Gene/Protein Disease Symptom Drug Enzyme Compound
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Query: EC:5.99.1.2 (topoisomerase)
 9,166 document(s) hit in 31,850,051 MEDLINE articles (0.00 seconds)

The recently developed procedure of topoisomerase II-mediated DNA loop excision has been used to analyze the topological organization of a human genome fragment containing the gene encoding lamin B2 and the ppv1 gene. A 3.5 kb long DNA loop anchorage/topoisomerase II cleavage region was found within the area under study. This region includes the end of the lamin B2 coding unit and an intergenic region where an origin of DNA replication was previously found. These observations further corroborate the hypothesis that DNA replication origins are located at or close to DNA loop anchorage regions.
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PMID:DNA loop anchorage region colocalizes with the replication origin located downstream to the human gene encoding lamin B2. 951 42

The human DNA replication origin, located in the lamin B2 gene, interacts with the DNA topoisomerases I and II in a cell cycle-modulated manner. The topoisomerases interact in vivo and in vitro with precise bonds ahead of the start sites of bidirectional replication, within the pre-replicative complex region; topoisomerase I is bound in M, early G1 and G1/S border and topoisomerase II in M and the middle of G1. The Orc2 protein competes for the same sites of the origin bound by either topoisomerase in different moments of the cell cycle; furthermore, it interacts on the DNA with topoisomerase II during the assembly of the pre-replicative complex and with DNA-bound topoisomerase I at the G1/S border. Inhibition of topoisomerase I activity abolishes origin firing. Thus, the two topoisomerases are closely associated with the replicative complexes, and DNA topology plays an essential functional role in origin activation.
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PMID:Functional interactions of DNA topoisomerases with a human replication origin. 1729 Feb 16

The DNA replication origins of metazoan genomes are the sites of complex sequence-specific protein-DNA interactions determining their precise cycle of activation and deactivation, once only along each cell cycle. Some of the involved proteins have been identified (and particularly the essential six-protein Origin Recognition Complex, ORC) thanks to their homology with the proteins identified in yeast. Whereas in the latter organism ORC has a specific affinity for an origin consensus, metazoan (and human) ORC shows no sequence specificity and no origin consensus is identifiable in their genomes. The modulation of topology around the origin sequence plays an essential role in the function of the human lamin B2 origin and the two topoisomerases interact specifically with it in a cell-cycle modulated way. The two enzymes are never present on the origin at the same time and compete, in different moments of the cell cycle, with the ORC2 subunit for the same sites in the origin area. The topoisomerases could give essential contributions to origin definition, as demonstrated by their capacity to bind specifically, in vitro the lamin B2 origin, either alone (topoisomerase I) or in a multi-protein complex (topoisomerase II). They also play critical roles in the origin activation-deactivation cycle, topoisomerase II probably contributing to attain and/or maintain a topological status fit for prereplicative complex assembly and topoisomerase I allowing the topological adaptations necessary for initiation of bi-directional synthesis.
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PMID:Molecular and structural transactions at human DNA replication origins. 1762 99

The interaction of DNA topology modifying enzymes with eukaryotic DNA replication origins can be detected with nucleotide precision exploiting the action of enzyme poisons specific for type I or type II DNA topoisomerases. Using the topoisomerase I poison camptothecin and the topoisomerase II poison VP16, the precise sites of interaction of these enzymes around the lamin B2 origin have been identified at different points in the cell cycle. The procedure can be applied to any origin for which the sequence has been identified within approximately 1 kb.
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PMID:Binding of DNA topoisomerases I and II to replication origins. 1976 47