The Journal of biological chemistry

Different control of modification, shape, and stability of FRQ protein forms in the body clock

Updated

Abstract

l-FRQ is less stable than s-FRQ and undergoes faster degradation.

  • l-FRQ and s-FRQ have different roles in regulating the circadian negative feedback loop.
  • The phosphorylation of the l-FRQ C-terminal fragment is significantly higher than that of s-FRQ.
  • The N-terminal 99-amino acid region of l-FRQ may influence the phosphorylation and stability of the entire FRQ protein.
  • Two novel phosphorylation sites, S765 and T781, were identified, with T781 affecting FRQ stability.
  • Mutations at S765 and T781 did not significantly impact conidiation rhythmicity.

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