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161.
Quorum sensing is a mechanism of cell‐to‐cell communication that allows bacteria to coordinately regulate gene expression in response to changes in cell‐population density. At the core of the Vibrio cholerae quorum‐sensing signal transduction pathway reside four homologous small RNAs (sRNAs), named the quorum regulatory RNAs 1–4 (Qrr1–4). The four Qrr sRNAs are functionally redundant. That is, expression of any one of them is sufficient for wild‐type quorum‐sensing behaviour. Here, we show that the combined action of two feedback loops, one involving the sRNA‐activator LuxO and one involving the sRNA‐target HapR, promotes gene dosage compensation between the four qrr genes. Gene dosage compensation adjusts the total Qrr1–4 sRNA pool and provides the molecular mechanism underlying sRNA redundancy. The dosage compensation mechanism is exquisitely sensitive to small perturbations in Qrr levels. Precisely maintained Qrr levels are required to direct the proper timing and correct patterns of expression of quorum‐sensing‐regulated target genes. 相似文献
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Intercellular signalling in Vibrio harveyi: sequence and function of genes regulating expression of luminescence 总被引:10,自引:3,他引:7
Bonnie L. Bassler Miriam Wright Richard E. Showalter Michael R. Silverman 《Molecular microbiology》1993,9(4):773-786
Density-dependent expression of luminescence in Vibrio harveyi is regulated by the concentration of an extracellular signal molecule (autoinducer) in the culture medium. A recombinant clone that restored function to one class of spontaneous dim mutants was found to encode functions necessary for the synthesis of, and response to, a signal molecule. Sequence analysis of the region encoding these functions revealed three open reading frames, two (luxL and luxM) that are required for production of an autoinducer substance and a third (luxN) that is required for response to this signal substance. The LuxL and LuxM proteins are not similar in amino acid sequence to other proteins in the database, but the LuxN protein contains regions of sequence resembling both the histidine protein kinase and the response regulator domains of the family of two–component, signal transduction proteins. The phenotypes of mutants with luxL, luxM and luxN defects indicated that an additional signal–response system controlling density-dependent expression of luminescence remains to be identified. 相似文献
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Julia C. van Kessel Steven T. Rutherford Jian-Ping Cong Sofia Quinodoz James Healy Bonnie L. Bassler 《Journal of bacteriology》2015,197(1):73-80
Bacteria use a chemical communication process called quorum sensing to monitor cell density and to alter behavior in response to fluctuations in population numbers. Previous studies with Vibrio harveyi have shown that LuxR, the master quorum-sensing regulator, activates and represses >600 genes. These include six genes that encode homologs of the Escherichia coli Bet and ProU systems for synthesis and transport, respectively, of glycine betaine, an osmoprotectant used during osmotic stress. Here we show that LuxR activates expression of the glycine betaine operon betIBA-proXWV, which enhances growth recovery under osmotic stress conditions. BetI, an autorepressor of the V. harveyi
betIBA-proXWV operon, activates the expression of genes encoding regulatory small RNAs that control quorum-sensing transitions. Connecting quorum-sensing and glycine betaine pathways presumably enables V. harveyi to tune its execution of collective behaviors to its tolerance to stress. 相似文献
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Wilfried Bieger Alec Martin-Achard Marcus Bassler Prof. Dr. Horst F. Kern 《Cell and tissue research》1976,165(4):435-453
Summary Prolonged secretory stimulation of the exocrine pancreas in the rat by in vivo infusion of caerulein leads to a rapid degranulation of the organ associated with a progressive reduction in the size of the zymogen granules. During the first six to twelve hours of stimulation Golgi complexes are enlarged and several structural forms of multivesicular bodies are found indicating a lysosomal degradation of membrane material in the Golgi area. Maximum secretory activity is obtained after a 24 hour infusion, Golgi complexes appear fragmented, the secretory granules measure only 1/3 to 1/4 their normal size. Thereafter, in spite of a continuous stimulation, the exocrine cells regranulate progressively up to 72 hours of infusion. This regranulation is associated with massive enlargement of the Golgi complexes.The phasic adaptation of the exocrine pancreas to prolonged stimulation, concluded from the structural studies, was confirmed by biochemical analysis of protein synthesis, intracellular transport and enzyme discharge. Pancreatic protein synthesis as measured by the incorporation of tritiated leucine remained unchanged during the first six hours of stimulation, then increased reaching a maximum of 230% of the control levels after 24 hours of infusion. After 48 and 72 hours the rate of protein synthesis decreased again to normal values. Most pronounced changes were observed in the kinetics of intracellular transport of newly synthesized proteins. Using pulse-chase incubation of prestimulated pancreatic lobules, the rate of transition of secretory proteins through the cell increased consistently with prolonged infusion periods reaching maximal acceleration after 24 hours. Newly synthesized proteins were transported and segregated up to ten times faster than in controls. After a maximum at 24 hours transport returned to normal rates after 72 hours of infusion. Enzyme secretion, measured for amylase, followed a similar pattern of stimulation.The results suggest a phasic adaptation of the exocrine pancreatic cell to prolonged stimulation. They demonstrate for the first time the possibility of an acceleration of intracellular transport by means of secretagogues.Dedicated to Professor W. Bargmann on the occasion of his 70th birthday.Supported by a grant from Deutsche Forschungsgemeinschaft (Ke 113/8). A preliminary communication was presented at the 9th annual meeting of the European Society for Clinical Investigation, Rotterdam (April 24–26, 1975). The expert technical assistance of Miss Helga Hollerbach and Miss Hiltraud Hosser is gratefully acknowledged. 相似文献
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