Abstract
Tomato (Solanum lycopersicum) is a major vegetable fruit grown and consumed worldwide. Modern cultivated tomatoes are derived from their wild relative, Solanum pimpinellifolium, a short-day plant that originated from the Andean region of South America. The molecular underpinnings of the regional adaptation and expansion of domesticated tomato remain largely unclear. In this study, we examined flowering time in wild and cultivated tomatoes under both long-day and short-day conditions. Using quantitative trait locus mapping in a recombinant inbred line population, we identified SELF PRUNING 5G (SP5G) as a major locus influencing daylength adaptation in tomato. Genetic diversity analysis revealed that the genomic region harboring SP5G shows signatures of a domestication sweep. We found that a 52-bp sequence within the 3' untranslated region of SP5G is essential for the enhanced expression of this gene, leading to delayed flowering time in tomatoes through a promoter-enhancer interaction that occurs only under long-day conditions. We further demonstrate that the absence of the 52-bp sequence attenuates the promoter-enhancer interaction and reduces SP5G expression in cultivated tomatoes, making their flowering time insensitive to daylength. Our findings demonstrate that cis-regulatory variation at the enhancer region of the SP5G 3' untranslated region confers reduced photoperiodic response in cultivated tomatoes, uncovering a regulatory mechanism that could potentially be used to manipulate flowering time in tomato through novel biotechnological approaches.
Highlights
Tomato (Solanum lycopersicum) is a major vegetable fruit grown and consumed worldwide
Consistent with a recent report that altered SELF PRUNING 5G (SP5G) expression contributes to the different daylength responses in tomato (Soyk et al, 2017), our quantitative trait locus (QTL) analysis identified SP5G as a major locus regulating daylength sensitivity in tomato that has been subject to selection during tomato domestication
We determined that a 52-bp sequence within the SP5G 3ʹ untranslated region (UTR) is essential for the enhanced expression of SP5G under LD conditions
Summary
Tomato (Solanum lycopersicum) is a major vegetable fruit grown and consumed worldwide. We found that a 52-bp sequence within the 3ʹ untranslated region of SP5G is essential for the enhanced expression of this gene, leading to delayed flowering time in tomatoes through a promoter-enhancer interaction that occurs only under long-day conditions. We further demonstrate that the absence of the 52-bp sequence attenuates the promoter-enhancer interaction and reduces SP5G expression in cultivated tomatoes, making their flowering time insensitive to daylength. The variances of several photoperiodic pathway genes, including GHD7, HD1, HD3A, and EHD1 in rice (Fujino and Sekiguchi, 2005; Xue et al, 2008; Takahashi et al, 2009; Fujino et al, 2013; Matsubara et al, 2014) and ZmCCT (a CCT domain-containing protein) in maize (Zea mays; Yang et al, 2013), resulted in the earlier flowering of these SD crops under LD conditions. Our results demonstrate that the cis-regulatory variation at the enhancer region of the SP5G 3ʹ UTR confers reduced photoperiodic response in cultivated tomatoes
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