AtHESPERIN: a novel regulator of circadian rhythms with poly(A)-degrading activity in plants

AtHESPERIN: a novel regulator of circadian rhythms with poly(A)-degrading activity in plants

We report the identification and characterization of a novel gene, AtHesperin (AtHESP) that codes for a deadenylase in Arabidopsis thaliana. The gene is under circadian clock-gene regulation and has similarity to the mammalian Nocturnin. AtHESP can efficiently degrade poly(A) substrates exhibiting a...

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Hauptverfasser: Delis, Costas, Afrodite Krokida, Tomatsidou, Anastasia, Tsikou, Daniela, Rafailia A.A. Beta, Tsioumpekou, Maria, Moustaka, Julietta, Stravodimos, Georgios, Demetres D. Leonidas, Balatsos, Nikolaos A. A., Kalliope K. Papadopoulou
Format: Dataset
Sprache:eng
Schlagworte:
Biochemistry
Biophysics
Cell Biology
Environmental Sciences not elsewhere classified
FOS: Biological sciences
FOS: Earth and related environmental sciences
FOS: Health sciences
Genetics
Mental Health
Molecular Biology
Plant Biology
Virology
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Zusammenfassung:We report the identification and characterization of a novel gene, AtHesperin (AtHESP) that codes for a deadenylase in Arabidopsis thaliana. The gene is under circadian clock-gene regulation and has similarity to the mammalian Nocturnin. AtHESP can efficiently degrade poly(A) substrates exhibiting allosteric kinetics. Size exclusion chromatography and native electrophoresis coupled with kinetic analysis support that the native enzyme is oligomeric with at least 3 binding sites. Knockdown and overexpression of AtHESP in plant lines affects the expression and rhythmicity of the clock core oscillator genes TOC1 and CCA1. This study demonstrates an evolutionary conserved poly(A)-degrading activity in plants and suggests deadenylation as a mechanism involved in the regulation of the circadian clock. A role of AtHESP in stress response in plants is also depicted.
DOI:10.6084/m9.figshare.2074252