Replication is required for the RecA localization response to DNA damage in Bacillus subtilis.
about
The C-terminal domain of the bacterial SSB protein acts as a DNA maintenance hub at active chromosome replication forksProtein interactions in genome maintenance as novel antibacterial targetsBacillus subtilis serine/threonine protein kinase YabT is involved in spore development via phosphorylation of a bacterial recombinaseThreshold effect of growth rate on population variability of Escherichia coli cell lengthsCo-orientation of replication and transcription preserves genome integrity.RecO and RecR are necessary for RecA loading in response to DNA damage and replication fork stress.Nucleoid occlusion prevents cell division during replication fork arrest in Bacillus subtilisThe SOS Regulatory Network.SirA enforces diploidy by inhibiting the replication initiator DnaA during spore formation in Bacillus subtilisBacteroides fragilis RecA protein overexpression causes resistance to metronidazoleMismatch repair causes the dynamic release of an essential DNA polymerase from the replication forkLeptospira interrogans serovar copenhageni harbors two lexA genes involved in SOS responseAn underlying mechanism for the increased mutagenesis of lagging-strand genes in Bacillus subtilis.Paternal DNA damage resulting from various sperm treatments persists after fertilization and is similar before and after DNA replicationRapid pairing and resegregation of distant homologous loci enables double-strand break repair in bacteria.Interactions and Localization of Escherichia coli Error-Prone DNA Polymerase IV after DNA Damage.Replication Restart after Replication-Transcription Conflicts Requires RecA in Bacillus subtilis.The RecA-Dependent SOS Response Is Active and Required for Processing of DNA Damage during Bacillus subtilis Sporulation.DNA repair and genome maintenance in Bacillus subtilis.Beta clamp directs localization of mismatch repair in Bacillus subtilisClp and Lon proteases occupy distinct subcellular positions in Bacillus subtilis.Comparison of responses to double-strand breaks between Escherichia coli and Bacillus subtilis reveals different requirements for SOS inductionDNA damage responses in prokaryotes: regulating gene expression, modulating growth patterns, and manipulating replication forks.Multiple Ku orthologues mediate DNA non-homologous end-joining in the free-living form and during chronic infection of Sinorhizobium meliloti.Imaging mismatch repair and cellular responses to DNA damage in Bacillus subtilis.RecD2 helicase limits replication fork stress in Bacillus subtilis.Homologous recombination as a replication fork escort: fork-protection and recovery.Comparative proteomics reveals key proteins recruited at the nucleoid of Deinococcus after irradiation-induced DNA damage.Anticipating chromosomal replication fork arrest: SSB targets repair DNA helicases to active forks.A novel SMC-like protein, SbcE (YhaN), is involved in DNA double-strand break repair and competence in Bacillus subtilis.Mutations in the Bacillus subtilis beta clamp that separate its roles in DNA replication from mismatch repair.DnaN clamp zones provide a platform for spatiotemporal coupling of mismatch detection to DNA replication.
P2860
Q28476473-A8830DA4-3441-4F76-AC80-BF056D042A82Q28487890-391A2945-A96D-48A7-B9CC-BC05BAD865A9Q30541337-468EDCAB-1243-41DF-8CAB-8872751D66D2Q30842959-1990081A-8628-4969-8C5F-4535336420F2Q33525506-2953937A-C672-4B40-A862-C9922D55B160Q34056851-002F568E-5578-4762-8D05-08B4C8861D15Q34297865-2D2A7300-D124-4631-8422-2C3B68BEE407Q34337115-016E042A-A09B-4340-B2F2-49ABFECBF3EDQ34355977-D17350A5-9FB4-43FB-8A62-FAC6A9200CDAQ34512611-1366E950-FDA4-45BB-80FB-F3A8AFDFD195Q34660590-7711AB80-AA41-4411-A5AD-CD5287249D9EQ35009424-0E47180E-77D3-4C51-8BB2-8538B9CFFE20Q35189852-388E7613-1AF2-4329-880C-F7821EB42762Q35902944-31D1ABFC-9E94-4C83-86F0-5776F67C6832Q35912619-20442DB3-DEB5-4AB2-9D06-E1E7340D6542Q35913829-E3B2BF96-9BDC-4947-9852-B715644F8D95Q35914188-83FF176F-F4FE-441B-8446-A34C015B76DDQ35941132-3BEA988A-5EB2-4278-AF01-30785A0E146DQ36194928-61CDB22B-3047-4895-8BA2-B40859C6847CQ36597002-41D59B59-528F-4A40-8AE4-2FE1DFBE7E84Q36933762-F081AA66-20DC-470E-8356-B00FFAA42BEDQ37075405-7736837D-0D93-46BF-AF84-49B98FB654ECQ37258696-70F05FE7-B92E-4E4E-930E-E0E35F364EAEQ37405906-483EE449-D58F-4BD7-976B-5618A25EA010Q37689478-F71A774B-EADE-4768-B14D-9289F3E5C6CFQ37713187-56B10EE7-1F3B-4139-AA3E-6C4D13C81EECQ38223677-CB6DB28D-B5A5-4F71-8525-F94AD65DE69FQ38440028-9F28E554-AD92-4B1C-ADC7-E714BD39ABC3Q41891443-6FF235CE-78AB-4705-B2A5-B42B465F5B87Q41991608-3ACC6E9C-BA1D-40EF-86F1-1D3D487A4293Q42027732-DA8A96CE-E000-405A-9F94-F8BDB37C58F2Q45962906-1E9E3286-6A7C-43BE-BD68-813239334F51
P2860
Replication is required for the RecA localization response to DNA damage in Bacillus subtilis.
description
2007 nî lūn-bûn
@nan
2007年の論文
@ja
2007年論文
@yue
2007年論文
@zh-hant
2007年論文
@zh-hk
2007年論文
@zh-mo
2007年論文
@zh-tw
2007年论文
@wuu
2007年论文
@zh
2007年论文
@zh-cn
name
Replication is required for th ...... A damage in Bacillus subtilis.
@ast
Replication is required for th ...... A damage in Bacillus subtilis.
@en
type
label
Replication is required for th ...... A damage in Bacillus subtilis.
@ast
Replication is required for th ...... A damage in Bacillus subtilis.
@en
prefLabel
Replication is required for th ...... A damage in Bacillus subtilis.
@ast
Replication is required for th ...... A damage in Bacillus subtilis.
@en
P2093
P2860
P356
P1476
Replication is required for th ...... A damage in Bacillus subtilis.
@en
P2093
Alan D Grossman
Graham C Walker
Lyle A Simmons
P2860
P304
P356
10.1073/PNAS.0607123104
P407
P577
2007-01-17T00:00:00Z