Identifying genes associated with abiotic stress tolerance suitable for CRISPR/Cas9 editing in upland rice cultivars adapted to acid soils

Abstract: Five genes of large phenotypic effect known to confer abiotic stress tolerance in rice were selected to characterize allelic variation in commercial Colombian tropical japonica upland rice cultivars adapted to drought‐prone acid soil environments (cv. Llanura11 and Porvenir12). Allelic variants of the genes ART1 , DRO1 , SUB1A , PSTOL1 , and SPDT were characterized by PCR an… Show more

“…The authors utilized the rice restorer line ‘R21’ and the recipient restorer line Jin ‘Hui 1’, and were able to demonstrate with WGR that the sorghum introgression in line ‘R21’ confers mobile heat tolerance. Gene editing may speed up rice breeding for abiotic stresses [ 42 ], too. Bean breeders are also seeing a similar development by GBS-genotyping 87 advanced lines with inter-specific ancestries between common bean ( P. vulgaris ) and tepary bean ( P. acutifolius ) for heat and drought tolerance across four environments in coastal northern South America [ 43 ].…”

Molecular Genetics Enhances Plant Breeding

“…The authors utilized the rice restorer line ‘R21’ and the recipient restorer line Jin ‘Hui 1’, and were able to demonstrate with WGR that the sorghum introgression in line ‘R21’ confers mobile heat tolerance. Gene editing may speed up rice breeding for abiotic stresses [ 42 ], too. Bean breeders are also seeing a similar development by GBS-genotyping 87 advanced lines with inter-specific ancestries between common bean ( P. vulgaris ) and tepary bean ( P. acutifolius ) for heat and drought tolerance across four environments in coastal northern South America [ 43 ].…”

Molecular Genetics Enhances Plant Breeding

Breeding rice for yield improvement through CRISPR/Cas9 genome editing method: current technologies and examples

Bioengineering and management for efficient and sustainable utilization of phosphorus in crops