Journal Article
Título | Metatranscriptomes reveal functional variation in diatom communities from the Antarctic Peninsula. |
Publication Type | Journal Article |
Authors | Pearson, GA, Lago-Lestón, A, Cánovas, F, Cox, CJ, Verret, F, Lasternas, S, Duarte, CM, Agusti, S, Serrão, EA |
Year of Publication | 2015 |
Journal | ISME J |
Volume | 9 |
Questão | 10 |
Date Published | 2015 Oct |
Pagination | 2275-89 |
ISSN | 1751-7362 |
Palavras-chave | Antarctic Regions, Biodiversity, Carbon, Cold Temperature, diatoms, Energy Metabolism, Gene Expression Profiling, Ice Cover, Nitrates, Nitrogen, Phylogeny |
Abstract | Functional genomics of diatom-dominated communities from the Antarctic Peninsula was studied using comparative metatranscriptomics. Samples obtained from diatom-rich communities in the Bransfield Strait, the western Weddell Sea and sea ice in the Bellingshausen Sea/Wilkins Ice Shelf yielded more than 500K pyrosequencing reads that were combined to produce a global metatranscriptome assembly. Multi-gene phylogenies recovered three distinct communities, and diatom-assigned contigs further indicated little read-sharing between communities, validating an assembly-based annotation and analysis approach. Although functional analysis recovered a core of abundant shared annotations that were expressed across the three diatom communities, over 40% of annotations (but accounting for <10% of sequences) were community-specific. The two pelagic communities differed in their expression of N-metabolism and acquisition genes, which was almost absent in post-bloom conditions in the Weddell Sea community, while enrichment of transporters for ammonia and urea in Bransfield Strait diatoms suggests a physiological stance towards acquisition of reduced N-sources. The depletion of carbohydrate and energy metabolism pathways in sea ice relative to pelagic communities, together with increased light energy dissipation (via LHCSR proteins), photorespiration, and NO3(-) uptake and utilization all pointed to irradiance stress and/or inorganic carbon limitation within sea ice. Ice-binding proteins and cold-shock transcription factors were also enriched in sea ice diatoms. Surprisingly, the abundance of gene transcripts for the translational machinery tracked decreasing environmental temperature across only a 4 °C range, possibly reflecting constraints on translational efficiency and protein production in cold environments. |
DOI | 10.1038/ismej.2015.40 |
Sapientia | |
Alternate Journal | ISME J |
PubMed ID | 25871931 |
PubMed Central ID | PMC4579479 |