Abstract
A dramatic evolution of fruit size has accompanied the domestication and improvement of fruit-bearing crop species. In tomato (Solanum lycopersicum), naturally occurring cis-regulatory mutations in the genes of the CLAVATA-WUSCHEL signaling pathway have led to a significant increase in fruit size generating enlarged meristems that lead to flowers with extra organs and bigger fruits. In this work, by combining mapping-by-sequencing and CRISPR/Cas9 genome editing methods, we isolated EXCESSIVE NUMBER OF FLORAL ORGANS (ENO), an AP2/ERF transcription factor which regulates floral meristem activity. Thus, the ENO gene mutation gives rise to plants that yield larger multilocular fruits due to an increased size of the floral meristem. Genetic analyses indicate that eno exhibits synergistic effects with mutations at the LOCULE NUMBER (encoding SlWUS) and FASCIATED (encoding SlCLV3) loci, two central players in the evolution of fruit size in the domestication of cultivated tomatoes. Our findings reveal that an eno mutation causes a substantial expansion of SlWUS expression domains in a flower-specific manner. In vitro binding results show that ENO is able to interact with the GGC-box cis-regulatory element within the SlWUS promoter region, suggesting that ENO directly regulates SlWUS expression domains to maintain floral stem-cell homeostasis. Furthermore, the study of natural allelic variation of the ENO locus proved that a cis-regulatory mutation in the promoter of ENO had been targeted by positive selection during the domestication process, setting up the background for significant increases in fruit locule number and fruit size in modern tomatoes.
Highlights
We examined shoot apical meristems (SAMs) size at the transition from vegetative to reproductive growth. eno plants showed slightly wider and shorter SAM than the wild type (Fig. 1 E–G), in contrast to the 1.8-fold increase in the size of floral meristems (FM) previously detected in the mutant from petal initiation and stamen primordia onward [15]
Eno inflorescences were slightly more branched and contained more flowers than those developed by wild-type plants, the number of fruits was similar in both genotypes (SI Appendix, Table S2)
Our findings reveal that EXCESSIVE NUMBER OF FLORAL ORGANS (ENO), encoding a member of the APETALA2/Ethylene Responsive Factor (AP2/ERF) superfamily of transcription factors, is a component of the transcriptional regulatory network that controls floral meristem activity, which might act to spatially limit the transcription of SlWUS
Summary
In tomato (Solanum lycopersicum), naturally occurring cis-regulatory mutations in the genes of the CLAVATA-WUSCHEL signaling pathway have led to a significant increase in fruit size generating enlarged meristems that lead to flowers with extra organs and bigger fruits. The study of natural allelic variation of the ENO locus proved that a cis-regulatory mutation in the promoter of ENO had been targeted by positive selection during the domestication process, setting up the background for significant increases in fruit locule number and fruit size in modern tomatoes. The core signaling module of the CLV-WUS feedback loop is deeply conserved in diverse plants such as Arabidopsis, tomato, and maize, while dosage compensation mechanisms that operate to buffer stem-cell homeostasis in diverse lineages have diversified [6] In this way, mutations in the CLV-WUS circuit have played a relevant role in crop yield improvement of both dicots and monocots [5, 7]. The analysis of genetic variation in tomato germplasm has shown that ENO played an important role in the increase of fruit size during tomato domestication
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