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Research article2017Peer reviewedOpen access

Hyperactivity of the Arabidopsis cryptochrome (cry1) L407F mutant is caused by a structural alteration close to the cry1 ATP-binding site

Orth, Christian; Niemann, Nils; Hennig, Lars; Essen, Lars-Oliver; Batschauer, Alfred

Abstract

Plant cryptochromes (cry) act as UV-A/blue light receptors. The prototype, Arabidopsis thaliana cry1, regulates several light responses during the life cycle, including de-etiolation, and is also involved in regulating flowering time. The cry1 photocycle is initiated by light absorption by its FAD chromophore, which is most likely fully oxidized (FAD(ox)) in the dark state and photoreduced to the neutral flavin semiquinone (FADH degrees) in its lit state. Cryptochromes lack the DNA-repair activity of the closely related DNA photolyases, but they retain the ability to bind nucleotides such as ATP. The previously characterized L407F mutant allele of Arabidopsis cry1 is biologically hyperactive and seems to mimic the ATP-bound state of cry1, but the reason for this phenotypic change is unclear. Here, we show that cry1L407F can still bind ATP, has less pronounced photoreduction and formation of FADH degrees than wild-type cry1, and has a dark reversion rate 1.7 times lower than that of the wild type. The hyperactivity of cry1L407F is not related to a higher FADH degrees occupancy of the photoreceptor but is caused by a structural alteration close to the ATP-binding site. Moreover, we show that ATP binds to cry1 in both the dark and the lit states. This binding was not affected by cry1's C-terminal extension, which is important for signal transduction. Finally, we show that a recently discovered chemical inhibitor of cry1, 3-bromo-7-nitroindazole, competes for ATP binding and thereby diminishes FADH degrees formation, which demonstrates that both processes are important for cry1 function.

Keywords

ATP; cryptochrome; nucleotide; photobiology; plant biochemistry; nucleotide binding

Published in

Journal of Biological Chemistry
2017, Volume: 292, number: 31, pages: 12906-12920 Publisher: AMER SOC BIOCHEMISTRY MOLECULAR BIOLOGY INC

    UKÄ Subject classification

    Botany

    Publication identifier

    DOI: https://doi.org/10.1074/jbc.M117.788869

    Permanent link to this page (URI)

    https://res.slu.se/id/publ/84360