Functional microarray analysis of nitrogen and carbon cycling genes across an Antarctic latitudinal transect

Soil-borne microbial communities were examined via a functional gene microarray approach across a southern polar latitudinal gradient to gain insight into the environmental factors steering soil N- and C-cycling in terrestrial Antarctic ecosystems. The abundance and diversity of functional gene fami...

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Published in:The ISME Journal
Main Authors: Yergeau, E., Kang, S., He, Z., Zhou, J.N., Kowalchuk, G.A.
Format: Article in Journal/Newspaper
Language:English
Published: 2007
Subjects:
Antarc*
Antarctic
Online Access:https://pure.knaw.nl/portal/en/publications/359010fd-7e5e-43c2-9a75-a2c7d637fcb7
https://doi.org/10.1038/ismej.2007.24
https://hdl.handle.net/20.500.11755/359010fd-7e5e-43c2-9a75-a2c7d637fcb7
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spelling ftknawnlpublic:oai:pure.knaw.nl:publications/359010fd-7e5e-43c2-9a75-a2c7d637fcb7 2024-09-15T17:45:22+00:00 Functional microarray analysis of nitrogen and carbon cycling genes across an Antarctic latitudinal transect Yergeau, E. Kang, S. He, Z. Zhou, J.N. Kowalchuk, G.A. 2007 https://pure.knaw.nl/portal/en/publications/359010fd-7e5e-43c2-9a75-a2c7d637fcb7 https://doi.org/10.1038/ismej.2007.24 https://hdl.handle.net/20.500.11755/359010fd-7e5e-43c2-9a75-a2c7d637fcb7 eng eng https://pure.knaw.nl/portal/en/publications/359010fd-7e5e-43c2-9a75-a2c7d637fcb7 info:eu-repo/semantics/closedAccess Yergeau , E , Kang , S , He , Z , Zhou , J N & Kowalchuk , G A 2007 , ' Functional microarray analysis of nitrogen and carbon cycling genes across an Antarctic latitudinal transect ' , ISME Journal , vol. 1 , no. 2 , pp. 163-179 . https://doi.org/10.1038/ismej.2007.24 article 2007 ftknawnlpublic https://doi.org/10.1038/ismej.2007.2420.500.11755/359010fd-7e5e-43c2-9a75-a2c7d637fcb7 2024-07-22T23:43:54Z Soil-borne microbial communities were examined via a functional gene microarray approach across a southern polar latitudinal gradient to gain insight into the environmental factors steering soil N- and C-cycling in terrestrial Antarctic ecosystems. The abundance and diversity of functional gene families were studied for soil-borne microbial communities inhabiting a range of environments from 51°S (cool temperate – Falkland Islands) to 72°S (cold rock desert – Coal Nunatak). The recently designed functional gene array used contains 24 243 oligonucleotide probes and covers >10 000 genes in >150 functional groups involved in nitrogen, carbon, sulfur and phosphorus cycling, metal reduction and resistance and organic contaminant degradation (He et al. 2007). The detected N- and C-cycle genes were significantly different across different sampling locations and vegetation types. A number of significant trends were observed regarding the distribution of key gene families across the environments examined. For example, the relative detection of cellulose degradation genes was correlated with temperature, and microbial C-fixation genes were more present in plots principally lacking vegetation. With respect to the N-cycle, denitrification genes were linked to higher soil temperatures, and N2-fixation genes were linked to plots mainly vegetated by lichens. These microarray-based results were confirmed for a number of gene families using specific real-time PCR, enzymatic assays and process rate measurements. The results presented demonstrate the utility of an integrated functional gene microarray approach in detecting shifts in functional community properties in environmental samples and provide insight into the forces driving important processes of terrestrial Antarctic nutrient cycling. Soil-borne microbial communities were examined via a functional gene microarray approach across a southern polar latitudinal gradient to gain insight into the environmental factors steering soil N- and C-cycling in terrestrial ... Article in Journal/Newspaper Antarc* Antarctic Royal Netherlands Academy of Arts and Sciences Research Portal (KNAW) The ISME Journal 1 2 163 179
institution Open Polar
collection Royal Netherlands Academy of Arts and Sciences Research Portal (KNAW)
op_collection_id ftknawnlpublic
language English
description Soil-borne microbial communities were examined via a functional gene microarray approach across a southern polar latitudinal gradient to gain insight into the environmental factors steering soil N- and C-cycling in terrestrial Antarctic ecosystems. The abundance and diversity of functional gene families were studied for soil-borne microbial communities inhabiting a range of environments from 51°S (cool temperate – Falkland Islands) to 72°S (cold rock desert – Coal Nunatak). The recently designed functional gene array used contains 24 243 oligonucleotide probes and covers >10 000 genes in >150 functional groups involved in nitrogen, carbon, sulfur and phosphorus cycling, metal reduction and resistance and organic contaminant degradation (He et al. 2007). The detected N- and C-cycle genes were significantly different across different sampling locations and vegetation types. A number of significant trends were observed regarding the distribution of key gene families across the environments examined. For example, the relative detection of cellulose degradation genes was correlated with temperature, and microbial C-fixation genes were more present in plots principally lacking vegetation. With respect to the N-cycle, denitrification genes were linked to higher soil temperatures, and N2-fixation genes were linked to plots mainly vegetated by lichens. These microarray-based results were confirmed for a number of gene families using specific real-time PCR, enzymatic assays and process rate measurements. The results presented demonstrate the utility of an integrated functional gene microarray approach in detecting shifts in functional community properties in environmental samples and provide insight into the forces driving important processes of terrestrial Antarctic nutrient cycling. Soil-borne microbial communities were examined via a functional gene microarray approach across a southern polar latitudinal gradient to gain insight into the environmental factors steering soil N- and C-cycling in terrestrial ...
format Article in Journal/Newspaper
author Yergeau, E.
Kang, S.
He, Z.
Zhou, J.N.
Kowalchuk, G.A.
spellingShingle Yergeau, E.
Kang, S.
He, Z.
Zhou, J.N.
Kowalchuk, G.A.
Functional microarray analysis of nitrogen and carbon cycling genes across an Antarctic latitudinal transect
author_facet Yergeau, E.
Kang, S.
He, Z.
Zhou, J.N.
Kowalchuk, G.A.
author_sort Yergeau, E.
title Functional microarray analysis of nitrogen and carbon cycling genes across an Antarctic latitudinal transect
title_short Functional microarray analysis of nitrogen and carbon cycling genes across an Antarctic latitudinal transect
title_full Functional microarray analysis of nitrogen and carbon cycling genes across an Antarctic latitudinal transect
title_fullStr Functional microarray analysis of nitrogen and carbon cycling genes across an Antarctic latitudinal transect
title_full_unstemmed Functional microarray analysis of nitrogen and carbon cycling genes across an Antarctic latitudinal transect
title_sort functional microarray analysis of nitrogen and carbon cycling genes across an antarctic latitudinal transect
publishDate 2007
url https://pure.knaw.nl/portal/en/publications/359010fd-7e5e-43c2-9a75-a2c7d637fcb7
https://doi.org/10.1038/ismej.2007.24
https://hdl.handle.net/20.500.11755/359010fd-7e5e-43c2-9a75-a2c7d637fcb7
genre Antarc*
Antarctic
genre_facet Antarc*
Antarctic
op_source Yergeau , E , Kang , S , He , Z , Zhou , J N & Kowalchuk , G A 2007 , ' Functional microarray analysis of nitrogen and carbon cycling genes across an Antarctic latitudinal transect ' , ISME Journal , vol. 1 , no. 2 , pp. 163-179 . https://doi.org/10.1038/ismej.2007.24
op_relation https://pure.knaw.nl/portal/en/publications/359010fd-7e5e-43c2-9a75-a2c7d637fcb7
op_rights info:eu-repo/semantics/closedAccess
op_doi https://doi.org/10.1038/ismej.2007.2420.500.11755/359010fd-7e5e-43c2-9a75-a2c7d637fcb7
container_title The ISME Journal
container_volume 1
container_issue 2
container_start_page 163
op_container_end_page 179
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