Domestication of wild tomato is accelerated by genome editing

Domestication of wild tomato is accelerated by genome editing

Tingdong Li, Xinping Yang, Yuan Yu, Xiaomin Si, Xiawan Zhai, Huawei Zhang, Wenxia Dong, Caixia Gao & Cao Xu

Journal:

Nature Biotechnology

Year

1 October 2018

Crop improvement by inbreeding often results in fitness penalties and loss of genetic diversity. We introduced desirable traits into four stress-tolerant wild-tomato accessions by using multiplex CRISPR–Cas9 editing of coding sequences, cis-regulatory regions or upstream open reading frames of genes associated with morphology, flower and fruit production, and ascorbic acid synthesis. Cas9-free progeny of edited plants had domesticated phenotypes yet retained parental disease resistance and salt tolerance.

Domestication of wild tomato is accelerated by genome editing

Tingdong Li, Xinping Yang, Yuan Yu, Xiaomin Si, Xiawan Zhai, Huawei Zhang, Wenxia Dong, Caixia Gao & Cao Xu

A novel mechanism underlying chloroplast protein quality control identified

Demographic modeling replaying the tape of wheat evolution

Genome-edited powdery mildew resistance in wheat without growth penalties