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A topologically distinct class of photolyases specific for UV lesions within single-stranded DNA

Hans‐Joachim Emmerich, Martin Saft, Leonie Schneider, Dennis Kock, Alfred Batschauer, Lars‐Oliver Essen

2020Nucleic Acids Research16 citationsDOIOpen Access PDF

Abstract

Photolyases are ubiquitously occurring flavoproteins for catalyzing photo repair of UV-induced DNA damages. All photolyases described so far have a bilobal architecture with a C-terminal domain comprising flavin adenine dinucleotide (FAD) as catalytic cofactor and an N-terminal domain capable of harboring an additional antenna chromophore. Using sequence-similarity network analysis we discovered a novel subgroup of the photolyase/cryptochrome superfamily (PCSf), the NewPHLs. NewPHL occur in bacteria and have an inverted topology with an N-terminal catalytic domain and a C-terminal domain for sealing the FAD binding site from solvent access. By characterizing two NewPHL we show a photochemistry characteristic of other PCSf members as well as light-dependent repair of CPD lesions. Given their common specificity towards single-stranded DNA many bacterial species use NewPHL as a substitute for DASH-type photolyases. Given their simplified architecture and function we suggest that NewPHL are close to the evolutionary origin of the PCSf.

Topics & Concepts

PhotolyaseCryptochromeBiologyCofactorFlavin adenine dinucleotideFlavoproteinDNABiochemistryFlavin groupDNA repairSequence alignmentBiophysicsEnzymePeptide sequenceGeneCircadian clockLight effects on plantsPhotoreceptor and optogenetics researchbioluminescence and chemiluminescence research
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