A circadian transcriptional sub-network andEARLY FLOWERING 3control timing of senescence and grain nutrition in bread wheat

Abstract

AbstractCircadian clocks control daily and seasonal timing of physiology and development. Because of their influence on photoperiodic flowering, variants in circadian clock genes have been selected for phenology during domestication of cereal crops. To explore the potential impact of this genetic variation on circadian-regulated traits, we investigated the relationship of the circadian clock and leaf senescence in hexaploid bread wheat. Phenotyping of a collection of elite wheat cultivars identified significant variation in circadian rhythms which was associated with timing of senescence and nutrient mobilisation efficiency. RNA sequencing revealed substantial reorganisation of the circadian-regulated transcriptome during senescence and a transcriptional sub-network representing a link between the circadian oscillator and regulators of leaf senescence. We used genotypes of multiple circadian clock genes to assign cultivars to ‘chronotypes’, which could be used to predict circadian-regulated phenotypes. This identified a deletion variant ofEARLY FLOWERING 3-D1 (ELF3-D1)attributed to a phenology locus,Earliness per se (Eps-D1),and we used near-isogenic lines (NILs) to show that it affects timing of senescence and grain protein content (GPC). Thus, there are potential consequences of circadian clock genes selected for phenology on other valuable crop traits.