Litcius/Paper detail

5Gs for crop genetic improvement

Rajeev K. Varshney, Pallavi Sinha, Vikas Kumar Singh, Arvind Kumar, Qifa Zhang, Jeffrey L. Bennetzen

2020Current Opinion in Plant Biology248 citationsDOIOpen Access PDF

Abstract

Here we propose a 5G breeding approach for bringing much-needed disruptive changes to crop improvement. These 5Gs are Genome assembly, Germplasm characterization, Gene function identification, Genomic breeding (GB), and Gene editing (GE). In our view, it is important to have genome assemblies available for each crop and a deep collection of germplasm characterized at sequencing and agronomic levels for identification of marker-trait associations and superior haplotypes. Systems biology and sequencing-based mapping approaches can be used to identify genes involved in pathways leading to the expression of a trait, thereby providing diagnostic markers for target traits. These genes, markers, haplotypes, and genome-wide sequencing data may be utilized in GB and GE methodologies in combination with a rapid cycle breeding strategy.

Topics & Concepts

BiologyGermplasmIdentification (biology)GenomeComputational biologyGeneticsMolecular breedingTraitGeneHaplotypeQuantitative trait locusBiotechnologyDNA sequencingGenotypeAgronomyComputer scienceBotanyProgramming languageGenetic Mapping and Diversity in Plants and AnimalsGenetics and Plant BreedingPlant Virus Research Studies