Author:
Lisova Alisa E.,Baranovskiy Andrey G.,Morstadt Lucia M.,Babayeva Nigar D.,Stepchenkova Elena I.,Tahirov Tahir H.
Abstract
AbstractDNA polymerase ε (Polε) is a key enzyme for DNA replication in eukaryotes. Recently it was shown that the catalytic domain of yeast Polε (PolεCD) contains a [4Fe-4S] cluster located at the base of the processivity domain (P-domain) and coordinated by four conserved cysteines. In this work, we show that human PolεCD (hPolεCD) expressed in bacterial cells also contains an iron-sulfur cluster. In comparison, recombinant hPolεCD produced in insect cells contains significantly lower level of iron. The iron content of purified hPolECD samples correlates with the level of DNA-binding molecules, which suggests an important role of the iron-sulfur cluster in hPolε interaction with DNA. Indeed, mutation of two conserved cysteines that coordinate the cluster abolished template:primer binding as well as DNA polymerase and proofreading exonuclease activities. We propose that the cluster regulates the conformation of the P-domain, which, like a gatekeeper, controls access to a DNA-binding cleft for a template:primer. The binding studies demonstrated low affinity of hPolεCD to DNA and a strong effect of salt concentration on stability of the hPolεCD/DNA complex. Pre-steady-state kinetic studies have shown a maximal polymerization rate constant of 51.5 s−1 and a relatively low affinity to incoming dNTP with an apparent KD of 105 µM.
Funder
National Institute of General Medical Sciences
National Cancer Institute
Publisher
Springer Science and Business Media LLC
Cited by
2 articles.
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