Transcriptional induction kinetics from the promoters of the catabolic pathways of TOL plasmid pWW0 of Pseudomonas putida for metabolism of aromatics.
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Increasing signal specificity of the TOL network of Pseudomonas putida mt-2 by rewiring the connectivity of the master regulator XylRIn vivo UV laser footprinting of the Pseudomonas putidasigma 54Pu promoter reveals that integration host factor couples transcriptional activity to growth phase.Construction of chimeric catechol 2,3-dioxygenase exhibiting improved activity against the suicide inhibitor 4-methylcatechol.The bacterial enhancer-dependent sigma(54) (sigma(N)) transcription factorThe PalkBFGHJKL promoter is under carbon catabolite repression control in Pseudomonas oleovorans but not in Escherichia coli alk+ recombinants.The alkane hydroxylase gene of Burkholderia cepacia RR10 is under catabolite repression control.The black cat/white cat principle of signal integration in bacterial promoters.Catabolite repression of the toluene degradation pathway in Pseudomonas putida harboring pWW0 under various conditions of nutrient limitation in chemostat culture.Involvement of IHF protein in expression of the Ps promoter of the Pseudomonas putida TOL plasmid.Expression, inducer spectrum, domain structure, and function of MopR, the regulator of phenol degradation in Acinetobacter calcoaceticus NCIB8250.Growth phase-dependent transcription of the sigma(54)-dependent Po promoter controlling the Pseudomonas-derived (methyl)phenol dmp operon of pVI150Carbon catabolite repression in Pseudomonas : optimizing metabolic versatility and interactions with the environment.Exploitation of prokaryotic expression systems based on the salicylate-dependent control circuit encompassing nahR/P(sal)::xylS2 for biotechnological applications.High-resolution analysis of the m-xylene/toluene biodegradation subtranscriptome of Pseudomonas putida mt-2.The Crc global regulator inhibits the Pseudomonas putida pWW0 toluene/xylene assimilation pathway by repressing the translation of regulatory and structural genes.Rational design of a bacterial transcriptional cascade for amplifying gene expression capacity.Role of the ptsN gene product in catabolite repression of the Pseudomonas putida TOL toluene degradation pathway in chemostat cultures.Effects of iron limitation on the degradation of toluene by Pseudomonas strains carrying the tol (pWWO) plasmid.Genetic evidence of distinct physiological regulation mechanisms in the sigma(54) Pu promoter of Pseudomonas putida.PhcS represses gratuitous expression of phenol-metabolizing enzymes in Comamonas testosteroni R5.Role of ptsO in carbon-mediated inhibition of the Pu promoter belonging to the pWW0 Pseudomonas putida plasmid.Role of the crc gene in catabolic repression of the Pseudomonas putida GPo1 alkane degradation pathway.Modulation of the function of the signal receptor domain of XylR, a member of a family of prokaryotic enhancer-like positive regulatorsActivation and repression of transcription at the double tandem divergent promoters for the xylR and xylS genes of the TOL plasmid of Pseudomonas putida.Carbon-source-dependent expression of the PalkB promoter from the Pseudomonas oleovorans alkane degradation pathway.In vivo and in vitro effects of (p)ppGpp on the sigma(54) promoter Pu of the TOL plasmid of Pseudomonas putida.Cross-regulation between a novel two-component signal transduction system for catabolism of toluene in Pseudomonas mendocina and the TodST system from Pseudomonas putida.Integration of global regulation of two aromatic-responsive sigma(54)-dependent systems: a common phenotype by different mechanisms.Transcriptional organization of the Pseudomonas putida tol-oprL genes.Expression of the TOL plasmid xylS gene in Pseudomonas putida occurs from a alpha 70-dependent promoter or from alpha 70- and alpha 54-dependent tandem promoters according to the compound used for growth.The TACAN4TGCA motif upstream from the -35 region in the sigma70-sigmaS-dependent Pm promoter of the TOL plasmid is the minimum DNA segment required for transcription stimulation by XylS regulators.Transcriptional control of the multiple catabolic pathways encoded on the TOL plasmid pWW53 of Pseudomonas putida MT53TouR-mediated effector-independent growth phase-dependent activation of the sigma54 Ptou promoter of Pseudomonas stutzeri OX1.Genetic evidence that catabolites of the Entner-Doudoroff pathway signal C source repression of the sigma54 Pu promoter of Pseudomonas putida.Cellular XylS levels are a function of transcription of xylS from two independent promoters and the differential efficiency of translation of the two mRNAs.m-xylene-responsive Pu-PnifH hybrid sigma54 promoters that overcome physiological control in Pseudomonas putida KT2442.The Activity of the Pseudomonas aeruginosa Virulence Regulator σ(VreI) Is Modulated by the Anti-σ Factor VreR and the Transcription Factor PhoB.Integration of signals through Crc and PtsN in catabolite repression of Pseudomonas putida TOL plasmid pWW0.The IIANtr (PtsN) protein of Pseudomonas putida mediates the C source inhibition of the sigma54-dependent Pu promoter of the TOL plasmid.Simultaneous catabolite repression between glucose and toluene metabolism in Pseudomonas putida is channeled through different signaling pathways.
P2860
Q28484355-4BA5E3D6-B38D-47F1-A041-2704FA9FA1ACQ30761453-01E43738-7C4C-4213-BB0F-45B8A08EF5A0Q33199044-B9B177DC-32A2-44AA-AFA3-81CA3C04B606Q33968426-F93A3F1F-FAE5-4274-B8DB-8491102DBA9FQ33991407-E47E4FED-14F3-4FE1-82B8-D966407BCFD3Q33996500-D54BB841-ABA4-4B7E-9677-D643F1E1007AQ34166888-F21BC0B5-79D3-44B2-968B-3C5B7CF65A8AQ35188793-38D129DA-7C6D-4240-9A85-BD8A0EF3E256Q35587473-48A924E2-12C5-4A94-9BE2-E19BF0946493Q35620123-6E9FDFED-7C14-458F-AE2A-79D7CE4A41EEQ36574440-D55A4FD5-EF5A-437A-9F9B-C9A9664ADDCAQ37735901-06F99E3A-851B-4120-9F1A-4519D82C8F0BQ37843663-E539C329-F801-4D74-8119-1E02E15D1D16Q38296480-4A4D531E-0B21-48F9-ABEE-749402583080Q38343496-1FC29550-7FB5-4617-B45A-F9AA9D994C1CQ38668511-CD8DE023-3C29-4149-92BA-4266756239BDQ39108964-8282B2C7-1C58-4063-BD26-09CD362DADEBQ39491923-B2E2BCF0-40CF-46B5-B38F-BC8FAE185B6AQ39499005-F063EA20-134B-450B-834C-73FFFD25BABAQ39504157-3E6A7B6F-7877-4925-9FF0-F2FCFE0CD5EFQ39504603-D696402F-F7D8-4CAF-8DDD-AFEFF94C477DQ39529668-57B62C7F-5392-4786-AAA8-FF26EA8E639AQ39564438-1E35AB28-B433-4862-A96D-88984255BCD0Q39566245-86DB00BE-0878-4117-87AE-1A955DB18A8DQ39568021-B0E6E5A4-2F75-4FCD-9EA1-ACE0717773A9Q39587573-F249A97C-3E5C-4E14-A570-36E05A385152Q39680909-30F6F26A-1416-4B16-87AF-25B568047203Q39694558-74EEEA3C-E8DD-4D81-A181-B5694F8D0243Q39702681-21192C0E-10D3-4EEC-8BCC-F36FF0A42965Q39841051-1B6A0C4B-DDFD-49B0-A99A-3487E9C856B9Q39843390-327FF73F-0A60-40A8-8BC0-4E7FCFC55C9DQ39846763-D507AF34-9592-483F-83C5-D2658746FC39Q40211222-4CFDB816-A17E-41FB-A18B-5700C233285AQ40535825-35CC3580-92FF-408E-BB54-5D5969DC268FQ40634181-0613DBA7-90CF-478D-9C2A-DB35BD3A37ADQ40731615-57B14FD5-07BF-4A85-9712-CD77DC41C31DQ42385125-05AC99D1-929F-4804-9808-F52666681D91Q42482351-B2F34597-ED1C-44E7-B6DC-EE5F00E44D1DQ42602104-E9947313-4AEA-43D8-B101-11D137CDC37AQ42637200-4E324D59-0FFA-4A39-A4D0-149989655009
P2860
Transcriptional induction kinetics from the promoters of the catabolic pathways of TOL plasmid pWW0 of Pseudomonas putida for metabolism of aromatics.
description
1994 nî lūn-bûn
@nan
1994年の論文
@ja
1994年論文
@yue
1994年論文
@zh-hant
1994年論文
@zh-hk
1994年論文
@zh-mo
1994年論文
@zh-tw
1994年论文
@wuu
1994年论文
@zh
1994年论文
@zh-cn
name
Transcriptional induction kine ...... a for metabolism of aromatics.
@en
Transcriptional induction kine ...... a for metabolism of aromatics.
@nl
type
label
Transcriptional induction kine ...... a for metabolism of aromatics.
@en
Transcriptional induction kine ...... a for metabolism of aromatics.
@nl
prefLabel
Transcriptional induction kine ...... a for metabolism of aromatics.
@en
Transcriptional induction kine ...... a for metabolism of aromatics.
@nl
P2093
P2860
P1476
Transcriptional induction kine ...... a for metabolism of aromatics.
@en
P2093
P2860
P304
P356
10.1128/JB.176.9.2517-2524.1994
P577
1994-05-01T00:00:00Z