Diurnal patterns of growth and transient reserves of sink and source tissues are affected by cold nights in barley |
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| Authors: | Kallyne A. Barros Alberto A. Esteves-Ferreira Masami Inaba Helena Meally John Finnan Susanne Barth Seth J. Davis Ronan Sulpice |
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| Affiliation: | 1. Plant Systems Biology Lab, School of Natural Sciences, Ryan Institute, National University of Ireland, Galway H91 TK33, Ireland;2. Crop Science Department, Teagasc, Carlow R93 XE12, Ireland;3. Department of Biology Heslington, University of York, York YO10 5NG, UK |
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| Abstract: | Barley is described to mostly use sucrose for night carbon requirements. To understand how the transient carbon is accumulated and utilized in response to cold, barley plants were grown in a combination of cold days and/or nights. Both daytime and night cold reduced growth. Sucrose was the main carbohydrate supplying growth at night, representing 50–60% of the carbon consumed. Under warm days and nights, starch was the second contributor with 26% and malate the third with 15%. Under cold nights, the contribution of starch was severely reduced, due to an inhibition of its synthesis, including under warm days, and malate was the second contributor to C requirements with 24–28% of the total amount of carbon consumed. We propose that malate plays a critical role as an alternative carbon source to sucrose and starch in barley. Hexoses, malate, and sucrose mobilization and starch accumulation were affected in barley elf3 clock mutants, suggesting a clock regulation of their metabolism, without affecting growth and photosynthesis however. Altogether, our data suggest that the mobilization of sucrose and malate and/or barley growth machinery are sensitive to cold. |
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| Keywords: | barley growth carbon metabolism circadian clock cold diurnal metabolism EARLY FLOWERING 3 fructans malate starch sucrose |
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