Directed mutagenesis in fruit crops.

Abstract

Fruit crops are rich source of important vitamins, minerals, and dietary fibres. They are essential for global agriculture with respect to nutritional security. Globally, there is a rapid decline in the genetic base of fruit crops warranting breeding strategies to overcome the challenge. Applied mutagenesis has emerged as a viable approach for the focused enhancement of fruit crops utilizing precise genetic alterations to increase a variety of desirable characteristics. However, traditional mutagenesis using physical and chemical mutagens are majorly random in nature. Directed mutagenesis with advancements in genetic engineering and molecular technology allows precise manipulation of genes, which facilitates the efficient and precise knockout of target genes and the targeted insertion or modification of specific DNA sequences within the genome via homologous recombination (HR)-mediated gene replacement. This review presents an in-depth exploration of several directed mutagenesis techniques including CRISPR-Cas9, TILLING, TALEN, MutMap, and MutMap + emphasizing their transformative applications in fruit crops. It also discusses about space mutagenesis. These advanced techniques empower researchers to precisely introduce specific mutations into the genome, skilfully altering gene expression and reshaping protein function with remarkable precision. This review highlights successful examples of directed mutagenesis in a variety of fruit crops such as apples, grapes, citrus, and strawberries and elucidates the impact of directed mutagenesis on traits such as fruit size, colour, flavour, shelf-life, and resistance to diseases and environmental stresses.