Comparative analysis of root transcriptome profiles of two pairs of drought-tolerant and susceptible rice near-isogenic lines under different drought stress

Comparative analysis of root transcriptome profiles of two pairs of drought-tolerant and susceptible rice near-isogenic lines under different drought stress

Background Plant roots are important organs to uptake soil water and nutrients, perceiving and transducing of soil water deficit signals to shoot. The current knowledge of drought stress transcriptomes in rice are mostly relying on comparative studies of diverse genetic background under drought. A m...

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Published in:BMC plant biology Vol. 11; no. 1; p. 174
Main Authors: Moumeni, Ali, Satoh, Kouji, Kondoh, Hiroaki, Asano, Takayuki, Hosaka, Aeni, Venuprasad, Ramiah, Serraj, Rachid, Kumar, Arvind, Leung, Hei, Kikuchi, Shoshi
Format: Journal Article
Language:English
Published: England BioMed Central Ltd 02-12-2011
BioMed Central
BMC
Subjects:
amino acid metabolism
auxins
biosynthesis
Carbohydrate metabolism
cell growth
cell walls
correlation
Data processing
Drought
drought tolerance
Droughts
Experiments
Freshwater resources
Gene expression
gene expression regulation
Gene Expression Regulation, Plant
genes
Genetic aspects
genetic background
Genotype
gibberellic acid
Microarray Analysis
nutrients
Oryza - genetics
Oryza - metabolism
photosynthesis
Physiological aspects
Plant Roots - genetics
Plant Roots - metabolism
Rice
RNA, Plant - genetics
roots
signal transduction
soil water
soil water deficit
Stress, Physiological
Studies
transcription factors
Transcriptome
transcriptomics
water stress
Iran
Japan
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Summary:Background Plant roots are important organs to uptake soil water and nutrients, perceiving and transducing of soil water deficit signals to shoot. The current knowledge of drought stress transcriptomes in rice are mostly relying on comparative studies of diverse genetic background under drought. A more reliable approach is to use near-isogenic lines (NILs) with a common genetic background but contrasting levels of resistance to drought stress under initial exposure to water deficit. Here, we examined two pairs of NILs in IR64 background with contrasting drought tolerance. We obtained gene expression profile in roots of rice NILs under different levels of drought stress help to identify genes and mechanisms involved in drought stress. Results Global gene expression analysis showed that about 55% of genes differentially expressed in roots of rice in response to drought stress treatments. The number of differentially expressed genes (DEGs) increased in NILs as the level of water deficits, increased from mild to severe condition, suggesting that more genes were affected by increasing drought stress. Gene onthology (GO) test and biological pathway analysis indicated that activated genes in the drought tolerant NILs IR77298-14-1-2-B-10 and IR77298-5-6-B-18 were mostly involved in secondary metabolism, amino acid metabolism, response to stimulus, defence response, transcription and signal transduction, and down-regulated genes were involved in photosynthesis and cell wall growth. We also observed gibberellic acid (GA) and auxin crosstalk modulating lateral root formation in the tolerant NILs. Conclusions Transcriptome analysis on two pairs of NILs with a common genetic background (approximately 97%) showed distinctive differences in gene expression profiles and could be effective to unravel genes involved in drought tolerance. In comparison with the moderately tolerant NIL IR77298-5-6-B-18 and other susceptible NILs, the tolerant NIL IR77298-14-1-2-B-10 showed a greater number of DEGs for cell growth, hormone biosynthesis, cellular transports, amino acid metabolism, signalling, transcription factors and carbohydrate metabolism in response to drought stress treatments. Thus, different mechanisms are achieving tolerance in the two tolerant lines.
Bibliography:http://dx.doi.org/10.1186/1471-2229-11-174
ObjectType-Article-2
SourceType-Scholarly Journals-1
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content type line 23
ISSN:1471-2229
1471-2229
DOI:10.1186/1471-2229-11-174