Structural and functional homology between mammalian DNase IV and the 5'-nuclease domain of Escherichia coli DNA polymerase I
about
Mutational analysis of the human nucleotide excision repair gene ERCC1Second pathway for completion of human DNA base excision-repair: reconstitution with purified proteins and requirement for DNase IV (FEN1).Reconstitution of DNA base excision-repair with purified human proteins: interaction between DNA polymerase beta and the XRCC1 proteinNucleotide excision repair of DNA with recombinant human proteins: definition of the minimal set of factors, active forms of TFIIH, and modulation by CAKMolecular cloning and expression of human cDNAs encoding a novel DNA ligase IV and DNA ligase III, an enzyme active in DNA repair and recombinationThe 3'-flap pocket of human flap endonuclease 1 is critical for substrate binding and catalysisA novel family of phospholipase D homologues that includes phospholipid synthases and putative endonucleases: identification of duplicated repeats and potential active site residuesA common mutational pattern in Cockayne syndrome patients from xeroderma pigmentosum group G: implications for a second XPG functionA yeast replicative helicase, Dna2 helicase, interacts with yeast FEN-1 nuclease in carrying out its essential functionAccessibility of DNA polymerases to repair synthesis during nucleotide excision repair in yeast cell-free extracts.Sequential recruitment of the repair factors during NER: the role of XPG in initiating the resynthesis step.A novel DNA polymerase homologous to Escherichia coli DNA polymerase I from a higher plant, rice (Oryza sativa L.).Mutational analysis of the RecJ exonuclease of Escherichia coli: identification of phosphoesterase motifs.A model for transition of 5'-nuclease domain of DNA polymerase I from inert to active modesA novel role in DNA metabolism for the binding of Fen1/Rad27 to PCNA and implications for genetic risk.Active-site mutations in the Xrn1p exoribonuclease of Saccharomyces cerevisiae reveal a specific role in meiosis.Flap endonuclease 1 mechanism analysis indicates flap base binding prior to threadingFunctional regulation of FEN1 nuclease and its link to cancerThe helix-hairpin-helix DNA-binding motif: a structural basis for non-sequence-specific recognition of DNA.The roles of Klenow processing and flap processing activities of DNA polymerase I in chromosome instability in Escherichia coli K12 strainsFunctional analysis of point mutations in human flap endonuclease-1 active siteThe post-incision steps of the DNA base excision repair pathway in Escherichia coli: studies with a closed circular DNA substrate containing a single U:G base pairThe rad18 gene of Schizosaccharomyces pombe defines a new subgroup of the SMC superfamily involved in DNA repair.Activity of FEN1 endonuclease on nucleosome substrates is dependent upon DNA sequence but not flap orientationThe human XPG gene: gene architecture, alternative splicing and single nucleotide polymorphisms.Domain swapping between FEN-1 and XPG defines regions in XPG that mediate nucleotide excision repair activity and substrate specificity.Life without DNA repairThe role of SOS and flap processing in microsatellite instability in Escherichia coli.Molecular cloning of Drosophila mus308, a gene involved in DNA cross-link repair with homology to prokaryotic DNA polymerase I genes.Reconstitution of human replication factor C from its five subunits in baculovirus-infected insect cellsSaccharomyces cerevisiae flap endonuclease 1 uses flap equilibration to maintain triplet repeat stabilityAmino acid Asp181 of 5'-flap endonuclease 1 is a useful target for chemotherapeutic development.Prediction and validation of the unexplored RNA-binding protein atlas of the human proteome.Heterogeneity of primer extension products in asymmetric PCR is due both to cleavage by a structure-specific exo/endonuclease activity of DNA polymerases and to premature stops.Structure-specific DNA binding by bacteriophage T5 5'-->3' exonuclease.Open complex formation around a lesion during nucleotide excision repair provides a structure for cleavage by human XPG protein.Base excision repair in chromatin: Insights from reconstituted systems.Processing of branched DNA intermediates by a complex of human FEN-1 and PCNA.Deoxy- and dideoxynucleotide discrimination and identification of critical 5' nuclease domain residues of the DNA polymerase I from Mycobacterium tuberculosis.The DNA Exonucleases of Escherichia coli.
P2860
Q24324818-DA71C89D-8F07-4B96-B76A-17930A1B1C11Q24532243-8C5E41F5-BE4A-4EE8-AEB8-2BF763022A21Q24561768-5853CDB0-552B-4C45-967F-23338674A14CQ24609992-27F5E553-51AD-41A1-AC21-B336658A89ABQ24652220-E82CF4D1-E72D-401E-959B-4F0DE7267EB7Q24658277-A3A5B6CA-D7E4-4809-9A54-AECEE49EDA9AQ24674165-0C5667E8-A42C-40ED-B50B-F2B102218EF0Q24678938-00CF816E-8A76-4F3F-9E8D-E75A14CB3304Q27937789-EAB48FE8-1EC3-47DA-AB8A-F860FADA1E29Q27938785-C2422621-0BF4-471D-920B-EC2C5A6C3E2DQ33310274-FEC5586D-6FB3-42B6-A73F-54EB4B461B3EQ33337046-B5EAFA2E-C810-4372-BBB1-672AD6486DC6Q33635925-40FC7E48-4B3C-434C-8D8F-788A362B88E8Q33802712-DB4B6D45-EACE-4EE0-8E25-B6081F8AAF04Q33958881-577E4F97-290F-46EA-8A69-158F1776382EQ33959116-18FE538B-6177-44FD-891C-896A298073A5Q34251375-42235B02-4631-4CAF-86B6-9B3F308F8CC4Q34559690-FEDF64F9-2CE5-4CE2-9AFD-68DA7B30AB64Q34602847-5B9E68A3-B9D6-47CD-9C29-D3410773963FQ34614165-175EEF5B-205E-4F57-9F79-3D5D700A7052Q34633807-6748DD90-A9C5-4969-BE96-789C116255FFQ34657325-29ADF32C-1E32-41C1-A109-E318D11701AFQ34731429-B3BD04D8-CFA0-4FDD-9FE1-74AC78CA0B48Q34978891-FB90AFDD-9320-4C8C-BC1D-B20615BF9F1DQ35085116-FB84CB2D-99E5-47C0-B865-4A0F91762598Q35837402-A937A4A9-DDDF-41E3-B97A-A8FA155384EFQ36158486-8419D772-F8F0-4121-82D8-968DE00D50B4Q36282861-08F1A0B1-2CAF-4D92-BA03-CF6D00BF0F7CQ36563030-BFAD3139-91D3-4B74-9377-44B1A0342FB8Q36685363-3F758D92-AED2-4B10-B82C-B01C3ABED6D8Q37424442-12B3DAB6-5FBF-4863-9C72-8D1A1F665DA8Q37474607-62F44B25-0A55-4870-B65F-869328BEAD6DQ37629422-B6FEAD32-4A87-4007-B39B-CA9750992EB3Q37672434-134F4F06-416B-4D3B-A2FA-3FF4E9DDE299Q38342592-E11E02A8-400F-4EC2-B513-C27BA6AE525AQ38348603-84E3F625-27F6-4C73-8DF8-EC4AF6CC7E37Q38594076-2F9A4C5C-CEBF-4566-803B-603632BD4006Q39716441-CA610D4C-8AD2-4AB6-B31F-F69593F76C9EQ39718429-89C4C7FA-063D-43FF-9AB8-94875BFEF6AAQ43015372-00D59660-6BE7-4428-9407-7B0CB9A80790
P2860
Structural and functional homology between mammalian DNase IV and the 5'-nuclease domain of Escherichia coli DNA polymerase I
description
1994 nî lūn-bûn
@nan
1994 թուականի Նոյեմբերին հրատարակուած գիտական յօդուած
@hyw
1994 թվականի նոյեմբերին հրատարակված գիտական հոդված
@hy
1994年の論文
@ja
1994年論文
@yue
1994年論文
@zh-hant
1994年論文
@zh-hk
1994年論文
@zh-mo
1994年論文
@zh-tw
1994年论文
@wuu
name
Structural and functional homo ...... herichia coli DNA polymerase I
@ast
Structural and functional homo ...... herichia coli DNA polymerase I
@en
Structural and functional homo ...... herichia coli DNA polymerase I
@en-gb
Structural and functional homo ...... herichia coli DNA polymerase I
@nl
type
label
Structural and functional homo ...... herichia coli DNA polymerase I
@ast
Structural and functional homo ...... herichia coli DNA polymerase I
@en
Structural and functional homo ...... herichia coli DNA polymerase I
@en-gb
Structural and functional homo ...... herichia coli DNA polymerase I
@nl
prefLabel
Structural and functional homo ...... herichia coli DNA polymerase I
@ast
Structural and functional homo ...... herichia coli DNA polymerase I
@en
Structural and functional homo ...... herichia coli DNA polymerase I
@en-gb
Structural and functional homo ...... herichia coli DNA polymerase I
@nl
P2093
P921
P1476
Structural and functional homo ...... herichia coli DNA polymerase I
@en
P2093
P304
28535-28538
P407
P577
1994-11-01T00:00:00Z