Identification of candidate genes for drought stress tolerance in rice by the integration of a genetic (QTL) map with the rice genome physical map.
- Author:
Xu-Sheng WANG
1
;
Jun ZHU
;
Locedie MANSUETO
;
Richard BRUSKIEWICH
Author Information
1. Biometrics and Bioinformatics Unit, International Rice Research Institute DAPO 7777, Metro Manila, Philippines.
- Publication Type:Journal Article
- MeSH:
Disasters;
Expressed Sequence Tags;
Gene Expression Regulation, Plant;
genetics;
Gene Library;
Genes, Plant;
genetics;
Genome, Plant;
Oryza;
genetics;
Physical Chromosome Mapping;
Plant Diseases;
genetics;
Quantitative Trait Loci;
genetics;
Signal Transduction;
Water;
metabolism
- From:
Journal of Zhejiang University. Science. B
2005;6(5):382-388
- CountryChina
- Language:English
-
Abstract:
Genetic improvement for drought stress tolerance in rice involves the quantitative nature of the trait, which reflects the additive effects of several genetic loci throughout the genome. Yield components and related traits under stressed and well-water conditions were assayed in mapping populations derived from crosses of AzucenaxIR64 and AzucenaxBala. To find the candidate rice genes underlying Quantitative Trait Loci (QTL) in these populations, we conducted in silico analysis of a candidate region flanked by the genetic markers RM212 and RM319 on chromosome 1, proximal to the semi-dwarf (sd1) locus. A total of 175 annotated genes were identified from this region. These included 48 genes annotated by functional homology to known genes, 23 pseudogenes, 24 ab initio predicted genes supported by an alignment match to an EST (Expressed sequence tag) of unknown function, and 80 hypothetical genes predicted solely by ab initio means. Among these, 16 candidate genes could potentially be involved in drought stress response.
