Key message Groundnut has entered now in post-genome era enriched with optimum
genomic and genetic resources to facilitate faster trait dissection, gene discovery and …

Climate change across the globe has an impact on the occurrence, prevalence, and severity
of plant diseases. About 30% of yield losses in major crops are due to plant diseases; …

Multiparental genetic mapping populations such as nested‐association mapping (NAM)
have great potential for investigating quantitative traits and associated genomic regions …

Stem rot, a devastating fungal disease of peanut, is caused by Sclerotium rolfsii. RNA-
sequencing approaches have been used to unravel the mechanisms of resistance to stem …

A deep understanding of the genetic control of drought tolerance and iron deficiency
tolerance is essential to hasten the process of developing improved varieties with higher …

Background Peanut stem rot is a serious plant disease that causes great economic losses.
At present, there are no effective measures to prevent or control the occurrence of this plant …

Seed size is not only a yield-related trait but also an important measure to determine the
commercial value of groundnut in the international market. For instance, small size is …

With an objective of identifying the genomic regions for productivity and quality traits in
peanut, a recombinant inbred line (RIL) population developed from an elite variety, TMV 2 …

Peanut growth, development, and eventual production are constrained by biotic and abiotic
stresses resulting in serious economic losses. To understand the response and tolerance …

Peanut is an important food and feed crop, providing oil and protein nutrients. Germins and
germin-like proteins (GLPs) are ubiquitously present in plants playing numerous roles in …