Translational genomics for achieving higher genetic gains in groundnut
This article describes advances in translational genomics in the groundnut to facilitate faster trait dissection, gene discovery and accelerated genetic improvement for developing climate-smart varieties.
High-density genetic map using whole-genome resequencing for fine mapping and candidate gene discovery for disease resistance in peanut
This paper evaluates efforts to generate whole-genome resequencing data on a recombinant inbred line population, develop a SNP‐based high‐density genetic map, and conduct fine mapping, candidate gene discovery and marker validation for early leaf spot, late leaf spot, and Tomato spotted wilt virus in peanut.
Genetic imprints of domestication for disease resistance, oil quality, and yield component traits in groundnut
This article analyses how the difference in ploidy between the wild groundnut species, Arachis, and cultivated genotypes hinder the transfer of useful alleles for agronomically important traits.
Development and evaluation of a high density genotyping ‘Axiom_Arachis’ array with 58K SNPs for accelerating genetics and breeding in groundnut
The article discusses the development of a high-density SNP array ‘Axiom_Arachis’ with 58 K SNPs and deminstrates its utility in a groundnut genetic diversity study.
QTL-seq approach identified genomic regions and diagnostic markers for rust and late leaf spot resistance in groundnut (Arachis hypogaea L.)
The results presented in this study suggest the usefulness of a QTL-seq approach for the precise and rapid identification of candidate genomic regions and the development of diagnostic markers for breeding applications. The approach was applied to identify genomic regions and diagnostic markers for rust and late leaf spot resistance in groundnut
