PubMed 28528644

PubMed ID: 28528644

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Bypassing Negative Epistasis on Yield in Tomato Imposed by a Domestication Gene.
Authors: Soyk Sebastian, Lemmon Zachary H, Oved Matan, Fisher Josef, Liberatore Katie L, Park Soon Ju, Goren Anna, Jiang Ke, Ramos Alexis, van der Knaap Esther, Van Eck Joyce, Zamir Dani, Eshed Yuval, Lippman Zachary B
Journal: Cell (Cell), Vol.169(6), 2017‑Jun‑01

DOI: 10.1016/j.cell.2017.04.032

Abstract
Selection for inflorescence architecture with improved flower production and yield is common to many domesticated crops. However, tomato inflorescences resemble wild ancestors, and breeders avoided excessive branching because of low fertility. We found branched variants carry mutations in two related transcription factors that were selected independently. One founder mutation enlarged the leaf-like organs on fruits and was selected as fruit size increased during domestication. The other mutation eliminated the flower abscission zone, providing "jointless" fruit stems that reduced fruit dropping and facilitated mechanical harvesting. Stacking both beneficial traits caused undesirable branching and sterility due to epistasis, which breeders overcame with suppressors. However, this suppression restricted the opportunity for productivity gains from weak branching. Exploiting natural and engineered alleles for multiple family members, we achieved a continuum of inflorescence complexity that allowed breeding of higher-yielding hybrids. Characterizing and neutralizing similar cases of negative epistasis could improve productivity in many agricultural organisms. VIDEO ABSTRACT.
Publication Types
Journal Article
Keywords
MADS-box gene breeding domestication epistasis gene dosage genome editing inflorescence meristem stem cell tomato
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