how cations can assist dnase i in dna binding and hydrolysis阳离子如何协助dnase我dna结合和水解.pdfVIP

How Cations Can Assist DNase I in DNA Binding and Hydrolysis ´ 1,2 3 ´ 2 2 1 Marc Gueroult , Daniel Picot , Josephine Abi-Ghanem , Brigitte Hartmann *, Marc Baaden * 1 CNRS UPR 9080, Institut de Biologie Physico-Chimique, Paris, France, 2 INTS, INSERM UMR S665, Paris, France, 3 CNRS UMR 7099, Institut de Biologie Physico-Chimique, Paris, France Abstract DNase I requires Ca2+ and Mg2+ for hydrolyzing double-stranded DNA. However, the number and the location of DNase I ion-binding sites remain unclear, as well as the role of these counter-ions. Using molecular dynamics simulations, we show that bovine pancreatic (bp) DNase I contains four ion-binding pockets. Two of them strongly bind Ca2+ while the other two sites coordinate Mg2+. These theoretical results are strongly supported by revisiting crystallographic structures that contain bpDNase I. One Ca2+ stabilizes the functional DNase I structure. The presence of Mg2+ in close vicinity to the catalytic pocket of bpDNase I reinforces the idea of a cation-assisted hydrolytic mechanism. Importantly, Poisson-Boltzmann-type electrostatic potential calculations demonstrate that the divalent cations collectively control the electrostatic fit between bpDNase I and DNA. These results improve our understanding of the essential role of cations in the biological function of bpDNase I. The high degree of conservation of the amino acids involved in the identified cation-binding sites across DNase I and DNase I-like proteins from various species suggests that our findings generally apply to all DNase I-DNA interactions. ´ Citation: Gueroult M, Picot D, Abi-Ghanem J,