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Crystal structures of a template-independent DNA polymerase: murine terminal deoxynucleotidyltransferase.


ABSTRACT: The crystal structure of the catalytic core of murine terminal deoxynucleotidyltransferase (TdT) at 2.35 A resolution reveals a typical DNA polymerase beta-like fold locked in a closed form. In addition, the structures of two different binary complexes, one with an oligonucleotide primer and the other with an incoming ddATP-Co(2+) complex, show that the substrates and the two divalent ions in the catalytic site are positioned in TdT in a manner similar to that described for the human DNA polymerase beta ternary complex, suggesting a common two metal ions mechanism of nucleotidyl transfer in these two proteins. The inability of TdT to accommodate a template strand can be explained by steric hindrance at the catalytic site caused by a long lariat-like loop, which is absent in DNA polymerase beta. However, displacement of this discriminating loop would be sufficient to unmask a number of evolutionarily conserved residues, which could then interact with a template DNA strand. The present structure can be used to model the recently discovered human polymerase mu, with which it shares 43% sequence identity.

SUBMITTER: Delarue M 

PROVIDER: S-EPMC125842 | biostudies-literature | 2002 Feb

REPOSITORIES: biostudies-literature

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Crystal structures of a template-independent DNA polymerase: murine terminal deoxynucleotidyltransferase.

Delarue M M   Boulé J B JB   Lescar J J   Expert-Bezançon N N   Jourdan N N   Sukumar N N   Rougeon F F   Papanicolaou C C  

The EMBO journal 20020201 3


The crystal structure of the catalytic core of murine terminal deoxynucleotidyltransferase (TdT) at 2.35 A resolution reveals a typical DNA polymerase beta-like fold locked in a closed form. In addition, the structures of two different binary complexes, one with an oligonucleotide primer and the other with an incoming ddATP-Co(2+) complex, show that the substrates and the two divalent ions in the catalytic site are positioned in TdT in a manner similar to that described for the human DNA polymer  ...[more]

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