Microarray analysis of chitin elicitation in Arabidopsis thaliana
Microarray analysis of chitin elicitation in Arabidopsis thaliana
Chitin oligomers, released from fungal cell walls by endochitinase, induce defence and related cellular responses in many plants. However, little is known about chitin responses in the model plant Arabidopsis. We describe here a large-scale characterization of gene expression patterns in Arabidopsis in response to chitin treatment using an Arabidopsis microarray consisting of 2375 EST clones representing putative defence-related and regulatory genes. Transcript levels for 71 ESTs, representing 61 genes, were altered three-fold or more in chitin-treated seedlings relative to control seedlings. A number of transcripts exhibited altered accumulation as early as 10 min after exposure to chitin, representing some of the earliest changes in gene expression observed in chitin-treated plants. Included among the 61 genes were those that have been reported to be elicited by various pathogen-related stimuli in other plants. Additional genes, including genes of unknown function, were also identified, broadening our understanding of chitin-elicited responses. Among transcripts with enhanced accumulation, one cluster was enriched in genes with both the W-box promoter element and a novel regulatory element. In addition, a number of transcripts had decreased abundance, encoding several proteins involved in cell wall strengthening and wall deposition. The chalcone synthase promoter element was identified in the upstream regions of these genes, suggesting that pathogen signals may suppress the expression of some genes. These data indicate that Arabidopsis should be an excellent model to elucidate the mechanisms of chitin elicitation in plant defence.
301-311
Ramonell, Katrina M.
e476fe48-3fe0-431f-b34d-0b2680117c3d
Zhang, Bing
9350b586-2051-4b05-ade7-6a65ec06fd5f
Ewing, Rob M.
022c5b04-da20-4e55-8088-44d0dc9935ae
Chen, Yu
b7c530d5-7aa6-4515-ac71-907f6673423b
Xu, Dong
3f6db920-9bb4-4794-bf09-463d3a70a0a5
Stacey, Gary
5578a84b-3e20-4b97-92fe-24709b302c06
Somerville, Shauna
70be440a-2500-49e1-bda6-143be2528789
1 September 2002
Ramonell, Katrina M.
e476fe48-3fe0-431f-b34d-0b2680117c3d
Zhang, Bing
9350b586-2051-4b05-ade7-6a65ec06fd5f
Ewing, Rob M.
022c5b04-da20-4e55-8088-44d0dc9935ae
Chen, Yu
b7c530d5-7aa6-4515-ac71-907f6673423b
Xu, Dong
3f6db920-9bb4-4794-bf09-463d3a70a0a5
Stacey, Gary
5578a84b-3e20-4b97-92fe-24709b302c06
Somerville, Shauna
70be440a-2500-49e1-bda6-143be2528789
Ramonell, Katrina M., Zhang, Bing, Ewing, Rob M., Chen, Yu, Xu, Dong, Stacey, Gary and Somerville, Shauna
(2002)
Microarray analysis of chitin elicitation in Arabidopsis thaliana.
Molecular Plant Pathology, 3 (5), .
(doi:10.1046/j.1364-3703.2002.00123.x).
(PMID:20569338)
Abstract
Chitin oligomers, released from fungal cell walls by endochitinase, induce defence and related cellular responses in many plants. However, little is known about chitin responses in the model plant Arabidopsis. We describe here a large-scale characterization of gene expression patterns in Arabidopsis in response to chitin treatment using an Arabidopsis microarray consisting of 2375 EST clones representing putative defence-related and regulatory genes. Transcript levels for 71 ESTs, representing 61 genes, were altered three-fold or more in chitin-treated seedlings relative to control seedlings. A number of transcripts exhibited altered accumulation as early as 10 min after exposure to chitin, representing some of the earliest changes in gene expression observed in chitin-treated plants. Included among the 61 genes were those that have been reported to be elicited by various pathogen-related stimuli in other plants. Additional genes, including genes of unknown function, were also identified, broadening our understanding of chitin-elicited responses. Among transcripts with enhanced accumulation, one cluster was enriched in genes with both the W-box promoter element and a novel regulatory element. In addition, a number of transcripts had decreased abundance, encoding several proteins involved in cell wall strengthening and wall deposition. The chalcone synthase promoter element was identified in the upstream regions of these genes, suggesting that pathogen signals may suppress the expression of some genes. These data indicate that Arabidopsis should be an excellent model to elucidate the mechanisms of chitin elicitation in plant defence.
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Published date: 1 September 2002
Organisations:
Molecular and Cellular
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Local EPrints ID: 355417
URI: http://eprints.soton.ac.uk/id/eprint/355417
ISSN: 1464-6722
PURE UUID: d5ed4175-4633-43d5-8c37-db6bd64885f1
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Date deposited: 28 Oct 2013 13:04
Last modified: 15 Mar 2024 03:44
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Contributors
Author:
Katrina M. Ramonell
Author:
Bing Zhang
Author:
Yu Chen
Author:
Dong Xu
Author:
Gary Stacey
Author:
Shauna Somerville
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