id author title date pages extension mime words sentences flesch summary cache txt 10_1101-2021_01_06_425536 Bignon, Emmanuelle Recognition of a Tandem Lesion by DNA Glycosylases Explored Combining Molecular Dynamics and Machine Learning 2021 11 .pdf application/pdf 8192 877 65 Recognition of a Tandem Lesion by DNA Glycosylases Explored Combining Molecular Dynamics and Machine Learning Keywords: MutM, DNA repair glycosylase, tandem lesion, molecular dynamics simulations important MutM/Fpg residues (K60, H74, Y242, K258, and R264) are known to stabilize the DNA helix by interacting with its structural behavior of Fpg and MutM in presence of tandem DNA lesions has been reported, despite the relevance that such show that the presence of the tandem lesion induces important structural deformations to the DNA that significantly perturb The interaction network as found in the MutM:DNA crystal containing a single 8-oxoG lesion is conserved stable along our Cartoon representation of MutM interacting with the DNA helix harboring a single 8-oxoG lesion (OG19, A) or dC7/Ap20 H-bond acceptor atoms lies at 2.6±1.1 Å and 3.0±1.8 Å, respectively, in the tandem-damaged MutM:DNA complex. Importance of the contribution of residues to the MutM:DNA complex bonding for the singly-damaged (blue) and ./cache/10_1101-2021_01_06_425536.pdf ./txt/10_1101-2021_01_06_425536.txt