Replication origins, factors and attachment sites
Identifieur interne : 004904 ( Main/Exploration ); précédent : 004903; suivant : 004905Replication origins, factors and attachment sites
Auteurs : Susan M. Gasser [Suisse]Source :
- Current Opinion in Cell Biology [ 0955-0674 ] ; 1991.
English descriptors
- Teeft :
- Acbp, Acbp binding sites, Autonomous replication, Bidirectional, Bidirectional replication, Binding site, Binding sites, Biol, Bold type, Cell biol, Chromosome, Consenses, Consensus, Consensus sequence, Double helix, Drosophila, Electrophoresis system, Gene expression, Genomic, Helicase activity, Helix, High affinity, Initiation, Initiator protein, Linker mutagenesis, Mutagenesis, Mutagenesis studies, Mutation, Narrow structure, Nuclear membrane, Nuclear scaffold, Nuclear substructure, Nucleic acids, Nucleotide, Opposite strand, Perfect consensus, Personal communication, Plasmid, Plasmid replication, Point mutations, Polymerase, Replication, Replication forks, Replication machinery, Replication origins, Replicative activity, Reversion studies, Sars, Scaffold, Scaffold attachment, Scatfold binding, Single strand, Strand synthesis, Thermal energy, Unwinding, Unwinding element, Unwinding elements, Unwound domain, Yeast.
Abstract
Abstract: The initiation of eukaryotic DNA synthesis occurs at specific sites determined by both cis- and trans-acting elements. Here I review advances in the characterization of yeast origins, origin-binding proteins and the relationship of DNA replication to nuclear substructure in yeast.
Url:
DOI: 10.1016/0955-0674(91)90067-9
Affiliations:
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Le document en format XML
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<term>Bidirectional replication</term>
<term>Binding site</term>
<term>Binding sites</term>
<term>Biol</term>
<term>Bold type</term>
<term>Cell biol</term>
<term>Chromosome</term>
<term>Consenses</term>
<term>Consensus</term>
<term>Consensus sequence</term>
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<term>Electrophoresis system</term>
<term>Gene expression</term>
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<term>Helix</term>
<term>High affinity</term>
<term>Initiation</term>
<term>Initiator protein</term>
<term>Linker mutagenesis</term>
<term>Mutagenesis</term>
<term>Mutagenesis studies</term>
<term>Mutation</term>
<term>Narrow structure</term>
<term>Nuclear membrane</term>
<term>Nuclear scaffold</term>
<term>Nuclear substructure</term>
<term>Nucleic acids</term>
<term>Nucleotide</term>
<term>Opposite strand</term>
<term>Perfect consensus</term>
<term>Personal communication</term>
<term>Plasmid</term>
<term>Plasmid replication</term>
<term>Point mutations</term>
<term>Polymerase</term>
<term>Replication</term>
<term>Replication forks</term>
<term>Replication machinery</term>
<term>Replication origins</term>
<term>Replicative activity</term>
<term>Reversion studies</term>
<term>Sars</term>
<term>Scaffold</term>
<term>Scaffold attachment</term>
<term>Scatfold binding</term>
<term>Single strand</term>
<term>Strand synthesis</term>
<term>Thermal energy</term>
<term>Unwinding</term>
<term>Unwinding element</term>
<term>Unwinding elements</term>
<term>Unwound domain</term>
<term>Yeast</term>
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<front><div type="abstract" xml:lang="en">Abstract: The initiation of eukaryotic DNA synthesis occurs at specific sites determined by both cis- and trans-acting elements. Here I review advances in the characterization of yeast origins, origin-binding proteins and the relationship of DNA replication to nuclear substructure in yeast.</div>
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