Defective mutations in STAY-GREEN 1, PHYTOENE SYNTHASE 1, and MYB12 genes lead to formation of green ripe fruit in tomato-Reference-Cited by-同舟云学术

Defective mutations in STAY-GREEN 1, PHYTOENE SYNTHASE 1, and MYB12 genes lead to formation of green ripe fruit in tomato

Published:2024-03-20 Issue:11 Volume:75 Page:3322-3336
ISSN:0022-0957
Container-title:Journal of Experimental Botany
language:en
Short-container-title:

Author:

Cui Long¹²,Zheng Fangyan¹²,Li Changxing²^ORCID,Li Guobin²,Ye Jie²^ORCID,Zhang Yuyang²^ORCID,Wang Taotao²^ORCID,Hong Zonglie³,Ye Zhibiao²^ORCID,Zhang Junhong²^ORCID

Affiliation:

1. Ganzhou Key Laboratory of Greenhouse Vegetables, College of Life Sciences, Gannan Normal University , Ganzhou, Jiangxi, 341000 , China

2. National Key Laboratory for Germplasm Innovation & Utilization of Horticultural Crops, Huazhong Agricultural University , Wuhan, 430070 , China

3. Department of Plant Sciences, University of Idaho , Moscow, ID 83844 , USA

Abstract

Abstract Modern tomatoes produce colorful mature fruits, but many wild tomato ancestors form green or gray green ripe fruits. Here, tomato cultivar ‘Lvbaoshi’ (LBS) that produces green ripe fruits was found to contain three recessive loci responsible for fruit development. The colorless peel of LBS fruits was caused by a 603 bp deletion in the promoter of SlMYB12. The candidate genes of the remaining two loci were identified as STAY-GREEN 1 (SlSGR1) and PHYTOENE SYNTHASE 1 (SlPSY1). SGR1 and PSY1 co-suppression by RNAi converted the pink fruits into green ripe fruits in transgenic plants. An amino acid change in PSY1 and a deletion in the promoter of SGR1 were also identified in several wild tomatoes bearing green or gray ripe fruits. Overexpression of PSY1 from green ripe fruit wild tomatoes in LBS plants could only partially rescue the green ripe fruit phenotype of LBS, and transgenic lines expressing ProSGR1::SGR1 from Solanum pennellii also failed to convert purple-flesh into red-flesh fruits. This work uncovers a novel regulatory mechanism by which SlMYB12, SlPSY1, and SlSGR1 control fruit color in cultivated and some wild tomato species.

Funder

National Natural Science Foundation of China

Natural Science Foundation of Jiangxi Province

Publisher

Oxford University Press (OUP)

Link

https://academic.oup.com/jxb/advance-article-pdf/doi/10.1093/jxb/erae095/57446030/erae095.pdf

Reference43 articles.

1. Evaluation and selection of tomato accessions (Solanum section Lycopersicon) for content of lycopene, β-carotene and ascorbic acid;Adalid;Journal of Food Composition and Analysis,2010

2. Fruit-surface flavonoid accumulation in tomato is controlled by a SlMYB12-regulated transcriptional network;Adato;PLoS Genetics,2009

3. Targeted disruption of tomato chromoplast-specific lycopene β-cyclase (CYC-B) gene promotes early accumulation of lycopene in fruits and enhanced postharvest cold tolerance;Arruabarrena;Plant Biotechnology Journal,2023

4. Biochemical and molecular analysis of pink tomatoes: deregulated expression of the gene encoding transcription factor SlMYB12 leads to pink tomato fruit colour;Ballester;Plant Physiology,2010

5. Amino acid substitutions in homologs of the STAY-GREEN protein are responsible for the green-flesh and chlorophyll retainer mutations of tomato and pepper;Barry;Plant Physiology,2008

Cited by 3 articles. 订阅此论文施引文献订阅此论文施引文献，注册后可以免费订阅5篇论文的施引文献，订阅后可以查看论文全部施引文献

1. Orthogonal genome editing and transcriptional activation in tomato using CRISPR-Combo systems;Plant Cell Reports;2024-09

2. A Study on Genetically Engineered Foods: Need, Benefits, Risk, and Current Knowledge;Cell Biochemistry and Biophysics;2024-07-17

3. Green ripe fruit in tomato: unraveling the genetic tapestry from cultivated to wild varieties;Journal of Experimental Botany;2024-06-07