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Translocation and stability of replicative DNA helicases upon encountering DNA-protein cross-links.
- Source :
-
The Journal of biological chemistry [J Biol Chem] 2013 Feb 15; Vol. 288 (7), pp. 4649-58. Date of Electronic Publication: 2013 Jan 02. - Publication Year :
- 2013
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Abstract
- DNA-protein cross-links (DPCs) are formed when cells are exposed to various DNA-damaging agents. Because DPCs are extremely large, steric hindrance conferred by DPCs is likely to affect many aspects of DNA transactions. In DNA replication, DPCs are first encountered by the replicative helicase that moves at the head of the replisome. However, little is known about how replicative helicases respond to covalently immobilized protein roadblocks. In the present study we elucidated the effect of DPCs on the DNA unwinding reaction of hexameric replicative helicases in vitro using defined DPC substrates. DPCs on the translocating strand but not on the nontranslocating strand impeded the progression of the helicases including the phage T7 gene 4 protein, simian virus 40 large T antigen, Escherichia coli DnaB protein, and human minichromosome maintenance Mcm467 subcomplex. The impediment varied with the size of the cross-linked proteins, with a threshold size for clearance of 5.0-14.1 kDa. These results indicate that the central channel of the dynamically translocating hexameric ring helicases can accommodate only small proteins and that all of the helicases tested use the steric exclusion mechanism to unwind duplex DNA. These results further suggest that DPCs on the translocating and nontranslocating strands constitute helicase and polymerase blocks, respectively. The helicases stalled by DPC had limited stability and dissociated from DNA with a half-life of 15-36 min. The implications of the results are discussed in relation to the distinct stabilities of replisomes that encounter tight but reversible DNA-protein complexes and irreversible DPC roadblocks.
- Subjects :
- Animals
Cross-Linking Reagents chemistry
Cross-Linking Reagents pharmacology
DNA Damage
DnaB Helicases metabolism
Escherichia coli metabolism
Humans
MADS Domain Proteins metabolism
Models, Genetic
Neuronal Plasticity
Oligonucleotides genetics
Protein Binding
Protein Transport
Synapses metabolism
Time Factors
Xenopus
DNA chemistry
DNA Helicases chemistry
DNA Helicases physiology
Subjects
Details
- Language :
- English
- ISSN :
- 1083-351X
- Volume :
- 288
- Issue :
- 7
- Database :
- MEDLINE
- Journal :
- The Journal of biological chemistry
- Publication Type :
- Academic Journal
- Accession number :
- 23283980
- Full Text :
- https://doi.org/10.1074/jbc.M112.419358