, 2013). The messenger RNA (mRNA) reads were mapped onto metagenome sequences obtained from the same samples (Teeling et al., 2012) as previously described (Klindworth et al., 2014). Up to 80% of the metatranscriptome reads could be mapped
to the corresponding metagenome data (Teeling et al., 2012) and up to 58% of all sequences could be assigned onto predicted genes. Taxonomic analysis based on expressed 16S rDNA revealed that the core of the metabolic active member includes Alphaproteobacteria and Gammaproteobacteria. The majority of reads could be assigned to members of the SAR11 clade. Unlike before and amidst the phytoplankton bloom, only up to 3% of all expressed 16S rDNA reads could be assigned to Flavobacteria suggesting a lower microbial activity level during the nutrient depleted winter period. The most abundant mRNA transcripts with known function coded for housekeeping genes such as elongation factors, DNA gyrase and sigma factors, indicating fit click here and active microbial cells. The data set showed
40,215 hits to the Pfam database (Finn et al., 2010) and yielded significant numbers of membrane transporters reflecting differences in nutritional ecological strategies of the dominant bacterial classes as previously reported (Klindworth et al., 2014). Among those most abundant were genes encoding for bacterial extracellular solute-binding proteins (SBP) as well as monomer transporter such as ATP binding cassette (ABC) and tripartite ATP independent (TRAP) transporter. The clear majority of those transcripts PF2341066 could be assigned to members of the SAR11 clade. In addition, a minor amount of genes encoding for components of the TonB-dependent transport systems (TBDT) were expressed by SAR92. Our study also revealed gammaproteobacterial expression of the light-dependent Proteorhodopsin (PR), of which one third was expressed by members of the SAR92 clade, which are known to possess several PR genes (Giovannoni et al., 2005). Within the alphaproteobacterial class, PR encoding transcripts diglyceride were exclusively expressed by SAR11 clade members. Moreover, the data set showed
860 hits to the CAZy database (Cantarel et al., 2009). The majority could be assigned to cellulose degrading GH3 and the carbohydrate-binding-module CBM50. However, in comparison to the metatranscriptomes from 31.03.2009 (1210 hits) and 14.04.2009 (1010 hits) before and amidst the phytoplankton bloom less CAZyme transcripts involved in the breakdown of complex algae polysaccharides could be detected. The metatranscriptome data described in this study provides a valuable sequence resource for scientist investigating the characteristics of the marine microbes during colder and nutrient depleted times including the sustained study of genomic biodiversity and function as part of the Genomic Observatories Network (Davies et al., 2014). The sequences have been deposited at the ENA with the accession number PRJEB5205.
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