about
Histonelike proteins of bacteriaRegulation of bacterial DNA supercoiling: plasmid linking numbers vary with growth temperatureDNA looping and the helical repeat in vitro and in vivo: effect of HU protein and enhancer location on Hin invertasome assembly.Diel cycling of DNA staining and nifH gene regulation in the unicellular cyanobacterium Crocosphaera watsonii strain WH 8501 (Cyanophyta)Measuring chromosome dynamics on different time scales using resolvases with varying half-lives.Rates of gyrase supercoiling and transcription elongation control supercoil density in a bacterial chromosomeHow topoisomerase IV can efficiently unknot and decatenate negatively supercoiled DNA molecules without causing their torsional relaxation.Distribution of gyrase and topoisomerase IV on bacterial nucleoid: implications for nucleoid organization.The influence of tertiary structural restraints on conformational transitions in superhelical DNA.Modeling the Lac repressor-operator assembly: the influence of DNA looping on Lac repressor conformation.Effects of physiological self-crowding of DNA on shape and biological properties of DNA molecules with various levels of supercoiling.RNA polymerase: chromosome domain boundary maker and regulator of supercoil density.H1a, an E. coli DNA-binding protein which accumulates in stationary phase, strongly compacts DNA in vitroDimethyl sulfoxide prevents DNA nicking mediated by ionizing radiation or iron/hydrogen peroxide-generated hydroxyl radicalAltered DNA conformations detected by mung bean nuclease occur in promoter and terminator regions of supercoiled pBR322 DNA.Chromosome partitioning in Escherichia coli.Binding of phage Phi29 architectural protein p6 to the viral genome: evidence for topological restriction of the phage linear DNA.Positively supercoiled plasmid DNA is produced by treatment of Escherichia coli with DNA gyrase inhibitors.Topological Behavior of Plasmid DNACoralline shape of the bacterial nucleoid after cryofixationInvolvement of integration host factor (IHF) in maintenance of plasmid pSC101 in Escherichia coli: mutations in the topA gene allow pSC101 replication in the absence of IHFInduction of anaerobic gene expression in Rhodobacter capsulatus is not accompanied by a local change in chromosomal supercoiling as measured by a novel assay.DNA supercoiling in gyrase mutantsQuantitation with monoclonal antibodies of Escherichia coli H protein suggests histone functionDifferential effects of antibiotics inhibiting gyrase.Resolving chromosome segregation in bacteria.Biology of bacterial deoxyribonucleic acid topoisomerases.Perfect palindromic lac operator DNA sequence exists as a stable cruciform structure in supercoiled DNA in vitro but not in vivo.The chromatin-associated protein H-NS alters DNA topology in vitro.Application of the bacteriophage Mu-driven system for the integration/amplification of target genes in the chromosomes of engineered Gram-negative bacteria--mini review.The DNA intercalators ethidium bromide and propidium iodide also bind to core histones.Why is the initiation nick site of an AT-rich rolling circle plasmid at the tip of a GC-rich cruciform?DNA supercoiling is a fundamental regulatory principle in the control of bacterial gene expression.Supercoiling in prokaryotic and eukaryotic DNA: changes in response to topological perturbation of plasmids in E. coli and SV40 in vitro, in nuclei and in CV-1 cellsThe bacterial nucleoid revisited.Transcriptional state of the mouse mammary tumor virus promoter can affect topological domain size in vivo.DNA supercoiling changes the spacing requirement of two lac operators for DNA loop formation with lac repressor.Supercoiling response of a bacterial tRNA gene.Growth rate toxicity phenotypes and homeostatic supercoil control differentiate Escherichia coli from Salmonella enterica serovar Typhimurium.Investigating DNA supercoiling in eukaryotic genomes.
P2860
Q24634363-8CAC06E6-5DD4-4939-AFD8-DB26DE9029FFQ28267186-17B15D12-1938-4142-A5BC-FF1E5FF4B38DQ30423045-609F6498-CD96-4674-BBCD-4EB5D184D6F6Q33526832-66509085-4063-4C07-853B-89A70E849877Q34375031-186F182D-B169-4570-8F11-F92A1EE0BFC2Q34390566-14C928D6-15FC-411F-95C6-68BB61052B30Q34523212-64B55FF0-16BF-4A5E-8B4A-A10B368A48B4Q34666787-45571D59-ED9C-496B-A71C-58D14DAA7045Q34728271-DC393E76-3D08-4C03-AF5A-DB955E6C9701Q34772944-55A6EF34-A8AB-4029-9AA7-540234129FBCQ35131103-CE1419AF-1740-42F4-A906-B05A96B4FB1BQ35177789-0B4DE512-2B06-4B54-8F05-4A94F6C94303Q35290841-0D1C6B4F-9803-4223-8AC8-6CAA2AE849B7Q35421426-7A2A276E-E904-448A-9040-312C5FCB2706Q35559709-B78206B7-7464-4023-AA55-3218045731AEQ35576297-22371148-D39C-4FF5-AEE4-CD1129BD3DABQ35618403-B7879545-4862-4C73-AB73-513C7C93B9F0Q35675834-197D323E-4A9E-4061-9606-582E6774BA69Q35781053-5DD05E66-EEFE-4D02-8CFB-3CD0473AB869Q36146175-CBADF1FC-FA00-4D8C-8B1B-3DA682CC7B4BQ36175743-907E3161-82F4-4BF0-A6F6-93B7A917DED9Q36181544-5D499CB5-BDD3-42C3-B0D2-093CF42015F1Q36299845-7512E2D6-77DF-4499-BCC4-F116CC677224Q36305454-276D386F-5F24-4851-A029-3B5F0DB4BAE8Q36311467-7754DEF0-B5D3-49C1-B592-5F3B29297211Q36597246-D953A531-5D31-4EE0-9978-019543580F4EQ37066515-563EE407-4715-45DA-A0BF-764134B125E4Q37607301-51A3B466-6BB0-45BF-BB34-11914CF1E534Q37627511-1CD7CE05-32DB-4F13-BFDD-4C80C81F4CC1Q37893526-80CAB4FA-36E5-43AC-8262-015EADEE2CD2Q38342769-A69D5862-624C-41C6-9FD6-DA5601CAB460Q38344216-E3DF881B-6783-4F3C-8307-D6D5A986D7AFQ39310921-7F37181D-5F4F-4411-A33E-8D3123DAE73FQ40388835-E3CDE7A9-DCD2-4DFF-B7E3-2897F5A23192Q40392205-C6E4F444-7B89-40FF-AB8B-76103AEFF9B1Q40927182-BCB0D010-6D72-4855-8F56-6A7B4608EBF7Q41091317-9BD15BD1-5BC8-4403-905D-D050FEDBB0E5Q41382585-7953EA1F-35D6-4326-9CEF-A32CE674D124Q42412151-FE2B0FE7-AC02-486F-A68C-65B1E842956CQ43387197-DC81A3B0-98F8-4DAC-AB33-44B9B64E59EC
P2860
description
1980 nî lūn-bûn
@nan
1980年の論文
@ja
1980年学术文章
@wuu
1980年学术文章
@zh-cn
1980年学术文章
@zh-hans
1980年学术文章
@zh-my
1980年学术文章
@zh-sg
1980年學術文章
@yue
1980年學術文章
@zh
1980年學術文章
@zh-hant
name
Supercoils in prokaryotic DNA restrained in vivo
@ast
Supercoils in prokaryotic DNA restrained in vivo
@en
type
label
Supercoils in prokaryotic DNA restrained in vivo
@ast
Supercoils in prokaryotic DNA restrained in vivo
@en
prefLabel
Supercoils in prokaryotic DNA restrained in vivo
@ast
Supercoils in prokaryotic DNA restrained in vivo
@en
P2860
P356
P1476
Supercoils in prokaryotic DNA restrained in vivo
@en
P2093
Pettijohn DE
Pfenninger O
P2860
P304
P356
10.1073/PNAS.77.3.1331
P407
P577
1980-03-01T00:00:00Z