Project title: Discovery and development of alleles contributing to sorghum drought tolerance. Main thematic targeted area: Subprogramme 2: Comparative genomics for gene discovery Partners, and corresponding institutions: Andrew H. Paterson (PI), Distinguished Research Professor, Univ. Georgia ([email protected]) I.D.K. Atokple, Sorghum Breeder, SARI, Tamale, Ghana ([email protected]) C. Thomas Hash, Principal Scientist (Breeding), ICRISAT, Patancheru, Hyderabad 502 324, Andhra Pradesh, India ([email protected]) S.P. Mehtre, Associate Professor, Dept of Genetics and Plant Breeding, Marathwada Agricultural University, Parbhani, Maharashtra, India ([email protected]) Abdalla Mohamed, Sorghum Breeder. ARC, Wad Medani, Sudan ([email protected]) Nadoor Seetharama, Director, National Research Center for Sorghum, Rajendranagar, Hyderabad 500 030, Andhra Pradesh, India ([email protected])
GRM 2013: Discovery and development of alleles contributing to sorghum drought tolerance -- A Paterson (redacted)
Aug 12, 2015
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Project title: Discovery and development of alleles contributing to sorghum drought tolerance.
Main thematic targeted area: Subprogramme 2: Comparative genomics for gene
discovery Partners, and corresponding institutions: Andrew H. Paterson (PI), Distinguished Research Professor, Univ. Georgia
([email protected]) I.D.K. Atokple, Sorghum Breeder, SARI, Tamale, Ghana ([email protected]) C. Thomas Hash, Principal Scientist (Breeding), ICRISAT, Patancheru, Hyderabad
502 324, Andhra Pradesh, India ([email protected]) S.P. Mehtre, Associate Professor, Dept of Genetics and Plant Breeding, Marathwada
Agricultural University, Parbhani, Maharashtra, India ([email protected])
Abdalla Mohamed, Sorghum Breeder. ARC, Wad Medani, Sudan ([email protected])
Nadoor Seetharama, Director, National Research Center for Sorghum, Rajendranagar, Hyderabad 500 030, Andhra Pradesh, India ([email protected])
Sorghum is the most drought-tolerant dual-purpose (grain + straw) cereal crop of the semi-arid tropics and subtropics, where development
challenges are the greatest and market failure is most acute.
Two major project elements:
1. Enhance terminal drought tolerance in improved sorghum germplasm by evaluating combinations of staygreen genes.
2. Test relationships between drought tolerance and specific genes, gene families and functional SNPs.
Fig 1. Difference in green leaf area maintenance after flowering in two stay-green QTL introgression lines K 260 and K293 (Stg3 and Stg4, respectively, from donor B35 in background of highly senescent but elite post-rainy season variety R 16)
Field studies
Many, to isolate QTL, produce crosses, etc … most recently completed is .. Ninety-one (91) double-QTL introgression homozygotes, their single-QTL introgression parents, donor and recurrent parents, and a local check, Kapaala were evaluated under irrigated dry season and rain-fed conditions for their agronomic performance (Ghana).
CSP Sorghum
Resequencing
Resequencing – 30 genomes, 41 transcriptomes
Products, Partners, Capacity Building Stg lines – one and two-QTL combinations E36-1 x N13 RIL population 8 transcriptomes, associated SNPs, and inferred functional importance(s) -built on BTx623 genome sequence (2009, Nature), now being used to improve primary annotation along with … -33 more transcriptomes and 30 genomes from US DOE, including priority genotypes of many other GCP scientists and projects Many trainees at numerous levels
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