Quality evaluation of near isogenic lines of wheat developed through marker assisted backcross breeding for grain softness

Kumar, Tej Pratap Jitendra; Ahlawat, Arvind Kumar; Singh, Sumit; Rathan, N. D.; Rai, Anjali; Bajpai, Kriti; Bedi, Namita; Singh, Anju Mahendru

doi:10.31742/ijgpb.82.1.8

IJGPB

2022

DOI: 10.31742/ijgpb.82.1.8

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Quality evaluation of near isogenic lines of wheat developed through marker assisted backcross breeding for grain softness

Tej Pratap Jitendra Kumar¹,

Arvind Kumar Ahlawat²,

Sumit Singh³

et al.

Abstract: A set of 16 Near Isogenic Lines (NILs) developed from a cross, Barham x DBW14 for grain softness gene (Pina-D1aPinbD1a) combined with Lr37-Yr17-Sr38 segment was evaluated for different quality traits. Rheological test of flour and baking test with sugar-snap cookies were also performed. The Hardness Index of the NILs ranged between 13.86 and 47.13. The flour of the NILs had relatively lower proportion of particles >150 μm than in the classes of 0 to ≤ 55 μm and > 55 to ≤ 105 μm. Starch damage of all the … Show more

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Genomic Approaches in Wheat Breeding for Sustainable Production under Changing Climate

Manzoor¹,

Liu²,

Qadir³

et al. 2022

Wheat

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Wheat is the most important cereal crop, a great source of dietary protein. It is grown worldwide for its consumption in the form of different products. Wheat production faces a lot of biotic and abiotic stresses that hinder growth and yield. Changing climate is a worse scenario to be adopted for sustainable production. Food demand is rapidly increasing by a drastic increase in the world population. Conventional breeding techniques are time-consuming and ineffective in attaining high yield goals under changing climates. Next-generation sequencing revolutionized wheat breeding through molecular approaches for effective selection. The use of genomic approaches in wheat breeding is the need of time for sustainable production. Several genomic approaches, such as use of genome-wide markers for gene mapping, genomic selection and recurrent selection through QTL and meta-QTL analysis, markers-assisted selection in haploid breeding, heterosis breeding through genomic tools, and biotechnological tools, are currently used as modern techniques for developing climate-resilient wheat cultivars. This chapter illustrated the challenges of changing climate, molecular techniques in wheat breeding to develop climate-resilient genotypes, sustainable wheat production to cope with food demand, and future breeding strategies.

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Genomic Approaches in Wheat Breeding for Sustainable Production under Changing Climate

Manzoor¹,

Liu²,

Qadir³

et al. 2022

Wheat

View full text Add to dashboard Cite

show abstract

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Quality evaluation of near isogenic lines of wheat developed through marker assisted backcross breeding for grain softness

Cited by 1 publication

References 18 publications

Genomic Approaches in Wheat Breeding for Sustainable Production under Changing Climate

Genomic Approaches in Wheat Breeding for Sustainable Production under Changing Climate

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