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Cryptochromes and the Circadian Clock: The Story of a Very Complex Relationship in a Spinning World

Loredana Lopez, Carlo Fasano, Giorgio Perrella, Paolo Facella

2021Genes47 citationsDOIOpen Access PDF

Abstract

Cryptochromes are flavin-containing blue light photoreceptors, present in most kingdoms, including archaea, bacteria, plants, animals and fungi. They are structurally similar to photolyases, a class of flavoproteins involved in light-dependent repair of UV-damaged DNA. Cryptochromes were first discovered in Arabidopsis thaliana in which they control many light-regulated physiological processes like seed germination, de-etiolation, photoperiodic control of the flowering time, cotyledon opening and expansion, anthocyanin accumulation, chloroplast development and root growth. They also regulate the entrainment of plant circadian clock to the phase of light–dark daily cycles. Here, we review the molecular mechanisms by which plant cryptochromes control the synchronisation of the clock with the environmental light. Furthermore, we summarise the circadian clock-mediated changes in cell cycle regulation and chromatin organisation and, finally, we discuss a putative role for plant cryptochromes in the epigenetic regulation of genes.

Topics & Concepts

CryptochromeBiologyCircadian clockPhotolyaseArabidopsis thalianaCircadian rhythmArabidopsisCell biologyBacterial circadian rhythmsBotanyChloroplastDNA repairGeneticsGeneMutantNeuroscienceLight effects on plantsPlant Molecular Biology ResearchCircadian rhythm and melatonin
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