Conformational changes of DNA repair glycosylase MutM triggered by DNA binding.
Barbora LandováJan ŠilhánPublished in: FEBS letters (2020)
Bacterial MutM is a DNA repair glycosylase removing DNA damage generated from oxidative stress and, therefore, preventing mutations and genomic instability. MutM belongs to the Fpg/Nei family of prokaryotic enzymes sharing structural and functional similarities with their eukaryotic counterparts, for example, NEIL1-NEIL3. Here, we present two crystal structures of MutM from pathogenic Neisseria meningitidis: a MutM holoenzyme and MutM bound to DNA. The free enzyme exists in an open conformation, while upon binding to DNA, both the enzyme and DNA undergo substantial structural changes and domain rearrangement. Our data show that not only NEI glycosylases but also the MutMs undergo dramatic conformational changes. Moreover, crystallographic data support the previously published observations that MutM enzymes are rather flexible and dynamic molecules.
Keyphrases
- dna repair
- dna damage
- single molecule
- oxidative stress
- circulating tumor
- dna binding
- cell free
- molecular dynamics simulations
- dna damage response
- electronic health record
- molecular dynamics
- big data
- nucleic acid
- transcription factor
- healthcare
- copy number
- health information
- dna methylation
- machine learning
- ischemia reperfusion injury
- circulating tumor cells
- systematic review
- artificial intelligence
- deep learning
- induced apoptosis
- meta analyses
- heat stress