File:High-Nutrient-Transport-and-Cycling-Potential-Revealed-in-the-Microbial-Metagenome-of-Australian-pone.0036478.g002.jpg
High-Nutrient-Transport-and-Cycling-Potential-Revealed-in-the-Microbial-Metagenome-of-Australian-pone.0036478.g002.jpg (660 × 422 pixels, file size: 80 KB, MIME type: image/jpeg)
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DescriptionHigh-Nutrient-Transport-and-Cycling-Potential-Revealed-in-the-Microbial-Metagenome-of-Australian-pone.0036478.g002.jpg |
English: A: The metabolic potential of the Australian sea lion gut microbiome is dominated by clustering-based subsystems and carbohydrates. Protein metabolism and DNA metabolism are also highly represented. Sequences coding for prophage, secondary metabolism, macromolecular synthesis and dormancy and sporulation were also present but were represented by <10 sequences each and hence are not shown here. B: The metabolic potential of the clustering based subsystems in the Australian sea lion gut microbiome are dominated by clustering based subsystems, cell division and protein export. The following metabolic functions were also present but had <10 sequences and are not shown here: hypothetical associated with RecF, carotenoid biosynthesis, tricarboxylate transporter, probably organic hydroperoxide resistance related hypothetical, protein, pigment biosynthesis, related to N-acetylglucosamine utilization subsystem, TldD cluster, tRNA sulfuration, chemotaxis, response regulators, cluster of unknown function, DNA polymerase III episolon cluster, lipoprotein B cluster, putrescine/GABA utilization cluster, D-tyrosyl-tRNA (Tyr) deacylase (EC′3.1.-.-) cluster, metaylamine utilisation, putative GGDEF doman protein related to agglutinin secretion, and siderophore biosynthesis. C: The clustering-based subsystems were further dominated by clustering-based systems (hierarchical level 3), di- and oligosaccharides, central carbohydrate metabolism, monosaccharides. |
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Source | Image file from Lavery T, Roudnew B, Seymour J, Mitchell J, Jeffries T (2012). "High Nutrient Transport and Cycling Potential Revealed in the Microbial Metagenome of Australian Sea Lion (Neophoca cinerea) Faeces". PLOS ONE. DOI:10.1371/journal.pone.0036478. PMID 22606263. PMC: 3350522. | |
Author | Lavery T, Roudnew B, Seymour J, Mitchell J, Jeffries T | |
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Image width | 2,098 px |
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Date and time of digitizing | 19:07, 4 May 2012 |
File change date and time | 19:07, 4 May 2012 |
Date metadata was last modified | 19:07, 4 May 2012 |
Unique ID of original document | uuid:5A1FDB58D38EE111A29FFB8785B7F611 |
IIM version | 2 |