Evidence-based green algal genomics reveals marine diversity and ancestral characteristics of land plants View Full Text


Ontology type: schema:ScholarlyArticle      Open Access: True


Article Info

DATE

2016-03-31

AUTHORS

Marijke J. van Baren, Charles Bachy, Emily Nahas Reistetter, Samuel O. Purvine, Jane Grimwood, Sebastian Sudek, Hang Yu, Camille Poirier, Thomas J. Deerinck, Alan Kuo, Igor V. Grigoriev, Chee-Hong Wong, Richard D. Smith, Stephen J. Callister, Chia-Lin Wei, Jeremy Schmutz, Alexandra Z. Worden

ABSTRACT

BackgroundPrasinophytes are widespread marine green algae that are related to plants. Cellular abundance of the prasinophyte Micromonas has reportedly increased in the Arctic due to climate-induced changes. Thus, studies of these unicellular eukaryotes are important for marine ecology and for understanding Viridiplantae evolution and diversification.ResultsWe generated evidence-based Micromonas gene models using proteomics and RNA-Seq to improve prasinophyte genomic resources. First, sequences of four chromosomes in the 22 Mb Micromonas pusilla (CCMP1545) genome were finished. Comparison with the finished 21 Mb genome of Micromonas commoda (RCC299; named herein) shows they share ≤8,141 of ~10,000 protein-encoding genes, depending on the analysis method. Unlike RCC299 and other sequenced eukaryotes, CCMP1545 has two abundant repetitive intron types and a high percent (26 %) GC splice donors. Micromonas has more genus-specific protein families (19 %) than other genome sequenced prasinophytes (11 %). Comparative analyses using predicted proteomes from other prasinophytes reveal proteins likely related to scale formation and ancestral photosynthesis. Our studies also indicate that peptidoglycan (PG) biosynthesis enzymes have been lost in multiple independent events in select prasinophytes and plants. However, CCMP1545, polar Micromonas CCMP2099 and prasinophytes from other classes retain the entire PG pathway, like moss and glaucophyte algae. Surprisingly, multiple vascular plants also have the PG pathway, except the Penicillin-Binding Protein, and share a unique bi-domain protein potentially associated with the pathway. Alongside Micromonas experiments using antibiotics that halt bacterial PG biosynthesis, the findings highlight unrecognized phylogenetic complexity in PG-pathway retention and implicate a role in chloroplast structure or division in several extant Viridiplantae lineages.ConclusionsExtensive differences in gene loss and architecture between related prasinophytes underscore their divergence. PG biosynthesis genes from the cyanobacterial endosymbiont that became the plastid, have been selectively retained in multiple plants and algae, implying a biological function. Our studies provide robust genomic resources for emerging model algae, advancing knowledge of marine phytoplankton and plant evolution. More... »

PAGES

267

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  • Identifiers

    URI

    http://scigraph.springernature.com/pub.10.1186/s12864-016-2585-6

    DOI

    http://dx.doi.org/10.1186/s12864-016-2585-6

    DIMENSIONS

    https://app.dimensions.ai/details/publication/pub.1021009754

    PUBMED

    https://www.ncbi.nlm.nih.gov/pubmed/27029936


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