Crystal structure of the DNA binding domain of the replication initiation protein E1 from papillomavirus
about
The structure of a replication initiator unites diverse aspects of nucleic acid metabolismOrigin and evolution of the archaeo-eukaryotic primase superfamily and related palm-domain proteins: structural insights and new membersCryo-EM structures of the eukaryotic replicative helicase bound to a translocation substrate.Crystal structures of two intermediates in the assembly of the papillomavirus replication initiation complex.The DNA-binding domain of human papillomavirus type 18 E1. Crystal structure, dimerization, and DNA bindingThe Crystal Structure of the SV40 T-Antigen Origin Binding Domain in Complex with DNAPlasmid replication initiator RepB forms a hexamer reminiscent of ring helicases and has mobile nuclease domainsAsymmetric Assembly of Merkel Cell Polyomavirus Large T-Antigen Origin Binding Domains at the Viral OriginCharacterization and whole genome analysis of human papillomavirus type 16 e1-1374^63nt variantsNuclear accumulation of the papillomavirus E1 helicase blocks S-phase progression and triggers an ATM-dependent DNA damage responseTwo heads are better than one: regulation of DNA replication by hexameric helicasesPapillomaviruses: a systematic review.The E1 initiator recognizes multiple overlapping sites in the papillomavirus origin of DNA replication.In the simian virus 40 in vitro replication system, start site selection by the polymerase alpha-primase complex is not significantly altered by changes in the concentration of ribonucleotides.The interdomain linker of AAV-2 Rep68 is an integral part of its oligomerization domain: role of a conserved SF3 helicase residue in oligomerizationSequential and ordered assembly of E1 initiator complexes on the papillomavirus origin of DNA replication generates progressive structural changes related to melting.Pathogenesis of human papillomaviruses in differentiating epithelia.E1 initiator DNA binding specificity is unmasked by selective inhibition of non-specific DNA binding.Crystal structure of the simian virus 40 large T-antigen origin-binding domainReplication and partitioning of papillomavirus genomes.Structure of the origin-binding domain of simian virus 40 large T antigen bound to DNA.Structural Based Analyses of the JC Virus T-Antigen F258L Mutant Provides Evidence for DNA Dependent Conformational Changes in the C-Termini of Polyomavirus Origin Binding Domains.Interactions required for binding of simian virus 40 T antigen to the viral origin and molecular modeling of initial assembly events.Identification of a nuclear export signal sequence for bovine papillomavirus E1 protein.CK2 phosphorylation inactivates DNA binding by the papillomavirus E1 and E2 proteins.Mutations in DNA binding and transactivation domains affect the dynamics of parvovirus NS1 protein.Recombination-dependent oligomerization of human papillomavirus genomes upon transient DNA replication.The E1 proteins.The X-ray structure of the papillomavirus helicase in complex with its molecular matchmaker E2.Dynamic look at DNA unwinding by a replicative helicase.Functional mapping of the DNA binding domain of bovine papillomavirus E1 proteinCharacterization of the minimal DNA binding domain of the human papillomavirus e1 helicase: fluorescence anisotropy studies and characterization of a dimerization-defective mutant proteinCharacterization of the DNA-binding properties of the origin-binding domain of simian virus 40 large T antigen by fluorescence anisotropyThe minimum replication origin of merkel cell polyomavirus has a unique large T-antigen loading architecture and requires small T-antigen expression for optimal replication.Regulation of human papillomavirus type 16 E7 activity through direct protein interaction with the E2 transcriptional activator.Structure-based mutational analysis of the bovine papillomavirus E1 helicase domain identifies residues involved in the nonspecific DNA binding activity required for double trimer formation.Structures of RNA Polymerase Closed and Intermediate Complexes Reveal Mechanisms of DNA Opening and Transcription Initiation.A conserved regulatory module at the C terminus of the papillomavirus E1 helicase domain controls E1 helicase assembly.A phosphorylation map of the bovine papillomavirus E1 helicase.Role of papillomavirus E1 initiator dimerization in DNA replication
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P2860
Crystal structure of the DNA binding domain of the replication initiation protein E1 from papillomavirus
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2000 nî lūn-bûn
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2000年の論文
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Crystal structure of the DNA b ...... protein E1 from papillomavirus
@ast
Crystal structure of the DNA b ...... protein E1 from papillomavirus
@en
Crystal structure of the DNA b ...... protein E1 from papillomavirus
@nl
type
label
Crystal structure of the DNA b ...... protein E1 from papillomavirus
@ast
Crystal structure of the DNA b ...... protein E1 from papillomavirus
@en
Crystal structure of the DNA b ...... protein E1 from papillomavirus
@nl
prefLabel
Crystal structure of the DNA b ...... protein E1 from papillomavirus
@ast
Crystal structure of the DNA b ...... protein E1 from papillomavirus
@en
Crystal structure of the DNA b ...... protein E1 from papillomavirus
@nl
P2093
P921
P1433
P1476
Crystal structure of the DNA b ...... protein E1 from papillomavirus
@en
P2093
A Stenlund
D E Vaughn
E J Enemark
L Joshua-Tor
P304
P356
10.1016/S1097-2765(00)00016-2
P577
2000-07-01T00:00:00Z