Irregular Green Netting of Eggplant Fruit Peel: a Domestication Trait Controlled by SmGLK2 with Potential for Fruit Colour Diversification

Overview

Journal J Exp Bot

Publisher Oxford University Press

Specialty Biology

Date 2024 Aug 22

PMID 39171373

Authors

Andrea Arrones

Silvia Manrique

Joaquin Gomis-Cebolla

Virginia Baraja-Fonseca

Mariola Plazas

Jaime Prohens

Ezio Portis

Lorenzo Barchi

Giovanni Giuliano

Pietro Gramazio

Santiago Vilanova

Affiliations

Soon will be listed here.

Abstract

The distribution of chlorophylls in eggplant (Solanum melongena) peel exhibits either a uniform pattern or an irregular green netting pattern. The latter, manifested as a gradient of dark green netting that is intensified in the proximal part of the fruit on a pale green background, is common in wild relatives and some eggplant landraces. Despite the selection of uniform chlorophylls during domestication, the netting pattern contributes to a greater diversity of fruit colours. Here, we used over 2300 individuals from different populations, including a multi-parent advanced generation inter-cross population for candidate genomic region identification, an F2 population for bulked segregant analysis by sequencing, and advanced backcrosses for edges-to-core fine-mapping, to identify SmGLK2 gene as responsible for the irregular netting in eggplant fruits. We also analysed the gene sequence of 178 S. melongena accessions and 22 wild relative species for tracing the evolutionary changes that the gene has undergone during domestication. Three different mutations were identified leading to the absence of netting. The main causative indel induces a premature stop codon disrupting the protein conformation and function, which was confirmed by western blot analysis and confocal microscopy observations. SmGLK2 has a major role in regulating chlorophyll biosynthesis in eggplant fruit peel.

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