Genome-wide coorientation of replication and transcription reduces adverse effects on replication in Bacillus subtilis.
about
Replication Termination: Containing Fork Fusion-Mediated Pathologies in Escherichia coliThe precarious prokaryotic chromosomeChromosomal Replication Complexity: A Novel DNA Metrics and Genome Instability FactorHigh-precision, whole-genome sequencing of laboratory strains facilitates genetic studies.Co-orientation of replication and transcription preserves genome integrity.Changes in transcriptional orientation are associated with increases in evolutionary rates of enterobacterial genes.Replication fork reversal after replication-transcription collision.Large variations in bacterial ribosomal RNA genes.Disintegration of nascent replication bubbles during thymine starvation triggers RecA- and RecBCD-dependent replication origin destruction.Nucleoid occlusion prevents cell division during replication fork arrest in Bacillus subtilisSirA enforces diploidy by inhibiting the replication initiator DnaA during spore formation in Bacillus subtilisEnd of the beginning: elongation and termination features of alternative modes of chromosomal replication initiation in bacteriaThe B. subtilis Accessory Helicase PcrA Facilitates DNA Replication through Transcription Units.Human gene organization driven by the coordination of replication and transcription.Chromosome demise in the wake of ligase-deficient replication.Transcription as a source of genome instability.Replication-transcription conflicts in bacteria.The role of topoisomerase I in suppressing genome instability associated with a highly transcribed guanine-rich sequence is not restricted to preventing RNA:DNA hybrid accumulation.Static and Dynamic Factors Limit Chromosomal Replication Complexity in Escherichia coli, Avoiding Dangers of Runaway OverreplicationBack to the origin: reconsidering replication, transcription, epigenetics, and cell cycle control.Tn7 elements: engendering diversity from chromosomes to episomes.Strand-biased gene distribution in bacteria is related to both horizontal gene transfer and strand-biased nucleotide composition.Bacteria as computers making computers.Replication of the Escherichia coli chromosome in RNase HI-deficient cells: multiple initiation regions and fork dynamics.Transcription leads to pervasive replisome instability in bacteria.Chromosomal replication dynamics and interaction with the β sliding clamp determine orientation of bacterial transposable elements.What happens when replication and transcription complexes collide?The conflict between DNA replication and transcription.A blueprint for a mutationist theory of replicative strand asymmetries formation.Impediments to replication fork movement: stabilisation, reactivation and genome instability.Transcription-replication encounters, consequences and genomic instability.Replication-fork dynamics.Linking RNA polymerase backtracking to genome instability in E. coli.Co-directional replication-transcription conflicts lead to replication restart.Spatial and Temporal Control of Evolution through Replication-Transcription Conflicts.Regulation of DNA Replication through Natural Impediments in the Eukaryotic Genome.25 years on and no end in sight: a perspective on the role of RecG proteinThe Consequences of Replicating in the Wrong Orientation: Bacterial Chromosome Duplication without an Active Replication OriginInterference between DNA replication and transcription as a cause of genomic instability.Shaping the landscape of the Escherichia coli chromosome: replication-transcription encounters in cells with an ectopic replication origin.
P2860
Q26741314-550C45DB-0413-4191-BCD3-CB8252E860C5Q26852759-4D8A8E31-DE63-4B08-992B-9A726F24AEBCQ28078118-C642F082-8124-4A23-93FB-8404C79E019FQ33356613-E0255BE3-C572-4176-9C3D-D83EB228172BQ33525506-1E913800-3F0A-4563-A399-35B8F5913B62Q34094692-2305D02A-D0F3-4F32-B8A6-47FAE431AE85Q34229731-F82FD262-8F7B-4E66-829B-F73FF519F73EQ34263535-C30CCF2A-8615-44EE-B0F0-DD620267A799Q34276833-55FFCBB9-F68F-4210-B5AB-50BB0BE6E119Q34297865-51345040-BCDB-4ED5-AE5A-AF0701B7490BQ34355977-D1B4D669-EE25-40CA-90B6-6C608399CF09Q35539851-95A42470-A7D5-4FF3-8B83-341C3C4F6499Q35662402-868BA902-379C-49BA-9878-785F885776BCQ35946493-EB36356C-3608-4F1B-82BD-0AE91593C697Q36016450-C2A928C7-0CF5-4484-96AD-FB8F50942AB0Q36036444-23D353C0-68F0-40B6-9559-0A52883E2ABEQ36307709-50BCFA7F-3BBE-4A0A-87E7-A643C2DDE5DFQ36532633-1EC238BB-5E98-45E2-9B22-6CEB303BD7E5Q36677142-03C752DB-5365-4C9D-B0A0-2798B4EC7213Q36796433-78B8C042-C6B8-4123-A6A2-FF6FBD898F08Q37037496-A50C5AAC-28F9-4063-9CC6-607A1485FE3AQ37319936-964831D7-11A2-4B39-9DFB-9DB7F1A285F1Q37328409-2685F598-7B2A-4270-95A2-0C3C2C84B741Q37588219-3805A2C1-ECE5-483B-B394-8AF5BBAADCE2Q37638992-1F8843FD-8223-4C07-B8D0-37A1C0BFDE79Q37677327-89D472E1-C494-4AC3-BD93-E4D4DED56C5BQ37767990-AC0EF16B-F9C9-4733-B0AF-909A6CB5E670Q38011269-9A71B43E-EDDF-47EC-B6DB-D674874C655BQ38040100-64EA95D0-D27D-4907-84F6-29230E98EC3CQ38085184-39F70E23-4EA0-4B30-BD65-DCFF3535BBDBQ38095707-21E82BFA-5CE2-44ED-BF2D-A6ED0F9C9D51Q38123787-BD844654-C95B-4FFA-9C34-3B481ECB065EQ38257014-D2D06CDF-D3EE-47B4-9C76-4299B80163D9Q38337096-5556BEA6-4FFC-40E5-AA4A-9B66814CFB21Q39143154-D7927E4F-A8F3-4767-9679-211F168FF8A9Q39168142-CC007832-A863-4AAB-A291-C0EB5AFC1CCDQ39869214-6D4AED02-2880-4B5A-BE80-2AE09083CFC9Q40360421-FBCD3E68-6145-4586-822B-1246AA64C2F8Q40751825-ED7A3965-CC0C-4AFF-A40B-3F49E9F84329Q40752063-E4040B91-E1B1-4E78-9E17-004C80BBE9BC
P2860
Genome-wide coorientation of replication and transcription reduces adverse effects on replication 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
Genome-wide coorientation of r ...... lication in Bacillus subtilis.
@ast
Genome-wide coorientation of r ...... lication in Bacillus subtilis.
@en
type
label
Genome-wide coorientation of r ...... lication in Bacillus subtilis.
@ast
Genome-wide coorientation of r ...... lication in Bacillus subtilis.
@en
prefLabel
Genome-wide coorientation of r ...... lication in Bacillus subtilis.
@ast
Genome-wide coorientation of r ...... lication in Bacillus subtilis.
@en
P2860
P356
P1476
Genome-wide coorientation of r ...... plication in Bacillus subtilis
@en
P2093
Alan D Grossman
P2860
P304
P356
10.1073/PNAS.0608999104
P407
P577
2007-03-19T00:00:00Z