Your search keyword '"Mohini Prabha, Singh"' showing total 1 results

1. Association genetics of the parameters related to nitrogen use efficiency in Brassica juncea L

Author

Mohini Prabha Singh, Navneet Kaur, Meenakshi Mittal, Prinka Goyal, Neha Gupta, Mehak Gupta, Rimaljeet Kaur, Surinder S. Banga, Sanjula Sharma, Baudh Bharti, Virender Sardana, Javed Akhatar, Anna Goyal, and Archana Mukta

Subjects

Germplasm, Genetics, Candidate gene, Genotype, biology, Nitrogen, Quantitative Trait Loci, Brassica, Genome-wide association study, Single-nucleotide polymorphism, Plant Science, General Medicine, Quantitative trait locus, Genes, Plant, biology.organism_classification, Polymorphism, Single Nucleotide, Linkage Disequilibrium, Phenotype, Inbred strain, Association mapping, Agronomy and Crop Science, Genome-Wide Association Study, Mustard Plant

Abstract

Genome wide association studies allowed prediction of 17 candidate genes for association with nitrogen use efficiency. Novel information obtained may provide better understanding of genomic controls underlying germplasm variations for this trait in Indian mustard. Nitrogen use efficiency (NUE) of Indian mustard (Brassica juncea (L.) Czern & Coss.) is low and most breeding efforts to combine NUE with crop performance have not succeeded. Underlying genetics also remain unexplored. We tested 92 SNP-genotyped inbred lines for yield component traits, N uptake efficiency (NUPEFF), nitrogen utilization efficiency (NUTEFF), nitrogen harvest index (NHI) and NUE for two years at two nitrogen doses (No without added N and N100 added @100 kg/ha). Genotypes IC-2489-88, M-633, MCP-632, HUJM 1080, GR-325 and DJ-65 recorded high NUE at low N. These also showed improved crop performance under high N. One determinate mustard genotype DJ-113 DT-3 revealed maximum NUTEFF. Genome wide association studies (GWAS) facilitated recognition of 17 quantitative trait loci (QTLs). Environment specificity was high. B-genome chromosomes (B02, B03, B05, B07 and B08) harbored many useful loci. We also used regional association mapping (RAM) to supplement results from GWAS. Annotation of the genomic regions around peak SNPs helped to predict several gene candidates for root architecture, N uptake, assimilation and remobilization. CAT9 (At1g05940) was consistently envisaged for both NUE and NUPEFF. Major N transporter genes, NRT1.8 and NRT3.1 were predicted for explaining variation for NUTEFF and NUPEFF, respectively. Most significant amino acid transporter gene, AAP1 appeared associated with NUE under limited N conditions. All these candidates were predicted in the regions of high linkage disequilibrium. Sequence information of the predicted candidate genes will permit development of molecular markers to aid breeding for high NUE.

Published

2020