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.
Project: TLIII
File type: External site / PDF (2.04 MB)
Genetics, genomics and breeding of groundnut (Arachis hypogaea L.)
This review paper highlights advances in genetics, genomics, and breeding to improve the productivity of groundnut in Asia and Africa.
Project: TLIII
File type: PDF (561.50 KB)
Groundnut entered post-genome sequencing era: opportunities and challenges in translating genomic information from genome to field
A review of the optimum genetic and genomic resources that are key for accelerating the process of trait mapping and gene discovery and deploying diagnostic markers in genomics-assisted breeding.
Project: TLIII
File type: PDF
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
Project: TLIII
File type: PDF (1.43 MB)
QTL-seq for Rapid Identification of Candidate Genes for 100-seed Weight and root/total Plant Dry Weight Ratio Under Rainfed Conditions in Chickpea
Terminal drought is a major constraint to chickpea productivity. In this article, QTL-seq approach was used to identify candidate genomic regions for 100-seed weight (100SDW) and total dry root weight to total plant dry weight ratio (RTR) under rainfed conditions.
Project: TLIII
File type: PDF (1,022.53 KB)
Emerging genomic tools for legume breeding: Current status and future prospects
An overview of emerging genomics and informatics tools/approaches that will be the key driving force for accelerating genomics-assisted breeding of legumes, ultimately ensuring nutritional and food security in developing countries.
Project: TLIII
File type: PDF (594.99 KB)