Inference of gene regulatory network uncovers the linkage between circadian clock and crassulacean acid metabolism in kalanchoë fedtschenkoi

Robert C. Moseley, Francis Motta, Gerald A. Tuskan, Steven B. Haase, Xiaohan Yang

Research output: Contribution to journalArticlepeer-review

1 Scopus citations

Abstract

The circadian clock drives time-specific gene expression, enabling biological processes to be temporally controlled. Plants that conduct crassulacean acid metabolism (CAM) photosynthesis represent an interesting case of circadian regulation of gene expression as stomatal movement is temporally inverted relative to stomatal movement in C3 plants. The mechanisms behind how the circadian clock enabled physiological differences at the molecular level is not well understood. Recently, the rescheduling of gene expression was reported as a mechanism to explain how CAM evolved from C3. Therefore, we investigated whether core circadian clock genes in CAM plants were re-phased during evolution, or whether networks of phase-specific genes were simply re-wired to different core clock genes. We identified candidate core clock genes based on gene expression features and then applied the Local Edge Machine (LEM) algorithm to infer regulatory relationships between this new set of core candidates and known core clock genes in Kalanchoë fedtschenkoi. We further inferred stomata-related gene targets for known and candidate core clock genes and constructed a gene regulatory network for core clock and stomata-related genes. Our results provide new insight into the mechanism of circadian control of CAM-related genes in K. fedtschenkoi, facilitating the engineering of CAM machinery into non-CAM plants for sustainable crop production in waterlimited environments.

Original languageEnglish
Article number2217
JournalCells
Volume10
Issue number9
DOIs
StatePublished - Sep 2021

Keywords

  • Circadian clock
  • Crassulacean acid metabolism
  • Drought
  • Gene expression
  • Local Edge Machine
  • Stomata

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