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A microarray for assessing transcription from pelagic marine microbial taxa

A microarray for assessing transcription from pelagic marine microbial taxa
A microarray for assessing transcription from pelagic marine microbial taxa
Metagenomic approaches have revealed unprecedented genetic diversity within microbial communities across vast expanses of the world’s oceans. Linking this genetic diversity with key metabolic and cellular activities of microbial assemblages is a fundamental challenge. Here we report on a collaborative effort to design MicroTOOLs (Microbiological Targets for Ocean Observing Laboratories), a high-density oligonucleotide microarray that targets functional genes of diverse taxa in pelagic and coastal marine microbial communities. MicroTOOLs integrates nucleotide sequence information from disparate data types: genomes, PCR-amplicons, metagenomes, and metatranscriptomes. It targets 19?400 unique sequences over 145 different genes that are relevant to stress responses and microbial metabolism across the three domains of life and viruses. MicroTOOLs was used in a proof-of-concept experiment that compared the functional responses of microbial communities following Fe and P enrichments of surface water samples from the North Pacific Subtropical Gyre. We detected transcription of 68% of the gene targets across major taxonomic groups, and the pattern of transcription indicated relief from Fe limitation and transition to N limitation in some taxa. Prochlorococcus (eHLI), Synechococcus (sub-cluster 5.3) and Alphaproteobacteria SAR11 clade (HIMB59) showed the strongest responses to the Fe enrichment. In addition, members of uncharacterized lineages also responded. The MicroTOOLs microarray provides a robust tool for comprehensive characterization of major functional groups of microbes in the open ocean, and the design can be easily amended for specific environments and research questions.
marine, microbial, microarray, transcription, molecular
1751-7362
1476-1491
Shilova, Irina N.
5d9ef464-1ab1-4a87-b7ea-5e550ae1ea27
Robidart, Julie
a9b8d49c-c1e3-4a3b-a53c-685a0f2c7f93
James Tripp, H.
73b86c59-f2ba-4c73-afae-e9c2632f2d25
Turk-Kubo, Kendra
859ddf9d-b02a-4546-aa87-dc151df8704b
Wawrik, Boris
c4963f13-d47f-4b47-8616-31394175ee64
Post, Anton F.
a6fc4e9c-31ef-44d2-bd2c-b6e9d5f62b48
Thompson, Anne W.
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Ward, Bess
94fd1ed1-7194-4784-8a39-062d86ec712e
Hollibaugh, James T.
239f7063-6dd0-44ec-94b2-cad957e87407
Millard, Andy
1d687027-98d0-4ebe-8e83-84e627b4ead9
Ostrowski, Martin
faffaad6-2f86-4de4-9c20-2718de2cff67
Scanlan, David J.
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Paerl, Ryan W.
b7a9019e-1af1-4d79-b286-80a42589e3d3
Stuart, Rhona
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Zehr, Jonathan P.
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Shilova, Irina N.
5d9ef464-1ab1-4a87-b7ea-5e550ae1ea27
Robidart, Julie
a9b8d49c-c1e3-4a3b-a53c-685a0f2c7f93
James Tripp, H.
73b86c59-f2ba-4c73-afae-e9c2632f2d25
Turk-Kubo, Kendra
859ddf9d-b02a-4546-aa87-dc151df8704b
Wawrik, Boris
c4963f13-d47f-4b47-8616-31394175ee64
Post, Anton F.
a6fc4e9c-31ef-44d2-bd2c-b6e9d5f62b48
Thompson, Anne W.
83d1d9f2-f9b3-483d-9c4e-2ad522261cb9
Ward, Bess
94fd1ed1-7194-4784-8a39-062d86ec712e
Hollibaugh, James T.
239f7063-6dd0-44ec-94b2-cad957e87407
Millard, Andy
1d687027-98d0-4ebe-8e83-84e627b4ead9
Ostrowski, Martin
faffaad6-2f86-4de4-9c20-2718de2cff67
Scanlan, David J.
748c7970-2e58-4a46-82ad-0138f41bd713
Paerl, Ryan W.
b7a9019e-1af1-4d79-b286-80a42589e3d3
Stuart, Rhona
0bb3715a-3c0f-4840-ad77-9c0e13b56701
Zehr, Jonathan P.
df07e726-0814-4247-8a74-942c07bd23e2

Shilova, Irina N., Robidart, Julie, James Tripp, H., Turk-Kubo, Kendra, Wawrik, Boris, Post, Anton F., Thompson, Anne W., Ward, Bess, Hollibaugh, James T., Millard, Andy, Ostrowski, Martin, Scanlan, David J., Paerl, Ryan W., Stuart, Rhona and Zehr, Jonathan P. (2014) A microarray for assessing transcription from pelagic marine microbial taxa. The ISME Journal, 8 (7), 1476-1491. (doi:10.1038/ismej.2014.1).

Record type: Article

Abstract

Metagenomic approaches have revealed unprecedented genetic diversity within microbial communities across vast expanses of the world’s oceans. Linking this genetic diversity with key metabolic and cellular activities of microbial assemblages is a fundamental challenge. Here we report on a collaborative effort to design MicroTOOLs (Microbiological Targets for Ocean Observing Laboratories), a high-density oligonucleotide microarray that targets functional genes of diverse taxa in pelagic and coastal marine microbial communities. MicroTOOLs integrates nucleotide sequence information from disparate data types: genomes, PCR-amplicons, metagenomes, and metatranscriptomes. It targets 19?400 unique sequences over 145 different genes that are relevant to stress responses and microbial metabolism across the three domains of life and viruses. MicroTOOLs was used in a proof-of-concept experiment that compared the functional responses of microbial communities following Fe and P enrichments of surface water samples from the North Pacific Subtropical Gyre. We detected transcription of 68% of the gene targets across major taxonomic groups, and the pattern of transcription indicated relief from Fe limitation and transition to N limitation in some taxa. Prochlorococcus (eHLI), Synechococcus (sub-cluster 5.3) and Alphaproteobacteria SAR11 clade (HIMB59) showed the strongest responses to the Fe enrichment. In addition, members of uncharacterized lineages also responded. The MicroTOOLs microarray provides a robust tool for comprehensive characterization of major functional groups of microbes in the open ocean, and the design can be easily amended for specific environments and research questions.

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More information

Published date: January 2014
Keywords: marine, microbial, microarray, transcription, molecular
Organisations: Ocean Technology and Engineering

Identifiers

Local EPrints ID: 374041
URI: http://eprints.soton.ac.uk/id/eprint/374041
DOI: doi:10.1038/ismej.2014.1
ISSN: 1751-7362
PURE UUID: 3db3dc32-c149-4896-9d8c-959a5c1e0f55

Catalogue record

Date deposited: 02 Feb 2015 14:38
Last modified: 14 Mar 2024 19:00

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Contributors

Author: Irina N. Shilova
Author: Julie Robidart
Author: H. James Tripp
Author: Kendra Turk-Kubo
Author: Boris Wawrik
Author: Anton F. Post
Author: Anne W. Thompson
Author: Bess Ward
Author: James T. Hollibaugh
Author: Andy Millard
Author: Martin Ostrowski
Author: David J. Scanlan
Author: Ryan W. Paerl
Author: Rhona Stuart
Author: Jonathan P. Zehr

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