scholarly article | Q13442814 |
P2093 | author name string | X Wang | |
N P Higgins | |||
D Manna | |||
P2860 | cites work | Tn10 insertion specificity is strongly dependent upon sequences immediately adjacent to the target-site consensus sequence | Q24564196 |
A physiological role for DNA supercoiling in the osmotic regulation of gene expression in S. typhimurium and E. coli | Q28280711 | ||
An efficient recombination system for chromosome engineering in Escherichia coli | Q29615038 | ||
Growth phase-dependent variation in protein composition of the Escherichia coli nucleoid | Q33638020 | ||
A mutation in a new gene, bglJ, activates the bgl operon in Escherichia coli K-12 | Q33967633 | ||
Why are antibiotic resistance genes so resistant to elimination? | Q35138729 | ||
Novel non-templated nucleotide addition reactions catalyzed by procaryotic and eucaryotic DNA polymerases | Q36070698 | ||
IS5: a mobile enhancer of transcription in Escherichia coli | Q36829526 | ||
'Muprints' of the lac operon demonstrate physiological control over the randomness of in vivo transposition | Q38308702 | ||
Lac and lambda repressors relieve silencing of the Escherichia coli bgl promoter. Activation by alteration of a repressing nucleoprotein complex | Q38330850 | ||
Transcriptional antitermination in the bgl operon of E. coli is modulated by a specific RNA binding protein | Q38339143 | ||
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Positive and negative regulation of the bgl operon in Escherichia coli | Q39956880 | ||
The isolation and characterisation of a plaque-forming derivative of bacteriophage Mu carrying a fragment of Tn3 conferring ampicillin resistance | Q40611195 | ||
Regulation of the bgl operon of Escherichia coli by transcriptional antitermination | Q41093368 | ||
DNA transposition: jumping gene machine, some assembly required. | Q41110740 | ||
Steady-state kinetic analysis of ATP hydrolysis by the B protein of bacteriophage mu. Involvement of protein oligomerization in the ATPase cycle | Q41152029 | ||
Escherichia coli DNA topoisomerase I mutants have compensatory mutations in DNA gyrase genes. | Q44244250 | ||
Modulation of the dimerization of a transcriptional antiterminator protein by phosphorylation | Q46509384 | ||
Enhancement of bacterial gene expression by insertion elements or by mutation in a CAP-cAMP binding site | Q48360089 | ||
Phage Mu transposition immunity reflects supercoil domain structure of the chromosome | Q50126548 | ||
Disruption of target DNA binding in Mu DNA transposition by alteration of position 99 in the Mu B protein. | Q54147023 | ||
Insertion of DNA activates the cryptic bgl operon in E. coli K12 | Q59067572 | ||
Asymmetry in the recA protein-DNA filament | Q67898179 | ||
Second-element turn-on of gene expression in an IS1 insertion mutant | Q69822496 | ||
Mutations affecting localization of an Escherichia coli outer membrane protein, the bacteriophage lambda receptor | Q70534393 | ||
Substrate nucleotide-determined non-templated addition of adenine by Taq DNA polymerase: implications for PCR-based genotyping and cloning | Q71725379 | ||
Supercoiling-dependent site-specific binding of HU to naked Mu DNA | Q77884711 | ||
P433 | issue | 11 | |
P407 | language of work or name | English | Q1860 |
P921 | main subject | Escherichia coli | Q25419 |
bias | Q742736 | ||
P304 | page(s) | 3328-3335 | |
P577 | publication date | 2001-06-01 | |
P1433 | published in | Journal of Bacteriology | Q478419 |
P1476 | title | Mu and IS1 transpositions exhibit strong orientation bias at the Escherichia coli bgl locus | |
P478 | volume | 183 |
Q37367632 | Alternative interactions between the Tn7 transposase and the Tn7 target DNA binding protein regulate target immunity and transposition |
Q42754922 | Bacteriophage Mu targets the trinucleotide sequence CGG. |
Q36862999 | Congruence of in vivo and in vitro insertion patterns in hot E. coli gene targets of transposable element Mu: opposing roles of MuB in target capture and integration |
Q44017740 | Direct observation of single MuB polymers: evidence for a DNA-dependent conformational change for generating an active target complex |
Q36858379 | Dissecting the roles of MuB in Mu transposition: ATP regulation of DNA binding is not essential for target delivery |
Q33217515 | Genetic evidence that GTP is required for transposition of IS903 and Tn552 in Escherichia coli |
Q33724108 | Immunity of replicating Mu to self-integration: a novel mechanism employing MuB protein. |
Q38298379 | Microarray analysis of Mu transposition in Salmonella enterica, serovar Typhimurium: transposon exclusion by high-density DNA binding proteins |
Q36448960 | Microarray analysis of transposition targets in Escherichia coli: the impact of transcription |
Q47581293 | Muprints and Whole Genome Insertion Scans: Methods for Investigating Chromosome Accessibility and DNA Dynamics using Bacteriophage Mu. |
Q28768389 | Organization of supercoil domains and their reorganization by transcription |
Q33659611 | Species-specific supercoil dynamics of the bacterial nucleoid |
Q52698363 | Target site selection by the mariner-like element, Mos1. |
Q35801161 | Transposable Phage Mu |
Q46680790 | Transposition is modulated by a diverse set of host factors in Escherichia coli and is stimulated by nutritional stress |
Q36648422 | Transpososome dynamics and regulation in Tn10 transposition |
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