre-stimulus. Cold-evoked calcium responses via jRCaMP1a imaging were used to assess activity in individual muscles.

Tab 5: individual muscle max delta F

muscle 1: maximum change in cold-evoked jRCaMP1a fluorescence (delta F) for larval muscle 1. Each entry represents maximum change in fluorescence for an individual third instar larva for the given muscle.
muscle 2: maximum change in cold-evoked jRCaMP1a fluorescence (delta F) for larval muscle 2. Each entry represents maximum change in fluorescence for an individual third instar larva for the given muscle.
muscle 3: maximum change in cold-evoked jRCaMP1a fluorescence (delta F) for larval muscle 3. Each entry represents maximum change in fluorescence for an individual third instar larva for the given muscle.
muscle 4: maximum change in cold-evoked jRCaMP1a fluorescence (delta F) for larval muscle 4. Each entry represents maximum change in fluorescence for an individual third instar larva for the given muscle.
muscle 9: maximum change in cold-evoked jRCaMP1a fluorescence (delta F) for larval muscle 9. Each entry represents maximum change in fluorescence for an individual third instar larva for the given muscle.
muscle 10: maximum change in cold-evoked jRCaMP1a fluorescence (delta F) for larval muscle 10. Each entry represents maximum change in fluorescence for an individual third instar larva for the given muscle.
muscle 5: maximum change in cold-evoked jRCaMP1a fluorescence (delta F) for larval muscle 5. Each entry represents maximum change in fluorescence for an individual third instar larva for the given muscle.
muscle 11: maximum change in cold-evoked jRCaMP1a fluorescence (delta F) for larval muscle 11. Each entry represents maximum change in fluorescence for an individual third instar larva for the given muscle.
muscle 19: maximum change in cold-evoked jRCaMP1a fluorescence (delta F) for larval muscle 19. Each entry represents maximum change in fluorescence for an individual third instar larva for the given muscle.
muscle 20: maximum change in cold-evoked jRCaMP1a fluorescence (delta F) for larval muscle 20. Each entry represents maximum change in fluorescence for an individual third instar larva for the given muscle.
muscle 8: maximum change in cold-evoked jRCaMP1a fluorescence (delta F) for larval muscle 8. Each entry represents maximum change in fluorescence for an individual third instar larva for the given muscle.
muscle 18: maximum change in cold-evoked jRCaMP1a fluorescence (delta F) for larval muscle 18. Each entry represents maximum change in fluorescence for an individual third instar larva for the given muscle.
muscle 21: maximum change in cold-evoked jRCaMP1a fluorescence (delta F) for larval muscle 21. Each entry represents maximum change in fluorescence for an individual third instar larva for the given muscle.
muscle 22: maximum change in cold-evoked jRCaMP1a fluorescence (delta F) for larval muscle 22. Each entry represents maximum change in fluorescence for an individual third instar larva for the given muscle.
muscle 23: maximum change in cold-evoked jRCaMP1a fluorescence (delta F) for larval muscle 23. Each entry represents maximum change in fluorescence for an individual third instar larva for the given muscle.
muscle 24: maximum change in cold-evoked jRCaMP1a fluorescence (delta F) for larval muscle 24. Each entry represents maximum change in fluorescence for an individual third instar larva for the given muscle.
muscle 12: maximum change in cold-evoked jRCaMP1a fluorescence (delta F) for larval muscle 12. Each entry represents maximum change in fluorescence for an individual third instar larva for the given muscle.
muscle 13: maximum change in cold-evoked jRCaMP1a fluorescence (delta F) for larval muscle 13. Each entry represents maximum change in fluorescence for an individual third instar larva for the given muscle.
muscle 15: maximum change in cold-evoked jRCaMP1a fluorescence (delta F) for larval muscle 15. Each entry represents maximum change in fluorescence for an individual third instar larva for the given muscle.
muscle 16: maximum change in cold-evoked jRCaMP1a fluorescence (delta F) for larval muscle 16. Each entry represents maximum change in fluorescence for an individual third instar larva for the given muscle.

Variables

All analyses were performed in the presence of a pan-muscle GAL4 transgene driving the expression of the genetically encoded calcium indicator UAS-jRCaMP1a.

File: CIII_activation_and_postsynaptic_gcamp.xlsx

Description: Measurement of postsynaptic calcium responses as measured by GCaMP calcium imaging following pre-synaptic activation of Class III md neurons and postsynatpic visualization of induced calcium responses. Data are presented in two tabs: (1) time series; (2) max delta F. These data are plotted in numerous figures throughout the published study as indicated on the spreadsheet.

Tab 1: time series

stimulations: each genotype was tested across three optogenetic stimulation time series (first, second, and third stimulations).
time in seconds: time in seconds from zero to approximately 150 seconds across the three stimulations each approximately 50 seconds in length.
Basin 4 no ATR: GCaMP6 fluorescence change over time in seconds and across stimulations (first, second, and third) for Basin 4 GAL4-driven expression of GCaMP6 and Class III (CIII) driven expression of CsChrimson in the absence of all trans retinal. Each column represents an individual third instar larva.
Basin 4 + ATR: GCaMP6 fluorescence change over time in seconds and across stimulations (first, second, and third) for Basin 4 GAL4-driven expression of GCaMP6 and Class III (CIII) driven expression of CsChrimson in the presence of all trans retinal. Each column represents an individual third instar larva.
Basin 2 no ATR: GCaMP6 fluorescence change over time in seconds and across stimulations (first, second, and third) for Basin 2 GAL4-driven expression of GCaMP6 and Class III (CIII) driven expression of CsChrimson in the absence of all trans retinal. Each column represents an individual third instar larva.
Basin 2 + ATR: GCaMP6 fluorescence change over time in seconds and across stimulations (first, second, and third) for Basin 2 GAL4-driven expression of GCaMP6 and Class III (CIII) driven expression of CsChrimson in the presence of all trans retinal. Each column represents an individual third instar larva.
DnB no ATR: GCaMP6 fluorescence change over time in seconds and across stimulations (first, second, and third) for Down-and-Back (DnB) GAL4-driven expression of GCaMP6 and Class III (CIII) driven expression of CsChrimson in the absence of all trans retinal. Each column represents an individual third instar larva.
DnB + ATR: GCaMP6 fluorescence change over time in seconds and across stimulations (first, second, and third) for Down-and-Back (DnB) GAL4-driven expression of GCaMP6 and Class III (CIII) driven expression of CsChrimson in the presence of all trans retinal. Each column represents an individual third instar larva.
A09e no ATR: GCaMP6 fluorescence change over time in seconds and across stimulations (first, second, and third) for A09e GAL4-driven expression of GCaMP6 and Class III (CIII) driven expression of CsChrimson in the absence of all trans retinal. Each column represents an individual third instar larva.
A09e + ATR: GCaMP6 fluorescence change over time in seconds and across stimulations (first, second, and third) for A09e GAL4-driven expression of GCaMP6 and Class III (CIII) driven expression of CsChrimson in the presence of all trans retinal. Each column represents an individual third instar larva.
R61A01 no ATR: GCaMP6 fluorescence change over time in seconds and across stimulations (first, second, and third) for R61A01 GAL4-driven expression of GCaMP6 and Class III (CIII) driven expression of CsChrimson in the absence of all trans retinal. Each column represents an individual third instar larva.
R61A01 + ATR: GCaMP6 fluorescence change over time in seconds and across stimulations (first, second, and third) for R61A01 GAL4-driven expression of GCaMP6 and Class III (CIII) driven expression of CsChrimson in the presence of all trans retinal. Each column represents an individual third instar larva.

Tab 2: max delta F

Basin 2 GAL4 - first stimulation - no ATR: average maximum change in fluorescence for Basin 2 GAL4 driven GCaMP6 expression after first optogenetic stimulation resulting from Class (CIII) driven expression of CsChrimson in the absence of all trans retinal (ATR).
Basin 2 GAL4 - second stimulation - no ATR: average maximum change in fluorescence for Basin 2 GAL4 driven GCaMP6 expression after second optogenetic stimulation resulting from Class (CIII) driven expression of CsChrimson in the absence of all trans retinal (ATR).
Basin 2 GAL4 - third stimulation - no ATR: average maximum change in fluorescence for Basin 2 GAL4 driven GCaMP6 expression after third optogenetic stimulation resulting from Class (CIII) driven expression of CsChrimson in the absence of all trans retinal (ATR).
Basin 2 GAL4 - first stimulation + ATR: average maximum change in fluorescence for Basin 2 GAL4 driven GCaMP6 expression after first optogenetic stimulation resulting from Class (CIII) driven expression of CsChrimson in the presence of all trans retinal (ATR).
Basin 2 GAL4 - second stimulation + ATR: average maximum change in fluorescence for Basin 2 GAL4 driven GCaMP6 expression after second optogenetic stimulation resulting from Class (CIII) driven expression of CsChrimson in the presence of all trans retinal (ATR).
Basin 2 GAL4 - third stimulation + ATR: average maximum change in fluorescence for Basin 2 GAL4 driven GCaMP6 expression after third optogenetic stimulation resulting from Class (CIII) driven expression of CsChrimson in the presence of all trans retinal (ATR).
Basin 4 GAL4 - first stimulation - no ATR: average maximum change in fluorescence for Basin 4 GAL4 driven GCaMP6 expression after first optogenetic stimulation resulting from Class (CIII) driven expression of CsChrimson in the absence of all trans retinal (ATR).
Basin 4 GAL4 - second stimulation - no ATR: average maximum change in fluorescence for Basin 4 GAL4 driven GCaMP6 expression after second optogenetic stimulation resulting from Class (CIII) driven expression of CsChrimson in the absence of all trans retinal (ATR).
Basin 4 GAL4 - third stimulation - no ATR: average maximum change in fluorescence for Basin 4 GAL4 driven GCaMP6 expression after third optogenetic stimulation resulting from Class (CIII) driven expression of CsChrimson in the absence of all trans retinal (ATR).
Basin 4 GAL4 - first stimulation + ATR: average maximum change in fluorescence for Basin 4 GAL4 driven GCaMP6 expression after first optogenetic stimulation resulting from Class (CIII) driven expression of CsChrimson in the presence of all trans retinal (ATR).
Basin 4 GAL4 - second stimulation + ATR: average maximum change in fluorescence for Basin 4 GAL4 driven GCaMP6 expression after second optogenetic stimulation resulting from Class (CIII) driven expression of CsChrimson in the presence of all trans retinal (ATR).
Basin 4 GAL4 - third stimulation + ATR: average maximum change in fluorescence for Basin 4 GAL4 driven GCaMP6 expression after third optogenetic stimulation resulting from Class (CIII) driven expression of CsChrimson in the presence of all trans retinal (ATR).
DnB GAL4 - first stimulation - no ATR: average maximum change in fluorescence for Down-and-Back (DnB) GAL4 driven GCaMP6 expression after first optogenetic stimulation resulting from Class (CIII) driven expression of CsChrimson in the absence of all trans retinal (ATR).
DnB GAL4 - second stimulation - no ATR: average maximum change in fluorescence for Down-and-Back (DnB) GAL4 driven GCaMP6 expression after second optogenetic stimulation resulting from Class (CIII) driven expression of CsChrimson in the absence of all trans retinal (ATR).
DnB GAL4 - third stimulation - no ATR: average maximum change in fluorescence for Down-and-Back (DnB) GAL4 driven GCaMP6 expression after third optogenetic stimulation resulting from Class (CIII) driven expression of CsChrimson in the absence of all trans retinal (ATR).
DnB GAL4 - first stimulation + ATR: average maximum change in fluorescence for Down-and-Back (DnB) GAL4 driven GCaMP6 expression after first optogenetic stimulation resulting from Class (CIII) driven expression of CsChrimson in the presence of all trans retinal (ATR).
DnB GAL4 - second stimulation + ATR: average maximum change in fluorescence for Down-and-Back (DnB) GAL4 driven GCaMP6 expression after second optogenetic stimulation resulting from Class (CIII) driven expression of CsChrimson in the presence of all trans retinal (ATR).
DnB GAL4 - third stimulation + ATR: average maximum change in fluorescence for Down-and-Back (DnB) GAL4 driven GCaMP6 expression after third optogenetic stimulation resulting from Class (CIII) driven expression of CsChrimson in the presence of all trans retinal (ATR).
A09e GAL4 - first stimulation - no ATR: average maximum change in fluorescence for A09e GAL4 driven GCaMP6 expression after first optogenetic stimulation resulting from Class (CIII) driven expression of CsChrimson in the absence of all trans retinal (ATR).
A09e GAL4 - second stimulation - no ATR: average maximum change in fluorescence for A09e GAL4 driven GCaMP6 expression after second optogenetic stimulation resulting from Class (CIII) driven expression of CsChrimson in the absence of all trans retinal (ATR).
A09e GAL4 - third stimulation - no ATR: average maximum change in fluorescence for A09e GAL4 driven GCaMP6 expression after third optogenetic stimulation resulting from Class (CIII) driven expression of CsChrimson in the absence of all trans retinal (ATR).
A09e GAL4 - first stimulation + ATR: average maximum change in fluorescence for A09e GAL4 driven GCaMP6 expression after first optogenetic stimulation resulting from Class (CIII) driven expression of CsChrimson in the presence of all trans retinal (ATR).
A09e GAL4 - second stimulation + ATR: average maximum change in fluorescence for A09e GAL4 driven GCaMP6 expression after second optogenetic stimulation resulting from Class (CIII) driven expression of CsChrimson in the presence of all trans retinal (ATR).
A09e GAL4 - third stimulation + ATR: average maximum change in fluorescence for A09e GAL4 driven GCaMP6 expression after third optogenetic stimulation resulting from Class (CIII) driven expression of CsChrimson in the presence of all trans retinal (ATR).
R61A01 GAL4 - first stimulation - no ATR: average maximum change in fluorescence for R61A01 GAL4 driven GCaMP6 expression after first optogenetic stimulation resulting from Class (CIII) driven expression of CsChrimson in the absence of all trans retinal (ATR).
R61A01 GAL4 - second stimulation - no ATR: average maximum change in fluorescence for R61A01 GAL4 driven GCaMP6 expression after second optogenetic stimulation resulting from Class (CIII) driven expression of CsChrimson in the absence of all trans retinal (ATR).
R61A01 GAL4 - third stimulation - no ATR: average maximum change in fluorescence for R61A01 GAL4 driven GCaMP6 expression after third optogenetic stimulation resulting from Class (CIII) driven expression of CsChrimson in the absence of all trans retinal (ATR).
R61A01 GAL4 - first stimulation + ATR: average maximum change in fluorescence for R61A01 GAL4 driven GCaMP6 expression after first optogenetic stimulation resulting from Class (CIII) driven expression of CsChrimson in the presence of all trans retinal (ATR).
R61A01 GAL4 - second stimulation + ATR: average maximum change in fluorescence for R61A01 GAL4 driven GCaMP6 expression after second optogenetic stimulation resulting from Class (CIII) driven expression of CsChrimson in the presence of all trans retinal (ATR).
R61A01 GAL4 - third stimulation + ATR: average maximum change in fluorescence for R61A01 GAL4 driven GCaMP6 expression after third optogenetic stimulation resulting from Class (CIII) driven expression of CsChrimson in the presence of all trans retinal (ATR).

Variables

Neural subtype-specific GAL4 transgenes and presence or absence of all-trans retinal. All experiments conducted in the presence of the optogenetic activator, CsChrimson and genetically encoded calcium indicator, GCaMP6.

File: muscle_calcium_optogenetic_and_pharmacology.xlsx

Description: Measurement of optogenetically-induced calcium responses in post-synaptic densities of muscles. Data are presented in four tabs: (1) muscle segment opto delta F; (2) avg. delta F muscle optogenetic; (3) control vs. ether delta F; (4) avg. delta F control vs. ether. These data are plotted in Figure 10 - figure supplement 1 in the published study.

Tab 1: muscle segment opto delta F

T1 no ATR: each column under this heading represents an individual third instar larva where the change in fluorescence (delta F) for GCaMP6 is measured under noxious cold stimulation over time (zero to 115 seconds) in thoracic segment 1 (T1) in the absence of all trans retinal (ATR) allowing for motor neuron activity.
T2 no ATR: each column under this heading represents an individual third instar larva where the change in fluorescence (delta F) for GCaMP6 is measured under noxious cold stimulation over time (zero to 115 seconds) in thoracic segment 2 (T2) in the absence of all trans retinal (ATR) allowing for motor neuron activity.
T3 no ATR: each column under this heading represents an individual third instar larva where the change in fluorescence (delta F) for GCaMP6 is measured under noxious cold stimulation over time (zero to 115 seconds) in thoracic segment 3 (T3) in the absence of all trans retinal (ATR) allowing for motor neuron activity.
A1 no ATR: each column under this heading represents an individual third instar larva where the change in fluorescence (delta F) for GCaMP6 is measured under noxious cold stimulation over time (zero to 115 seconds) in abdominal segment 1 (A1) in the absence of all trans retinal (ATR) allowing for motor neuron activity.
A2 no ATR: each column under this heading represents an individual third instar larva where the change in fluorescence (delta F) for GCaMP6 is measured under noxious cold stimulation over time (zero to 115 seconds) in abdominal segment 2 (A2) in the absence of all trans retinal (ATR) allowing for motor neuron activity.
A3 no ATR: each column under this heading represents an individual third instar larva where the change in fluorescence (delta F) for GCaMP6 is measured under noxious cold stimulation over time (zero to 115 seconds) in abdominal segment 3 (A3) in the absence of all trans retinal (ATR) allowing for motor neuron activity.
A4 no ATR: each column under this heading represents an individual third instar larva where the change in fluorescence (delta F) for GCaMP6 is measured under noxious cold stimulation over time (zero to 115 seconds) in abdominal segment 4 (A4) in the absence of all trans retinal (ATR) allowing for motor neuron activity.
T1+ATR: each column under this heading represents an individual third instar larva where the change in fluorescence (delta F) for GCaMP6 is measured under noxious cold stimulation over time (zero to 115 seconds) in thoracic segment 1 (T1) in the presence of all trans retinal (ATR) allowing for motor neuron activity.
T2+ATR: each column under this heading represents an individual third instar larva where the change in fluorescence (delta F) for GCaMP6 is measured under noxious cold stimulation over time (zero to 115 seconds) in thoracic segment 2 (T2) in the presence of all trans retinal (ATR) allowing for motor neuron activity.
T3+ATR: each column under this heading represents an individual third instar larva where the change in fluorescence (delta F) for GCaMP6 is measured under noxious cold stimulation over time (zero to 115 seconds) in thoracic segment 3 (T3) in the presence of all trans retinal (ATR) allowing for motor neuron activity.
A1+ATR: each column under this heading represents an individual third instar larva where the change in fluorescence (delta F) for GCaMP6 is measured under noxious cold stimulation over time (zero to 115 seconds) in abdominal segment 1 (A1) in the presence of all trans retinal (ATR) allowing for motor neuron activity.
A2+ATR: each column under this heading represents an individual third instar larva where the change in fluorescence (delta F) for GCaMP6 is measured under noxious cold stimulation over time (zero to 115 seconds) in abdominal segment 2 (A2) in the presence of all trans retinal (ATR) allowing for motor neuron activity.
A3+ATR: each column under this heading represents an individual third instar larva where the change in fluorescence (delta F) for GCaMP6 is measured under noxious cold stimulation over time (zero to 115 seconds) in abdominal segment 3 (A3) in the presence of all trans retinal (ATR) allowing for motor neuron activity.
A4+ATR: each column under this heading represents an individual third instar larva where the change in fluorescence (delta F) for GCaMP6 is measured under noxious cold stimulation over time (zero to 115 seconds) in abdominal segment 4 (A4) in the presence of all trans retinal (ATR) allowing for motor neuron activity.

Variables

Presence or absence of all trans retinal and Ca2+ measurements across larval segments T1, T2, T3, A1, A2, A3, A4.

Tab 2: average delta F in muscle

T1 no ATR: average change in fluorescence (delta F) for cold-evoked Ca2+ responses measured via GCaMP6 in thoracic segment 1 (T1) in the absence of all trans retinal allowing for motor neuron activity.
T2 no ATR: average change in fluorescence (delta F) for cold-evoked Ca2+ responses measured via GCaMP6 in thoracic segment 2 (T2) in the absence of all trans retinal allowing for motor neuron activity.
T3 no ATR: average change in fluorescence (delta F) for cold-evoked Ca2+ responses measured via GCaMP6 in thoracic segment 3 (T3) in the absence of all trans retinal allowing for motor neuron activity.
A1 no ATR: average change in fluorescence (delta F) for cold-evoked Ca2+ responses measured via GCaMP6 in abdominal segment 1 (A1) in the absence of all trans retinal allowing for motor neuron activity.
A2 no ATR: average change in fluorescence (delta F) for cold-evoked Ca2+ responses measured via GCaMP6 in abdominal segment 2 (A2) in the absence of all trans retinal allowing for motor neuron activity.
A3 no ATR: average change in fluorescence (delta F) for cold-evoked Ca2+ responses measured via GCaMP6 in abdominal segment 3 (A3) in the absence of all trans retinal allowing for motor neuron activity.
A4 no ATR: average change in fluorescence (delta F) for cold-evoked Ca2+ responses measured via GCaMP6 in abdominal segment 4 (A4) in the absence of all trans retinal allowing for motor neuron activity.
T1+ATR: average change in fluorescence (delta F) for cold-evoked Ca2+ responses measured via GCaMP6 in thoracic segment 1 (T1) in the presence of all trans retinal allowing for motor neuron silencing.
T2+ATR: average change in fluorescence (delta F) for cold-evoked Ca2+ responses measured via GCaMP6 in thoracic segment 2 (T2) in the presence of all trans retinal allowing for motor neuron silencing.
T3+ATR: average change in fluorescence (delta F) for cold-evoked Ca2+ responses measured via GCaMP6 in thoracic segment 3 (T3) in the presence of all trans retinal allowing for motor neuron silencing.
A1+ATR: average change in fluorescence (delta F) for cold-evoked Ca2+ responses measured via GCaMP6 in abdominal segment 1 (A1) in the presence of all trans retinal allowing for motor neuron silencing.
A2+ATR: average change in fluorescence (delta F) for cold-evoked Ca2+ responses measured via GCaMP6 in abdominal segment 2 (A2) in the presence of all trans retinal allowing for motor neuron silencing.
A3+ATR: average change in fluorescence (delta F) for cold-evoked Ca2+ responses measured via GCaMP6 in abdominal segment 3 (A3) in the presence of all trans retinal allowing for motor neuron silencing.
A4+ATR: average change in fluorescence (delta F) for cold-evoked Ca2+ responses measured via GCaMP6 in abdominal segment 4 (A4) in the presence of all trans retinal allowing for motor neuron silencing.

Variables

Presence or absence of all trans retinal and Ca2+ measurements across larval segments T1, T2, T3, A1, A2, A3, A4.

Tab 3: control vs. ether delta F

time in seconds: time in second intervals for control vs. ether-treated third-instar larvae from zero to approximately 50 seconds.
control: each column under this heading represents an individual third-instar larva where the change in fluorescence (delta F) for GCaMP6 is measured under noxious cold stimulation over time (zero to 50 seconds) in muscle postsynaptic densities of larval segments T3/A1 in the absence of ether.
ether: each column under this heading represents an individual third-instar larva where the change in fluorescence (delta F) for GCaMP6 is measured under noxious cold stimulation over time (zero to 50 seconds) in muscle postsynaptic densities of larval segments T3/A1 in the presence of ether.

Variables

Presence or absence of ether.

Tab 4: control vs. ether avg delta F

Control: average change in fluorescence (delta F) for GCaMP6 Ca2+ responses to noxious cold stimulation in the absence of ether for all quantified post-synaptic densities. Each field under this column represents an individual third-instar larva.
Ether: average change in fluorescence (delta F) for GCaMP6 Ca2+ responses to noxious cold stimulation in the presence of ether for all quantified post-synaptic densities. Each field under this column represents an individual third-instar larva.
Control trials 1-3: average change in fluorescence (delta F) for GCaMP6 Ca2+ responses to noxious cold stimulation in the absence of ether averaged across three independent trials (1-3) for postsynaptic densities.
Ether trials 1-3: average change in fluorescence (delta F) for GCaMP6 Ca2+ responses to noxious cold stimulation in the presence of ether average across three independent trials (1-3) for postsynaptic densities.

Variables

Presence or absence of ether.

File: CaMPARI.xlsx

Description: Noxious cold and Class III md neuron-evoked calcium responses as measured by CaMPARI in postsynaptic neurons that are connected in the neural circuit acting downstream of CIII primary cold nociceptors. Data are presented in two tabs: (1) sensory neuron CaMPARI; (2) post-synaptic neuron CaMPARI. These data are plotted in numerous figures throughout the published study as indicated on the spreadsheet.

Tab 1: sensory neuron CaMPARI

Ch no pc no stim: mean F(red)/F(green) CaMPARI2 intensity ratios in chordotonal (Ch) neurons in the absence of photoconverting (pc) light and absence of noxious cold stimulation. Each entry represents an individual third-instar larva.
Ch pc no stim: mean F(red)/F(green) CaMPARI2 intensity ratios in chordotonal (Ch) neurons in the presence of photoconverting (pc) light and absence of noxious cold stimulation. Each entry represents an individual third-instar larva.
Ch pc stim: mean F(red)/F(green) CaMPARI2 intensity ratios in chordotonal (Ch) neurons in the presence of photoconverting (pc) light and the presence of noxious cold stimulation. Each entry represents an individual third-instar larva.
CIII no pc no stim: mean F(red)/F(green) CaMPARI2 intensity ratios in Class III (CIII) neurons in the absence of photoconverting (pc) light and absence of noxious cold stimulation. Each entry represents an individual third-instar larva.
CIII pc no stim: mean F(red)/F(green) CaMPARI2 intensity ratios in Class III (CIII) neurons in the presence of photoconverting (pc) light and absence of noxious cold stimulation. Each entry represents an individual third-instar larva.
CIII pc stim: mean F(red)/F(green) CaMPARI2 intensity ratios in Class III (CIII) neurons in the presence of photoconverting (pc) light and the presence of noxious cold stimulation. Each entry represents an individual third-instar larva.
CIV no pc no stim: mean F(red)/F(green) CaMPARI2 intensity ratios in Class IV (CIV) neurons in the absence of photoconverting (pc) light and absence of noxious cold stimulation. Each entry represents an individual third-instar larva.
CIV pc no stim: mean F(red)/F(green) CaMPARI2 intensity ratios in Class IV (CIV) neurons in the presence of photoconverting (pc) light and absence of noxious cold stimulation. Each entry represents an individual third-instar larva.
CIV pc stim: mean F(red)/F(green) CaMPARI2 intensity ratios in Class IV (CIV) neurons in the presence of photoconverting (pc) light and the presence of noxious cold stimulation. Each entry represents an individual third-instar larva.
microns: distance in microns from the soma (zero to ~200 microns) for CaMPARI2 Sholl intensity analyses.
Ch no pc no stim Sholl: mean F(red)/F(green) CaMPARI2 intensity ratios as a function of distance in microns from the soma for chordotonal (Ch) neurons in the absence of photoconverting (pc) light and absence of noxious cold stimulation. Each entry represents the Sholl intensity profile for an individual larva.
Ch pc no stim Sholl: mean F(red)/F(green) CaMPARI2 intensity ratios as a function of distance in microns from the soma for chordotonal (Ch) neurons in the presence of photoconverting (pc) light and absence of noxious cold stimulation. Each entry represents the Sholl intensity profile for an individual larva.
Ch pc stim Sholl: mean F(red)/F(green) CaMPARI2 intensity ratios as a function of distance in microns from the soma for chordotonal (Ch) neurons in the presence of photoconverting (pc) light and the presence of noxious cold stimulation. Each entry represents the Sholl intensity profile for an individual larva.
CIII no pc no stim Sholl: mean F(red)/F(green) CaMPARI2 intensity ratios as a function of distance in microns from the soma for Class III (CIII) neurons in the absence of photoconverting (pc) light and absence of noxious cold stimulation. Each entry represents the Sholl intensity profile for an individual larva.
CIII pc no stim Sholl: mean F(red)/F(green) CaMPARI2 intensity ratios as a function of distance in microns from the soma for Class III (CIII) neurons in the presence of photoconverting (pc) light and absence of noxious cold stimulation. Each entry represents the Sholl intensity profile for an individual larva.
CIII pc stim Sholl: mean F(red)/F(green) CaMPARI2 intensity ratios as a function of distance in microns from the soma for Class III (CIII) neurons in the presence of photoconverting (pc) light and the presence of noxious cold stimulation. Each entry represents the Sholl intensity profile for an individual larva.
CIV no pc no stim Sholl: mean F(red)/F(green) CaMPARI2 intensity ratios as a function of distance in microns from the soma for Class IV (CIV) neurons in the absence of photoconverting (pc) light and absence of noxious cold stimulation. Each entry represents the Sholl intensity profile for an individual larva.
CIV pc no stim Sholl: mean F(red)/F(green) CaMPARI2 intensity ratios as a function of distance in microns from the soma for Class IV (CIV) neurons in the presence of photoconverting (pc) light and absence of noxious cold stimulation. Each entry represents the Sholl intensity profile for an individual larva.
CIV pc stim Sholl: mean F(red)/F(green) CaMPARI2 intensity ratios as a function of distance in microns from the soma for Class IV (CIV) neurons in the presence of photoconverting (pc) light and the presence of noxious cold stimulation. Each entry represents the Sholl intensity profile for an individual larva.

Variables

Presence or absence of noxious cold stimulation and photoconverting (PC) light necessary to photoconvert genetically-encoded calcium integrator, CaMPARI. Cell-type-specific GAL4 transgenes used to drive expression of UAS-CaMPARI2 across neuron subtypes in the noxious cold nociceptive circuit.

Tab 2: post-synaptic neuron CaMPARI

All Basin no stim: mean F(red)/F(green) CaMPARI2 intensity ratios in Basin 1-4 (All Basin) neurons in the presence of photoconverting (pc) light and absence of noxious cold stimulation. Each entry represents an individual third-instar larva.
All Basin + cold: mean F(red)/F(green) CaMPARI2 intensity ratios in Basin 1-4 (All Basin) neurons in the presence of photoconverting (pc) light and the presence of noxious cold stimulation. Each entry represents an individual third-instar larva.
Basin 1 no stim: mean F(red)/F(green) CaMPARI2 intensity ratios in Basin 1 neurons in the presence of photoconverting (pc) light and absence of noxious cold stimulation. Each entry represents an individual third-instar larva.
Basin 1 + cold: mean F(red)/F(green) CaMPARI2 intensity ratios in Basin 1 neurons in the presence of photoconverting (pc) light and the presence of noxious cold stimulation. Each entry represents an individual third-instar larva.
Basin 2 no stim: mean F(red)/F(green) CaMPARI2 intensity ratios in Basin 2 neurons in the presence of photoconverting (pc) light and absence of noxious cold stimulation. Each entry represents an individual third-instar larva.
Basin 2 + cold: mean F(red)/F(green) CaMPARI2 intensity ratios in Basin 2 neurons in the presence of photoconverting (pc) light and the presence of noxious cold stimulation. Each entry represents an individual third-instar larva.
Basin 4 no stim: mean F(red)/F(green) CaMPARI2 intensity ratios in Basin 4 neurons in the presence of photoconverting (pc) light and absence of noxious cold stimulation. Each entry represents an individual third-instar larva.
Basin 4 + cold: mean F(red)/F(green) CaMPARI2 intensity ratios in Basin 4 neurons in the presence of photoconverting (pc) light and the presence of noxious cold stimulation. Each entry represents an individual third-instar larva.
DnB' no stim: mean F(red)/F(green) CaMPARI2 intensity ratios in Down-and-Back neurons (DnB' line 1) in the presence of photoconverting (pc) light and absence of noxious cold stimulation. Each entry represents an individual third-instar larva.
DnB' + cold: mean F(red)/F(green) CaMPARI2 intensity ratios in Down-and-Back neurons (DnB' line 1) in the presence of photoconverting (pc) light and the presence of noxious cold stimulation. Each entry represents an individual third-instar larva.
DnB" no stim: mean F(red)/F(green) CaMPARI2 intensity ratios in Down-and-Back neurons (DnB'' line 2) in the presence of photoconverting (pc) light and absence of noxious cold stimulation. Each entry represents an individual third-instar larva.
DnB" + cold: mean F(red)/F(green) CaMPARI2 intensity ratios in Down-and-Back neurons (DnB'' line 2) in the presence of photoconverting (pc) light and the presence of noxious cold stimulation. Each entry represents an individual third-instar larva.
Chair-1 no stim: mean F(red)/F(green) CaMPARI2 intensity ratios in Chair-1 neurons in the presence of photoconverting (pc) light and absence of noxious cold stimulation. Each entry represents an individual third-instar larva.
Chair-1 + cold: mean F(red)/F(green) CaMPARI2 intensity ratios in Chair-1 neurons in the presence of photoconverting (pc) light and the presence of noxious cold stimulation. Each entry represents an individual third-instar larva.
mCSI no stim: mean F(red)/F(green) CaMPARI2 intensity ratios in mCSI neurons in the presence of photoconverting (pc) light and absence of noxious cold stimulation. Each entry represents an individual third-instar larva.
mCSI + cold: mean F(red)/F(green) CaMPARI2 intensity ratios in mCSI neurons in the presence of photoconverting (pc) light and the presence of noxious cold stimulation. Each entry represents an individual third-instar larva.
A09e no stim: mean F(red)/F(green) CaMPARI2 intensity ratios in A09e neurons in the presence of photoconverting (pc) light and absence of noxious cold stimulation. Each entry represents an individual third-instar larva.
A09e + cold: mean F(red)/F(green) CaMPARI2 intensity ratios in A09e neurons in the presence of photoconverting (pc) light and the presence of noxious cold stimulation. Each entry represents an individual third-instar larva.
TePn04/05 no stim: mean F(red)/F(green) CaMPARI2 intensity ratios in TePn04/05 neurons in the presence of photoconverting (pc) light and absence of noxious cold stimulation. Each entry represents an individual third-instar larva.
TePn04/05 + cold: mean F(red)/F(green) CaMPARI2 intensity ratios in TePn04/05 neurons in the presence of photoconverting (pc) light and the presence of noxious cold stimulation. Each entry represents an individual third-instar larva.

Variables

Presence or absence of noxious cold stimulation. Cell-type-specific GAL4 transgenes used to drive expression of UAS-CaMPARI2 across neuron subtypes in the noxious cold nociceptive circuit.

Code/software

All data files are Microsoft Excel spreadsheets.

Access information

Other publicly accessible locations of the data:

Not applicable.

Data was derived from the following sources:

https://neurophyla.mrc-lmb.cam.ac.uk/

Data from: Neural substrates of cold nociception in Drosophila larva

Data files

Abstract

README: Data from: Neural substrates of cold nociception in Drosophila larva

Description of the data and file structure

Files and variables

File: Single_neuron_activation.xlsx

Variables

File: Optogenetic_actuators.xlsx

Variables

File: Neural_silencing_using_TNT.xlsx

Variables

Variables

Variables

Variables

File: Neural_coactivation.xlsx

Variables

Variables

Variables

Variables

Variables

Variables

Variables

File: life_stages_silencing_and_activation.xlsx

Variables

Variables

File: CIII_gcamp_and_head_withdrawal.xlsx

Variables

File: EM_connectome.xlsx

Variables

File: muscle_figure.xlsx

Variables

File: CIII_activation_and_postsynaptic_gcamp.xlsx

Variables

File: muscle_calcium_optogenetic_and_pharmacology.xlsx

Variables

Variables

Variables

File: CaMPARI.xlsx

Variables

Variables

Code/software

Access information