review article | Q7318358 |
scholarly article | Q13442814 |
P356 | DOI | 10.1007/BF01435237 |
P698 | PubMed publication ID | 7813916 |
P2093 | author name string | A Toussaint | |
G Maenhaut-Michel | |||
A Mhammedi-Alaoui | |||
J Laachouch | |||
M J Gama | |||
P2860 | cites work | Adaptive mutation: the uses of adversity | Q24596056 |
The ATP-dependent Clp protease of Escherichia coli. Sequence of clpA and identification of a Clp-specific substrate | Q28246184 | ||
Natural genetic engineering in evolution. | Q30333830 | ||
Characterization of the inhomogeneous DNA in virions of bacteriophage Mu by DNA reannealing kinetics | Q30652255 | ||
New data on excisions of Mu from E. coli MCS2 cast doubt on directed mutation hypothesis | Q30670768 | ||
A DNA gyrase-binding site at the center of the bacteriophage Mu genome is required for efficient replicative transposition | Q33887701 | ||
Virulence in bacteriophage Mu: a case of trans-dominant proteolysis by the Escherichia coli Clp serine protease | Q33938674 | ||
Action of a transposable element in coding sequence fusions | Q33957002 | ||
Isolation of Pre-Adaptive Mutants in Bacteria by Sib Selection. | Q33976395 | ||
DNA rearrangements associated with reversion of bacteriophage Mu-induced mutations | Q33995117 | ||
Transpositional recombination: mechanistic insights from studies of mu and other elements | Q35231355 | ||
Death and transfiguration among bacteria | Q35231787 | ||
Mechanistic aspects of DNA transposition | Q35236518 | ||
The population biology and evolutionary significance of Ty elements in Saccharomyces cerevisiae | Q35236991 | ||
The role of integration host factor in gene expression in Escherichia coli | Q35536633 | ||
Regulation by proteolysis: energy-dependent proteases and their targets | Q35655403 | ||
The Fis protein: it's not just for DNA inversion anymore | Q35658496 | ||
A role for the Clp protease in activating Mu-mediated DNA rearrangements | Q36099503 | ||
Involvement of Escherichia coli FIS protein in maintenance of bacteriophage mu lysogeny by the repressor: control of early transcription and inhibition of transposition | Q36102146 | ||
Temperature-sensitive mutations in the bacteriophage Mu c repressor locate a 63-amino-acid DNA-binding domain | Q36163660 | ||
Bacteriophage Mu late promoters: four late transcripts initiate near a conserved sequence | Q36175691 | ||
Localization and regulation of bacteriophage Mu promoters | Q36179051 | ||
Differential activity of a transposable element in Escherichia coli colonies | Q36184008 | ||
Bacteriophage Mu-induced modification of DNA is dependent upon a host function | Q36346754 | ||
The bacteriophage Mu N gene encodes the 64-kDa virion protein which is injected with, and circularizes, infecting Mu DNA. | Q36425911 | ||
Reproductive fitness of P1, P2, and Mu lysogens of Escherichia coli | Q36513355 | ||
Electron microscope heteroduplex study of the heterogeneity of Mu phage and prophage DNA | Q36531429 | ||
Isolation of heterogeneous circular DNA from induced lysogens of bacteriophage Mu-1. | Q37438468 | ||
Influence of insertions on packaging of host sequences covalently linked to bacteriophage Mu DNA | Q37459601 | ||
Primary structure of phage mu transposase: homology to mu repressor | Q37555385 | ||
The ClpP component of Clp protease is the sigma 32-dependent heat shock protein F21.5. | Q37609002 | ||
The roles of starvation and selective substrates in the emergence of araB-lacZ fusion clones. | Q37638181 | ||
More than just "histone-like" proteins | Q37826709 | ||
Mechanisms of DNA reorganization in bacteria | Q39494877 | ||
A protein factor which reduces the negative supercoiling requirement in the Mu DNA strand transfer reaction is Escherichia coli integration host factor. | Q39526906 | ||
Transposition and fusion of the lac genes to selected promoters in Escherichia coli using bacteriophage lambda and Mu | Q39605636 | ||
Role of Clp protease subunits in degradation of carbon starvation proteins in Escherichia coli | Q39895509 | ||
Role of bacteriophage Mu C protein in activation of the mom gene promoter | Q39948597 | ||
Identification of a positive regulator of the Mu middle operon | Q39951927 | ||
Initiation of lambda DNA replication with purified host- and bacteriophage-encoded proteins: the role of the dnaK, dnaJ and grpE heat shock proteins | Q40817967 | ||
Mu insertion duplicates a 5 base pair sequence at the host inserted site | Q41004020 | ||
Nucleotide sequences of the attachment sites of bacteriophage Mu DNA | Q41053189 | ||
Rearrangements of Genetic Material in Escherichia coli As Observed on the Bacteriophage P1 Plasmid | Q41105665 | ||
Escherichia coli integration host factor stabilizes bacteriophage Mu repressor interactions with operator DNA in vitro | Q42006746 | ||
Evolution of transposons: natural selection for Tn5 in Escherichia coli K12. | Q42958159 | ||
The Escherichia coli protein, Fis: specific binding to the ends of phage Mu DNA and modulation of phage growth | Q43715981 | ||
In vitro transposition of bacteriophage Mu: A biochemical approach to a novel replication reaction | Q43875515 | ||
The bacteriophage Mu gem gene: a positive regulator of the C operon required for normal levels of late transcription | Q44600277 | ||
Simultaneous expression of a bacteriophage Mu transposase and repressor: a way of preventing killing due to mini-Mu replication | Q45196164 | ||
Interaction of distinct domains in Mu transposase with Mu DNA ends and an internal transpositional enhancer. | Q45972785 | ||
Site-specific recognition of the bacteriophage mu ends by the mu a protein | Q48385604 | ||
Mutations altering chromosomal protein H-NS induce mini-Mu transposition | Q50187358 | ||
Evolution of transposable elements: an IS10 insertion increases fitness in Escherichia coli. | Q54445687 | ||
A new component of bacteriophage Mu replicative transposition machinery: the Escherichia coli ClpX protein. | Q54639180 | ||
Evidence for a regulatory function of the histone-like Escherichia coli protein H-NS in ribosomal RNA synthesis. | Q54642298 | ||
ClpX, an alternative subunit for the ATP-dependent Clp protease of Escherichia coli. Sequence and in vivo activities. | Q54649556 | ||
Isolation and characterization of ClpX, a new ATP-dependent specificity component of the Clp protease of Escherichia coli. | Q54649560 | ||
Inhibition of bacteriophage Mu transposition by Mu repressor and Fis. | Q54650806 | ||
Instability of bacteriophage Mu transposase and the role of host Hfl protein. | Q54706979 | ||
Analysis of bacteriophage Mu and λ-Mu hybrid DNAs by specific endonucleases | Q55034206 | ||
Anticipatory mutagenesis? | Q58990698 | ||
Transposable elements as mutator genes in evolution | Q59084250 | ||
Evidence for a conservative pathway of transposition of bacteriophage Mu | Q67288028 | ||
Stabilization of bacteriophage Mu repressor-operator complexes by the Escherichia coli integration host factor protein | Q67546317 | ||
Positive and negative regulation of the Mu operator by Mu repressor and Escherichia coli integration host factor | Q70017519 | ||
Division of labor among monomers within the Mu transposase tetramer | Q70471720 | ||
Nonreplicative DNA transposition: integration of infecting bacteriophage mu | Q72413003 | ||
Observations on the formation of clones containing araB-lacZ cistron fusions | Q72815889 | ||
Instability of transposase activity: evidence from bacteriophage mu DNA replication | Q72939515 | ||
P433 | issue | 1-3 | |
P407 | language of work or name | English | Q1860 |
P921 | main subject | bacteriophage | Q165028 |
P304 | page(s) | 27-39 | |
P577 | publication date | 1994-01-01 | |
P1433 | published in | Genetica | Q5532929 |
P1476 | title | Regulation of bacteriophage Mu transposition | |
P478 | volume | 93 |
Q42610983 | A Context-dependent ClpX Recognition Determinant Located at the C Terminus of Phage Mu Repressor |
Q52011799 | Bio-array images processing and genetic networks modelling. |
Q78530082 | Characterization of the cts4 repressor mutation in transposable bacteriophage Mu |
Q33875450 | Comparative Omics and Trait Analyses of Marine Pseudoalteromonas Phages Advance the Phage OTU Concept |
Q34673315 | Complete sequence and evolutionary genomic analysis of the Pseudomonas aeruginosa transposable bacteriophage D3112. |
Q85194203 | Identification of the J and K genes in the bacteriophage Mu genome sequence |
Q77389212 | In vivo mutational analysis of bacteriophage Mu operators |
Q37180847 | Prophages in marine bacteria: dangerous molecular time bombs or the key to survival in the seas? |
Q33943077 | The tRNA function of SsrA contributes to controlling repression of bacteriophage Mu prophage. |
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