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Abstract
An origin recognition complex (ORC) consisting of six polypeptides has been identified as a DNA replication origin-binding factor in Saccharomyces cerevisiae. Homologues of ORC subunits have been discovered among eukaryotes, and we have prepared monoclonal antibodies against a human homologue of ORC1 (hORC1) to study its localization in human cells. It was thus found to associate with nuclei throughout the cell cycle and to be resistant to nonionic detergent treatment, in contrast to MCM proteins, which are other replication factors, the association of which with nuclei is clearly dependent on the phase of the cell cycle. A characteristic feature of hORC1 is dissociation by NaCl in a narrow concentration range around 0.25 M, suggesting interaction with some specific partner(s) in nuclei. Nuclease treatment experiments and UV cross-linking experiments further indicated interaction with both nuclease-resistant nuclear structures and chromatin DNA. Although its DNA binding was unaffected, some variation in the cell cycle was apparent, the association with nuclear structures being less stable in the M phase. Interestingly, the less stable association occurred concomitantly with hyperphosphorylation of hORC1, suggesting that this hyperphosphorylation may be involved in M phase changes.
Highlights
The replication of eukaryotic chromosome occurs in a highly regulated manner during the S phase
Detection of homologue of ORC1 (hORC1) from Human Cell Lysates—We have developed hybridoma cell lines expressing antibodies 3A2A and 3C1B against specific oligopeptides of the hORC1 protein
Nuclear lamin B serving as a control was resistant to salt in asynchronous cells, but soluble only by Triton-washing in M phase (Fig. 7A, Lamin B). These results suggested that the association of hORC1 with chromatin DNA or nuclease-resistant structures becomes weak in M phase
Summary
The replication of eukaryotic chromosome occurs in a highly regulated manner during the S phase. ORC in budding yeast associates with chromatin DNA in a sequence-specific manner throughout the cell cycle, suggesting that ORC functions as the landing pad for CDC6, MCMs and other factors to form prereplicative complex [3, 5, 8].
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