scholarly article | Q13442814 |
P50 | author | Eduardo A Groisman | Q88608574 |
Jeongjoon Choi | Q88870097 | ||
P2860 | cites work | The Salmonella selC locus contains a pathogenicity island mediating intramacrophage survival | Q24532712 |
H-NS forms a superhelical protein scaffold for DNA condensation | Q27664196 | ||
Studies on transformation of Escherichia coli with plasmids | Q27860598 | ||
The mgtB Mg2+ transport locus of Salmonella typhimurium encodes a P-type ATPase | Q28267247 | ||
H-NS mediates the silencing of laterally acquired genes in bacteria | Q28490022 | ||
Genes encoding putative effector proteins of the type III secretion system of Salmonella pathogenicity island 2 are required for bacterial virulence and proliferation in macrophages | Q28563572 | ||
TLR signaling is required for Salmonella typhimurium virulence | Q30499020 | ||
Direct measurement of oxidative and nitrosative stress dynamics in Salmonella inside macrophages | Q30616597 | ||
Growth phase-dependent variation in protein composition of the Escherichia coli nucleoid | Q33638020 | ||
A two-component regulatory system (phoP phoQ) controls Salmonella typhimurium virulence. | Q34286908 | ||
Protease La, the lon gene product, cleaves specific fluorogenic peptides in an ATP-dependent reaction | Q44248293 | ||
A truncated H-NS-like protein from enteropathogenic Escherichia coli acts as an H-NS antagonist | Q45231403 | ||
Transcriptional control of the antimicrobial peptide resistance ugtL gene by the Salmonella PhoP and SlyA regulatory proteins | Q47316351 | ||
The curli regulator CsgD mediates stationary phase counter-silencing of csgBA in Salmonella Typhimurium | Q48127046 | ||
Recognition of antimicrobial peptides by a bacterial sensor kinase. | Q50088065 | ||
Interference of transcription across H-NS binding sites and repression by H-NS. | Q50100649 | ||
Mg2+ as an extracellular signal: environmental regulation of Salmonella virulence | Q50140541 | ||
Expression and mutational analysis of the nucleoid-associated protein H-NS of Salmonella typhimurium | Q50174655 | ||
A Salmonella locus that controls resistance to microbicidal proteins from phagocytic cells | Q50195971 | ||
Defining the crucial domain and amino acid residues in bacterial Lon protease for DNA binding and processing of DNA-interacting substrates. | Q50959628 | ||
Synthesis of the Escherichia coli K-12 nucleoid-associated DNA-binding protein H-NS is subjected to growth-phase control and autoregulation. | Q52516580 | ||
Autoregulatory expression of the Escherichia coli hns gene encoding a nucleoid protein: H-NS functions as a repressor of its own transcription. | Q54664095 | ||
StpA and Hha stimulate pausing by RNA polymerase by promoting DNA-DNA bridging of H-NS filaments. | Q55356316 | ||
A redox switch shapes the Lon protease exit pore to facultatively regulate proteolysis | Q57893547 | ||
The Evolution of SlyA/RovA Transcription Factors from Repressors to Countersilencers in | Q64063967 | ||
Global regulatory function of the low oxygen-induced transcriptional regulator LoiA in Salmonella Typhimurium revealed by RNA sequencing | Q90753733 | ||
Visualization of vacuolar acidification-induced transcription of genes of pathogens inside macrophages | Q34298435 | ||
Phosphorylation of human TFAM in mitochondria impairs DNA binding and promotes degradation by the AAA+ Lon protease | Q34314791 | ||
Salmonella enterica response regulator SsrB relieves H-NS silencing by displacing H-NS bound in polymerization mode and directly activates transcription | Q34503124 | ||
The ATP-dependent ClpXP and Lon proteases regulate expression of the Yersinia pestis type III secretion system via regulated proteolysis of YmoA, a small histone-like protein | Q34552737 | ||
Lon, a stress-induced ATP-dependent protease, is critically important for systemic Salmonella enterica serovar typhimurium infection of mice. | Q34581241 | ||
Identification and purification of the Lon + (capR + ) gene product, a DNA-binding protein | Q35339834 | ||
ATP hydrolysis-dependent protease activity of the lon (capR) protein of Escherichia coli K-12. | Q35453027 | ||
Acidification of phagosomes containing Salmonella typhimurium in murine macrophages. | Q35506318 | ||
H-NS in Gram-negative bacteria: a family of multifaceted proteins | Q35579488 | ||
Mutants of Salmonella typhimurium that cannot survive within the macrophage are avirulent | Q35617117 | ||
Differential protease-mediated turnover of H-NS and StpA revealed by a mutation altering protein stability and stationary-phase survival of Escherichia coli | Q35631720 | ||
RNA-seq Brings New Insights to the Intra-Macrophage Transcriptome of Salmonella Typhimurium | Q35839664 | ||
The promoter architectural landscape of the Salmonella PhoP regulon | Q35910863 | ||
The Impact of 18 Ancestral and Horizontally-Acquired Regulatory Proteins upon the Transcriptome and sRNA Landscape of Salmonella enterica serovar Typhimurium. | Q36114219 | ||
Functional mechanics of the ATP-dependent Lon protease- lessons from endogenous protein and synthetic peptide substrates | Q36743161 | ||
Anti-silencing: overcoming H-NS-mediated repression of transcription in Gram-negative enteric bacteria | Q37256199 | ||
Salmonella typhimurium activates virulence gene transcription within acidified macrophage phagosomes | Q37265751 | ||
Horizontal gene transfer of the secretome drives the evolution of bacterial cooperation and virulence. | Q37413184 | ||
Bacterial nucleoid-associated proteins, nucleoid structure and gene expression | Q37688895 | ||
Selective silencing of foreign DNA with low GC content by the H-NS protein in Salmonella | Q38312504 | ||
Horizontal gene transfer: building the web of life. | Q38549036 | ||
Activation of master virulence regulator PhoP in acidic pH requires the Salmonella-specific protein UgtL. | Q38603130 | ||
Horizontal Gene Transfer and the History of Life | Q38708464 | ||
Xenogeneic Silencing and Its Impact on Bacterial Genomes | Q38881567 | ||
Structure and function of bacterial H-NS protein. | Q39027961 | ||
Overcoming H-NS-mediated transcriptional silencing of horizontally acquired genes by the PhoP and SlyA proteins in Salmonella enterica | Q39323797 | ||
H-NS is a part of a thermally controlled mechanism for bacterial gene regulation. | Q39497729 | ||
PhoP-responsive expression of the Salmonella enterica serovar typhimurium slyA gene | Q39756994 | ||
Increased bending rigidity of single DNA molecules by H-NS, a temperature and osmolarity sensor | Q40233805 | ||
The protease Lon and the RNA-binding protein Hfq reduce silencing of the Escherichia coli bgl operon by H-NS. | Q40763627 | ||
The Escherichia coli nucleoid protein H-NS functions directly as a transcriptional repressor. | Q40872265 | ||
Acidic pH sensing in the bacterial cytoplasm is required for Salmonella virulence | Q41042251 | ||
Proteases and their targets in Escherichia coli | Q41291324 | ||
A global modulatory role for the Yersinia enterocolitica H-NS protein. | Q41443942 | ||
Multiple histidines in the periplasmic domain of the Salmonella enterica sensor kinase SsrA enhance signaling in response to extracellular acidification | Q41639484 | ||
The role of Lon-mediated proteolysis in the dynamics of mitochondrial nucleic acid-protein complexes. | Q41894411 | ||
Acid pH activation of the PmrA/PmrB two-component regulatory system of Salmonella enterica | Q42119116 | ||
Activated by different signals, the PhoP/PhoQ two-component system differentially regulates metal uptake | Q42688710 | ||
The PhoP/PhoQ system controls the intramacrophage type three secretion system of Salmonella enterica | Q44016971 | ||
P4510 | describes a project that uses | ImageJ | Q1659584 |
P433 | issue | 14 | |
P304 | page(s) | 8074-8082 | |
P577 | publication date | 2020-03-24 | |
P1433 | published in | Proceedings of the National Academy of Sciences of the United States of America | Q1146531 |
P1476 | title | Salmonella expresses foreign genes during infection by degrading their silencer | |
P478 | volume | 117 |
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