Abstract
Streptophytes are one of the major groups of the green lineage (Chloroplastida or Viridiplantae). During one billion years of evolution, streptophytes have radiated into an astounding diversity of uni- and multicellular green algae as well as land plants. Most divergent from land plants is a clade formed by Mesostigmatophyceae, Spirotaenia spp. and Chlorokybophyceae. All three lineages are species-poor and the Chlorokybophyceae consist of a single described species, Chlorokybus atmophyticus. In this study, we used phylogenomic analyses to shed light into the diversity within Chlorokybus using a sampling of isolates across its known distribution. We uncovered a consistent deep genetic structure within the Chlorokybus isolates, which prompted us to formally extend the Chlorokybophyceae by describing four new species. Gene expression differences among Chlorokybus species suggest certain constitutive variability that might influence their response to environmental factors. Failure to account for this diversity can hamper comparative genomic studies aiming to understand the evolution of stress response across streptophytes. Our data highlight that future studies on the evolution of plant form and function can tap into an unknown diversity at key deep branches of the streptophytes.
Highlights
Green algae and land plants (Chloroplastida or Viridiplantae) consist of three major lineages: the recently pinpointed Prasinodermophyta [1], Chlorophyta and Streptophyta [2]
We report on the presence of consistent deep structure within Chlorokybus after analysing all currently available isolates
Deep genetic divergences among Chlorokybus isolates are further supported by substantial gene expression variation when grown under the same experimental conditions
Summary
Green algae and land plants (Chloroplastida or Viridiplantae) consist of three major lineages: the recently pinpointed Prasinodermophyta [1], Chlorophyta and Streptophyta [2]. Using the Illumina NovaSeq6000 platform, we generated 224 million paired-end reads (greater than 47 Gbp of raw sequence information) on four isolates of Chlorokybus from across its known distribution range Combining these data with published genomic and transcriptomic information from other algae and land plants (electronic supplementary material, table S3), we inferred a robust phylogenomic tree based on 529 densely sampled loci (17% missing data). While biological confounding factors cannot be excluded, the failure to recover Amborella as sister to all other flowering plants suggests the presence of biases and/or limited phylogenetic signal in the plastid dataset At any rate, both plastid and nuclear marker phylogenies agreed on the presence of deep divergences among Chlorokybus isolates. Even the two latter isolates showed marked differences in gene expression, which together with the reported genetic distances support the notion that they are different species but might exhibit different cell physiologies
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