4.6 Article

A single amino acid residue tunes the stability of the fully reduced flavin cofactor and photorepair activity in photolyases

Journal

JOURNAL OF BIOLOGICAL CHEMISTRY
Volume 298, Issue 8, Pages -

Publisher

ELSEVIER
DOI: 10.1016/j.jbc.2022.102188

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Funding

  1. National Natural Science Foundation of China [32071270, 31971199]
  2. Major Science and Technology Projects in Anhui Province [202003a06020009]
  3. Key Laboratory of Biomedicine in Gene Diseases and Health of Anhui Higher Education Institutes
  4. Anhui Provincial Key Laboratory of the Conservation and Exploitation of Biological Resources

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In this study, the researchers discovered that a specific residue at site 377 in photolyase proteins can fine-tune the stability of the HQ cofactor, thereby affecting the photorepair activity of these enzymes. This finding might shed light on the evolutionary transition from photolyases to cryptochromes.
The UV-induced DNA lesions, cyclobutane pyrimidine dimers (CPDs) and pyrimidine (6-4) pyrimidone photoproducts (6-4 photoproducts), can be directly photorepaired by CPD photolyases and 6-4 photolyases, respectively. The fully reduced flavin (hydroquinone, HQ) cofactor is required for the catalysis of both types of these photolyases. On the other hand, flavin cofactor in the semireduced state, semiquinone, can be utilized by photolyase homologs, the cryptochromes. However, the evolutionary process of the transition of the functional states of flavin cofactors in photolyases and cryptochromes remains mysterious. In this work, we investigated three representative photolyases (Escherichia coli CPD photolyase, Microcystis aeruginosa DASH, and Phaeodactylum tricornutum 6-4 photolyase). We show that the residue at a single site adjacent to the flavin cofactor (corresponding to Ala377 in E. coli CPD photolyase, hereafter referred to as site 377) can fine-tune the stability of the HQ cofactor. We found that, in the presence of a polar residue (such as Ser or Asn) at site 377, HQ was stabilized against oxidation. Furthermore, this polar residue enhanced the photorepair activity of these photolyases both in vitro and in vivo. In contrast, substitution of hydrophobic residues, such as Ile, at site 377 in these photolyases adversely affected the stability of HQ. We speculate that these differential residue preferences at site 377 in photolyase proteins might reflect an important evolutionary event that altered the stability of HQ on the timeline from expression of photolyases to that of cryptochromes.

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