The Crc and Hfq proteins ofPseudomonas putidacooperate in catabolite repression and formation of ribonucleic acid complexes with specific target motifs
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Regulation of bacterial virulence by Csr (Rsm) systemsRNA-binding proteins involved in post-transcriptional regulation in bacteriaThe Interaction between Plants and Bacteria in the Remediation of Petroleum Hydrocarbons: An Environmental PerspectiveCompeting endogenous RNAs: a target-centric view of small RNA regulation in bacteria.Transcription factor levels enable metabolic diversification of single cells of environmental bacteria.Carbon Catabolite Repression and Impranil Polyurethane Degradation in Pseudomonas protegens Strain Pf-5From the phosphoenolpyruvate phosphotransferase system to selfish metabolism: a story retraced in Pseudomonas putida.Transcriptional modulation of transport and metabolism associated gene clusters leading to utilization of benzoate in preference to glucose in Pseudomonas putida CSV86.The analysis of the antibiotic resistome offers new opportunities for therapeutic intervention.Small Alarmone Synthetases as novel bacterial RNA-binding proteins.Role of the Transporter-Like Sensor Kinase CbrA in Histidine Uptake and Signal Transduction.The Crc/CrcZ-CrcY global regulatory system helps the integration of gluconeogenic and glycolytic metabolism in Pseudomonas putida.The Crc protein participates in down-regulation of the Lon gene to promote rhamnolipid production and rhl quorum sensing in Pseudomonas aeruginosa.Glucose uptake in Azotobacter vinelandii occurs through a GluP transporter that is under the control of the CbrA/CbrB and Hfq-Crc systems.Effect of Crc and Hfq proteins on the transcription, processing, and stability of the Pseudomonas putida CrcZ sRNA.Transcriptomic Analyses Elucidate Adaptive Differences of Closely Related Strains of Pseudomonas aeruginosa in FuelInfluence of the Crc regulator on the hierarchical use of carbon sources from a complete medium in Pseudomonas.Characterization of the CrbS/R Two-Component System in Pseudomonas fluorescens Reveals a New Set of Genes under Its Control and a DNA Motif Required for CrbR-Mediated Transcriptional Activation.Interplay between the catabolite repression control protein Crc, Hfq and RNA in Hfq-dependent translational regulation in Pseudomonas aeruginosa.Eliminating a global regulator of carbon catabolite repression enhances the conversion of aromatic lignin monomers to muconate in Pseudomonas putida KT2440.Multiple Hfq-Crc target sites are required to impose catabolite repression on (methyl)phenol metabolism in Pseudomonas putida CF600.Unravelling the complexity and redundancy of carbon catabolic repression in Pseudomonas fluorescens SBW25.The RNA chaperone Hfq enables the environmental stress tolerance super-phenotype of Pseudomonas putida.Pervasive Targeting of Nascent Transcripts by Hfq.A Pseudomonas putida cbrB transposon insertion mutant displays a biofilm hyperproducing phenotype that is resistant to dispersal.The development of a new parameter for tracking post-transcriptional regulation allows the detailed map of the Pseudomonas aeruginosa Crc regulon
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P2860
The Crc and Hfq proteins ofPseudomonas putidacooperate in catabolite repression and formation of ribonucleic acid complexes with specific target motifs
description
im Juni 2014 veröffentlichter wissenschaftlicher Artikel
@de
scientific article published on 02 June 2014
@en
wetenschappelijk artikel
@nl
наукова стаття, опублікована в червні 2014
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name
The Crc and Hfq proteins ofPse ...... es with specific target motifs
@en
The Crc and Hfq proteins ofPse ...... es with specific target motifs
@nl
type
label
The Crc and Hfq proteins ofPse ...... es with specific target motifs
@en
The Crc and Hfq proteins ofPse ...... es with specific target motifs
@nl
prefLabel
The Crc and Hfq proteins ofPse ...... es with specific target motifs
@en
The Crc and Hfq proteins ofPse ...... es with specific target motifs
@nl
P2860
P50
P356
P1476
The Crc and Hfq proteins of Ps ...... es with specific target motifs
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P2093
Anjana Madhushani
Luis Yuste
P2860
P304
P356
10.1111/1462-2920.12499
P577
2014-06-02T00:00:00Z