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        <dc:title>Haplotype for drought responsive genes in pigeonpea</dc:title>
        <dc:creator>Sinha, P</dc:creator>
        <dc:creator>Saxena, R K</dc:creator>
        <dc:creator>Singh, V K</dc:creator>
        <dc:creator>Khan, A W</dc:creator>
        <dc:creator>Upadhyaya, H D</dc:creator>
        <dc:creator>Desai, A</dc:creator>
        <dc:creator>Sameer Kumar, C V</dc:creator>
        <dc:creator>Varshney, R K</dc:creator>
        <dc:subject>Abiotic Stress</dc:subject>
        <dc:subject>Drought Tolerance</dc:subject>
        <dc:subject>Pigeonpea</dc:subject>
        <dc:subject>Drought</dc:subject>
        <dc:subject>Genetics and Genomics</dc:subject>
        <dc:description>Pigeonpea is a resilient crop which is relatively drought tolerant&#13;
compared to many other legumes. To understand the&#13;
molecular mechanisms of this unique feature in pigeonpea, 51&#13;
genes were selected using the Hidden Markov Models (HMM).&#13;
These genes were validated for their expression on parents of&#13;
mapping populations (ICPL 151, ICPL 8755, and ICPL 227) segregating&#13;
for drought tolerance. A total of 10 differentially expressed&#13;
genes that showed ≥2-fold up-regulation in the higher&#13;
drought tolerant genotypes was identified. Further analysis of&#13;
the 10 genes revealed that they encode four different classes of&#13;
proteins. These include plant U-box protein (four genes), universal&#13;
stress protein A-like protein (four genes), cation/H(+)&#13;
antiporter protein (one gene) and an uncharacterized protein&#13;
(one gene). Subsequently, these 10 candidate genes were used&#13;
for haplotype analysis in whole genome re-sequencing data of&#13;
292 lines. As a result, 10 to 56 haplotypes were identified for&#13;
the selected 10 genes. In order to validate the haplotype results,&#13;
a defined set of lines is being phenotyped for induced&#13;
water stress using polyethylene glycol (PEG) at seedling stage&#13;
along with the non-stressed control seedlings. Phenotyping&#13;
data together with the haplotype information of the targeted&#13;
candidate genes will be useful for the identification of superior&#13;
haplotypes of genes. The lines possessing superior haplotypes&#13;
of the candidate genes could be used in genomics-assisted&#13;
breeding programs for development of more drought tolerant&#13;
lines.</dc:description>
        <dc:date>2017-02</dc:date>
        <dc:type>Conference or Workshop Item</dc:type>
        <dc:type>PeerReviewed</dc:type>
        <dc:format>application/pdf</dc:format>
        <dc:language>en</dc:language>
        <dc:identifier>http://oar.icrisat.org/10316/1/Abstract_Book_425a.pdf</dc:identifier>
        <dc:identifier>  Sinha, P and Saxena, R K and Singh, V K and Khan, A W and Upadhyaya, H D and Desai, A and Sameer Kumar, C V and Varshney, R K  (2017) Haplotype for drought responsive genes in pigeonpea.  In: InterDrought-V, February 21-25, 2017, Hyderabad, India.     </dc:identifier></oai_dc:dc>
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