scholarly article | Q13442814 |
P2093 | author name string | Simon L. Dove | |
Sandra Castang | |||
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The H-NS dimerization domain defines a new fold contributing to DNA recognition | Q27640522 | ||
Lsr2 of Mycobacterium tuberculosis is a DNA-bridging protein | Q28487199 | ||
H-NS mediates the silencing of laterally acquired genes in bacteria | Q28490022 | ||
The multifaceted proteins MvaT and MvaU, members of the H-NS family, control arginine metabolism, pyocyanin synthesis, and prophage activation in Pseudomonas aeruginosa PAO1 | Q28492558 | ||
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Pseudomonas aeruginosa cupA-encoded fimbriae expression is regulated by a GGDEF and EAL domain-dependent modulation of the intracellular level of cyclic diguanylate | Q28493110 | ||
Biofilm formation in Pseudomonas aeruginosa: fimbrial cup gene clusters are controlled by the transcriptional regulator MvaT | Q28493209 | ||
Bacterial chromatin organization by H-NS protein unravelled using dual DNA manipulation | Q33263766 | ||
A divalent switch drives H-NS/DNA-binding conformations between stiffening and bridging modes. | Q33631136 | ||
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Repression of phase-variable cup gene expression by H-NS-like proteins in Pseudomonas aeruginosa | Q33911477 | ||
Lethal overproduction of the Escherichia coli nucleoid protein H-NS: ultramicroscopic and molecular autopsy | Q34233352 | ||
Advancing the quorum in Pseudomonas aeruginosa: MvaT and the regulation of N-acylhomoserine lactone production and virulence gene expression | Q34310534 | ||
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H-NS in Gram-negative bacteria: a family of multifaceted proteins | Q35579488 | ||
Probing the structure, function, and interactions of the Escherichia coli H-NS and StpA proteins by using dominant negative derivatives. | Q35610131 | ||
Differential protease-mediated turnover of H-NS and StpA revealed by a mutation altering protein stability and stationary-phase survival of Escherichia coli | Q35631720 | ||
Structure of the histone-like protein H-NS and its role in regulation and genome superstructure | Q35737936 | ||
A bacterial two-hybrid system based on transcription activation | Q35738269 | ||
H-NS: a universal regulator for a dynamic genome | Q35752413 | ||
New insights into transcriptional regulation by H-NS | Q36672112 | ||
Silencing of xenogeneic DNA by H-NS-facilitation of lateral gene transfer in bacteria by a defense system that recognizes foreign DNA. | Q36851768 | ||
H-NS family members function coordinately in an opportunistic pathogen | Q36999879 | ||
Anti-silencing: overcoming H-NS-mediated repression of transcription in Gram-negative enteric bacteria | Q37256199 | ||
DNA bridging and antibridging: a role for bacterial nucleoid-associated proteins in regulating the expression of laterally acquired genes | Q37389789 | ||
Sequence-specific recognition of DNA by the C-terminal domain of nucleoid-associated protein H-NS. | Q37431786 | ||
Bacterial nucleoid-associated proteins, nucleoid structure and gene expression | Q37688895 | ||
Escherichia coli histone-like protein H-NS preferentially binds to horizontally acquired DNA in association with RNA polymerase | Q38308470 | ||
Association of nucleoid proteins with coding and non-coding segments of the Escherichia coli genome. | Q38309827 | ||
Selective silencing of foreign DNA with low GC content by the H-NS protein in Salmonella | Q38312504 | ||
Nature and mechanism of the in vivo oligomerization of nucleoid protein H-NS. | Q38323021 | ||
H-NS and StpA proteins stimulate expression of the maltose regulon in Escherichia coli | Q38331040 | ||
The oligomeric structure of nucleoid protein H-NS is necessary for recognition of intrinsically curved DNA and for DNA bending. | Q38347186 | ||
DNA bridging: a property shared among H-NS-like proteins | Q41844405 | ||
Protein-mediated molecular bridging: a key mechanism in biopolymer organization | Q42575832 | ||
High-affinity DNA binding sites for H-NS provide a molecular basis for selective silencing within proteobacterial genomes | Q42734633 | ||
The H-NS-like protein StpA represses the RpoS (sigma 38) regulon during exponential growth of Salmonella Typhimurium. | Q43258215 | ||
Identification of genes regulated by the MvaT-like paralogues TurA and TurB of Pseudomonas putida KT2440. | Q43269651 | ||
Two novel MvaT-like global regulators control exoproduct formation and biocontrol activity in root-associated Pseudomonas fluorescens CHA0. | Q48094583 | ||
Investigation of the self-association and hetero-association interactions of H-NS and StpA from Enterobacteria | Q50054725 | ||
H-NS promotes looped domain formation in the bacterial chromosome | Q50067068 | ||
H-NS, the genome sentinel | Q50074672 | ||
Oligomerization of the chromatin-structuring protein H-NS. | Q50120784 | ||
Novel physiological modulation of the Pu promoter of TOL plasmid: negative regulatory role of the TurA protein of Pseudomonas putida in the response to suboptimal growth temperatures. | Q54513931 | ||
The degree of oligomerization of the H-NS nucleoid structuring protein is related to specific binding to DNA. | Q54539177 | ||
Activation of prokaryotic transcription through arbitrary protein-protein contacts. | Q54567789 | ||
Systematic mutational analysis revealing the functional domain organization of Escherichia coli nucleoid protein H-NS. | Q54578667 | ||
MvaT proteins in Pseudomonas spp.: a novel class of H-NS-like proteins | Q57176930 | ||
H-NS cooperative binding to high-affinity sites in a regulatory element results in transcriptional silencing | Q63430392 | ||
Proteins from the prokaryotic nucleoid: primary and quaternary structure of the 15-kD Escherichia coli DNA binding protein H-NS | Q70397571 | ||
Clarification of the dimerization domain and its functional significance for the Escherichia coli nucleoid protein H-NS | Q73940872 | ||
P433 | issue | 4 | |
P407 | language of work or name | English | Q1860 |
P921 | main subject | Pseudomonas aeruginosa | Q31856 |
protein multimerization | Q60439578 | ||
P304 | page(s) | 916-931 | |
P577 | publication date | 2010-09-24 | |
P1433 | published in | Molecular Microbiology | Q6895967 |
P1476 | title | High-order oligomerization is required for the function of the H-NS family member MvaT in Pseudomonas aeruginosa | |
P478 | volume | 78 |
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Q40900099 | Antibacterial phage ORFans of Pseudomonas aeruginosa phage LUZ24 reveal a novel MvaT inhibiting protein. |
Q36197554 | Basis for the essentiality of H-NS family members in Pseudomonas aeruginosa |
Q42369014 | CbtA toxin of Escherichia coli inhibits cell division and cell elongation via direct and independent interactions with FtsZ and MreB |
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Q37253117 | Dimerization of the Pseudomonas aeruginosa translocator chaperone PcrH is required for stability, not function |
Q34430675 | Evolutionary expansion of a regulatory network by counter-silencing |
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Q91723623 | H-NS Family Members MvaT and MvaU Regulate the Pseudomonas aeruginosa Type III Secretion System |
Q30462610 | Higher order oligomerization is required for H-NS family member MvaT to form gene-silencing nucleoprotein filament |
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Q59328846 | Identifying the region responsible for Brucella abortus MucR higher-order oligomer formation and examining its role in gene regulation |
Q37970384 | Inside the complex regulation of Pseudomonas aeruginosa chaperone usher systems. |
Q34774593 | Insights into the specificity of lysine acetyltransferases |
Q35070419 | Integrated circuits: how transcriptional silencing and counter-silencing facilitate bacterial evolution |
Q31121749 | Intraclonal genome diversity of Pseudomonas aeruginosa clones CHA and TB |
Q36878497 | Mechanism of DNA organization by Mycobacterium tuberculosis protein Lsr2. |
Q52597474 | MucR binds multiple target sites in the promoter of its own gene and is a heat-stable protein: Is MucR a H-NS-like protein? |
Q36497535 | MvaT Family Proteins Encoded on IncP-7 Plasmid pCAR1 and the Host Chromosome Regulate the Host Transcriptome Cooperatively but Differently |
Q35227911 | Oligomerization mechanisms of an H-NS family protein, Pmr, encoded on the plasmid pCAR1 provide a molecular basis for functions of H-NS family members |
Q51060085 | Protein oligomers studied by solid-state NMR--the case of the full-length nucleoid-associated protein histone-like nucleoid structuring protein. |
Q91936152 | RocA Binds CsrS To Modulate CsrRS-Mediated Gene Regulation in Group A Streptococcus |
Q34457585 | Single-molecule study on histone-like nucleoid-structuring protein (H-NS) paralogue in Pseudomonas aeruginosa: MvaU bears DNA organization mode similarities to MvaT |
Q96229909 | Structural Insight of the Full-Length Ros Protein: A Prototype of the Prokaryotic Zinc-Finger Family |
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Q27670439 | Structural basis for recognition of AT-rich DNA by unrelated xenogeneic silencing proteins |
Q27728178 | Structural similarities and differences in H-NS family proteins revealed by the N-terminal structure of TurB in Pseudomonas putida KT2440 |
Q38285825 | The 5.5 protein of phage T7 inhibits H-NS through interactions with the central oligomerization domain |
Q41356876 | The AraC Negative Regulator family modulates the activity of histone-like proteins in pathogenic bacteria. |
Q28492896 | The CgrA and CgrC proteins form a complex that positively regulates cupA fimbrial gene expression in Pseudomonas aeruginosa |
Q91650136 | The architects of bacterial DNA bridges: a structurally and functionally conserved family of proteins |
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