AI Article Synopsis
- The MCM2-7 complex is identified as the primary eukaryotic replicative helicase, made up of six polypeptides that work together.
- A simpler model from the archaeon Methanothermobacter thermoautotrophicus shows this helicase forms a double hexamer structure crucial for DNA interaction.
- Research using single-particle techniques revealed that binding nucleotides or double-stranded DNA promotes the formation of double-ring structures, indicating different complex forms play important roles in helicase activity.
Article Abstract
The primary candidate for the eukaryotic replicative helicase is the MCM2-7 complex, a hetero-oligomer formed by six AAA+ paralogous polypeptides. A simplified model for structure-function studies is the homo-oligomeric orthologue from the archaeon Methanothermobacter thermoautotrophicus. The crystal structure of the DNA-interacting N-terminal domain of this homo-oligomer revealed a double hexamer in a head-to-head configuration; single-particle electron microscopy studies have shown that the full-length protein complex can form both single and double rings, in which each ring can consist of a cyclical arrangement of six or seven subunits. Using single-particle techniques and especially multivariate statistical symmetry analysis, we have assessed the changes in stoichiometry that the complex undergoes when treated with various nucleotide analogues or when binding a double-stranded DNA fragment. We found that the binding of nucleotides or of double-stranded DNA leads to the preferred formation of double-ring structures. Specifically, the protein complex is present as a double heptamer when treated with a nucleotide analogue, but it is rather found as a double hexamer when complexed with double-stranded DNA. The possible physiological role of the various stoichiometries of the complex is discussed in the light of the proposed mechanisms of helicase activity.
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| http://dx.doi.org/10.1016/j.jsb.2006.04.001 | DOI Listing |
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