SUMMARY Crop yield is a focal point in plant breeding. Regulation of lateral budding through apical dominance was a central target of crop domestication, directly affecting crop production. The young fruits of Cucurbita pepo , summer squash, are produced on plants characterized by apical dominance and differentiation of a single flower bud per leaf axil. A single recessive mutation, mf , results in differentiation of more than one flower per leaf axil, thereby directly increasing production because of the continual day‐to‐day harvest of the summer squash crop. Positional cloning of the Cucurbita pepo mf ( Cpmf ) gene denoted a frameshift mutation in a TCP transcription factor, Cp4.1LG13g07780 , as causative for the increase in axillary flowering. Cpmf is an ortholog of a tendril‐development TCP gene in other cucurbits, and likewise, the recessive allele of Cpmf is associated with distorted tendril development. Gene function is context dependent, and we propose that multiple flowering is a unique pleiotropic attribute of mutation in a tendril‐development gene of C. pepo . Characterization of a C. pepo collection confirmed a significant association of the Cpmf mutation with multiple flowering and showed that the mutant allele is absent in ancestral C. pepo and one of its two cultivated subspecies. The beneficial mutation occurred and was selected after the domestication of the other subspecies, during its cultivation for young fruit production. We demonstrate the discovery of a causative yield‐increasing sequence variant and its practical utilization in breeding. Our findings provide a molecular target for creation of high‐yielding, multiple‐flowering summer squash cultivars through marker‐assisted breeding or precise genome editing.
Tzuri et al. (Sun,) studied this question.