https://doi.org/10.5061/dryad.0p2ngf23f

Give a brief summary of dataset contents, contextualized in experimental procedures and results.

Description of the data and file structure

Raw target capture data is published in Sequence Read Archive (SRA) at https://www.ncbi.nlm.nih.gov/bioproject/PRJNA674709

Folder 1: Alignments for each of 50 genes sampled for all taxa

including individual sequences for each phased allele labeled as h1 or h2

Folder 2: Trimmed alignments for each of 50 genes sampled for all taxa

including individual sequences for each phased allele labeled as h1 or h2

Folder 3: Gene trees for each of 50 genes sampled.

Each gene tree is generated using RAxML and rerooted using the Physcomitrellopsis clade as an outgroup.

Folder 4: Homologizer output

• genelist.txt is a list of the 50 genes used in the Homologizer analysis
• InitialPhase.rev and Phasemoves.rev are files used to direct Homologizer within the RevBayes script revbayes_template.txt
• physco.50genes_geneNN_phase.log for each gene the Homologizer phase information output, one line per generation sampled
• physco.50genes.log RevBayes output for substitution model parameters, one line per generation
• physco.50genes.trees RevBayes phylogeny output for each generation
• physco.50genes.tree Maximum clade credibility tree summarized from RevBayes output with 10% discarded as burnin
• physco_genecopymap.csv file used to generate Phase moves used by Revbayes

logfiles indicating each iteration of subgenome phasing for each of 50 genes indicated in genelist.txt.
Includes homologizing.sh batch file.

Folder 5: Phased subgenomes for each of 50 genes indicated as “h1” or “h2” for each allodiploid genome, respectively.

As determined by the Homologizer output from RevBayes if the posterior probability of phase was greater than 80%

Folder 6: rerooted homologizer trees

Gene trees with haploid samples and allopolyploids with phased subgenome sequences

Folder 7: Log files and output from TreeShrink.

Output trees collapse unrealistically long branches.
subgenomePhased_genetrees_rerooted_collapsed_RS_0.05.txt contains a summary of removed sequences
Also contains node-by-node output from Phyparts on the ASTRAL species tree generated from TreeShrink gene trees, used to generate the PieCharts in pies.svg

Folder 8: Phyparts input

• subgenomePhased_genetrees_rerooted_collapsed.tre - gene trees collapsed to remove nodes with low bootstrap support
• subgenomePhased_astral_collapsed.tre - astral tree from collapsed gene trees
• subgenomePhased_astral_rerooted.tre - astral tree rerooted from the outgroup

PhyParts output can be found in Folder7

Folder 9: Triploid Homologizer

“Iteration Two” from the manuscript

RevBayes log files for 10 independent runs where two putatively triploid samples were coded as having three subgenomes while the subgenome phase from “Iteration one” (only allodiploids) were fixed.

The astral subfolder contains:

• gene trees where sequences are phased to subgenomes according to the RevBayes output
• astral tree inferred from these gene trees
• phyparts output summarizing bipartition conflict among gene trees
• results of the “minority report” for alternative bipartitions at node 15 and node 34 (see tree_nodes.pdf for numbered nodes)

Collenchymatum_7379.fasta - FASTA format Sanger sequence for three Physcomitrium collenchymatum accessions. Contains forward and reverse Sanger sequencing reads for approximately 360bp of gene 7379.
Collenchymatum_4780.fasta - FASTA format Sanger sequence for three Physcomitrium collenchymatum accessions. Contains forward and reverse Sanger sequencing reads for approximately 360bp of gene 4780.
Collenchymatum_5274_plastid_rps4_psba - FASTA format Sanger sequence for one Physcomitrium collenchymatum accession. Contains consensus sequences for plastid markers psba and rsp4.
Funariaceae4loci_reduced.nex.con.tre - Contains a bayesian phylogeny based on plastid markers incorporating Physcomitrium collenchymatum 5274 to discern the maternal genome position among the Funariaceae.

Code/Software

homologizing.sh - example command lines run to collect sequences and add polyploid samples to the existing alignments\, conduct subgenome phasing in homologizer\, recover phased subgenome sequences\, and infer ASTRAL species trees
best.models.iqtree.txt - list of best models inferred by BIC for each gene tree