RESUMEN
KEY MESSAGE: Allele phylogenetic analysis of the sorghum flowering-time gene PRR37 provided new insight into the human-mediated selection of a key adaptive gene that occurred during sorghum's diversification and worldwide dispersal. The domestication and spread of the tropical cereal sorghum is associated with the historic movement of humans. We show that an allelic series at PRR37 (pseudo-response regulator 37), a circadian clock-associated transcription factor, was selected in long-day ecosystems worldwide to permit floral initiation and grain production. We identified a series of loss-of-function (photoperiod-insensitive) alleles encoding truncated PRR37 proteins, alleles with key amino acid substitutions in the pseudo-receiver domain, and a novel splice variant in which the pseudo-receiver domain is truncated. Each PRR37 allelic variant was traced to a specific geographic location or specialized agronomic type. We present a graphical model that shows evidence of human selection and gene flow of the PRR37 allelic variants during the global dispersal and agronomic diversification of sorghum. With the recent identification of the Ghd7 gene as an important regulator of flowering date in sorghum, we briefly examine whether loss-of-function Ghd7 allelic variants were selected prior to the human-mediated movement of sorghum from its equatorial center of origin to temperate climates worldwide.
Asunto(s)
Flores/fisiología , Genes de Plantas , Variación Genética , Sorghum/genética , Factores de Transcripción/genética , Alelos , Proteínas CLOCK/genética , ADN de Plantas/genética , Regulación de la Expresión Génica de las Plantas , Flujo Génico , Haplotipos , Fotoperiodo , Filogenia , Fitomejoramiento , Proteínas de Plantas/genética , Selección Genética , Análisis de Secuencia de ADNRESUMEN
Optimal flowering time is critical to the success of modern agriculture. Sorghum is a short-day tropical species that exhibits substantial photoperiod sensitivity and delayed flowering in long days. Genotypes with reduced photoperiod sensitivity enabled sorghum's utilization as a grain crop in temperate zones worldwide. In the present study, Ma(1), the major repressor of sorghum flowering in long days, was identified as the pseudoresponse regulator protein 37 (PRR37) through positional cloning and analysis of SbPRR37 alleles that modulate flowering time in grain and energy sorghum. Several allelic variants of SbPRR37 were identified in early flowering grain sorghum germplasm that contain unique loss-of-function mutations. We show that in long days SbPRR37 activates expression of the floral inhibitor CONSTANS and represses expression of the floral activators Early Heading Date 1, FLOWERING LOCUS T, Zea mays CENTRORADIALIS 8, and floral induction. Expression of SbPRR37 is light dependent and regulated by the circadian clock, with peaks of RNA abundance in the morning and evening in long days. In short days, the evening-phase expression of SbPRR37 does not occur due to darkness, allowing sorghum to flower in this photoperiod. This study provides insight into an external coincidence mechanism of photoperiodic regulation of flowering time mediated by PRR37 in the short-day grass sorghum and identifies important alleles of SbPRR37 that are critical for the utilization of this tropical grass in temperate zone grain and bioenergy production.