Characterization and Role of tbuX in Utilization of Toluene by Ralstonia pickettii PKO1
暂无分享,去创建一个
R. H. Olsen | J. Kukor | H. Kahng | A. Byrne
[1] V. de Lorenzo,et al. Active recruitment of σ54‐RNA polymerase to the Pu promoter of Pseudomonas putida: role of IHF and αCTD , 1998, The EMBO journal.
[2] E. Díaz,et al. Genetic and Functional Analysis of the Styrene Catabolic Cluster of Pseudomonas sp. Strain Y2 , 1998, Journal of bacteriology.
[3] R. H. Olsen,et al. Evidence for the evolution of a single component phenol/cresol hydroxylase from a multicomponent toluene monooxygenase , 1997, Journal of Industrial Microbiology and Biotechnology.
[4] R. H. Olsen,et al. Multiple pathways for toluene degradation in Burkholderia sp. strain JS150 , 1997, Applied and environmental microbiology.
[5] R. H. Olsen,et al. Cross-regulation of toluene monooxygenases by the transcriptional activators TbmR and TbuT , 1997, Applied and environmental microbiology.
[6] R. H. Olsen,et al. Kinetics of toluene degradation by toluene-oxidizing bacteria as a function of oxygen concentration, and the effect of nitrate , 1997 .
[7] R. Eaton. p-Cymene catabolic pathway in Pseudomonas putida F1: cloning and characterization of DNA encoding conversion of p-cymene to p-cumate , 1997, Journal of bacteriology.
[8] K. Timmis,et al. Transcriptional control of the Pseudomonas TOL plasmid catabolic operons is achieved through an interplay of host factors and plasmid-encoded regulators. , 1997, Annual review of microbiology.
[9] V. de Lorenzo,et al. Clues and consequences of DNA bending in transcription. , 1997, Annual review of microbiology.
[10] T. Omori,et al. Analysis of cumene (isopropylbenzene) degradation genes from Pseudomonas fluorescens IP01 , 1996, Applied and environmental microbiology.
[11] R. H. Olsen,et al. Cascade regulation of the toluene-3-monooxygenase operon (tbuA1UBVA2C) of Burkholderia pickettii PKO1: role of the tbuA1 promoter (PtbuA1) in the expression of its cognate activator, TbuT , 1996, Journal of bacteriology.
[12] P. Ayoubi,et al. Constitutive expression of the cloned phenol hydroxylase gene(s) from Alcaligenes eutrophus JMP134 and concomitant trichloroethylene oxidation , 1996, Applied and environmental microbiology.
[13] V. Shingler,et al. Growth phase-dependent transcription of the sigma(54)-dependent Po promoter controlling the Pseudomonas-derived (methyl)phenol dmp operon of pVI150 , 1996, Journal of bacteriology.
[14] R. H. Olsen,et al. Catechol 2,3-dioxygenases functional in oxygen-limited (hypoxic) environments , 1996, Applied and environmental microbiology.
[15] V. Shingler. Signal sensing by σ54‐dependent regulators: derepression as a control mechanism , 1996, Molecular microbiology.
[16] R. H. Olsen,et al. Nucleotide sequence analysis of genes encoding a toluene/benzene-2-monooxygenase from Pseudomonas sp. strain JS150 , 1995, Applied and environmental microbiology.
[17] V. de Lorenzo,et al. The sigma 54-dependent promoter Ps of the TOL plasmid of Pseudomonas putida requires HU for transcriptional activation in vivo by XylR , 1995, Journal of bacteriology.
[18] R. H. Olsen,et al. Physiological attributes of microbial BTEX degradation in oxygen-limited environments. , 1995, Environmental health perspectives.
[19] R. Gerger,et al. TOM, a new aromatic degradative plasmid from Burkholderia (Pseudomonas) cepacia G4 , 1995, Applied and environmental microbiology.
[20] R. H. Olsen,et al. Sequence analysis of the gene cluster encoding toluene-3-monooxygenase from Pseudomonas pickettii PKO1. , 1995, Gene.
[21] Consejo Superior de Investigaciones. The s 54 -Dependent PromoterPsof the TOL Plasmid of Pseudomonas putidaRequires HU for Transcriptional Activation In Vivo by XylR , 1995 .
[22] A. Nakazawa,et al. Analysis of DNA bend structure of promoter regulatory regions of xylene-metabolizing genes on the Pseudomonas TOL plasmid. , 1994, Journal of Biochemistry (Tokyo).
[23] V. de Lorenzo,et al. Co-regulation by bent DNA. Functional substitutions of the integration host factor site at sigma 54-dependent promoter Pu of the upper-TOL operon by intrinsically curved sequences. , 1994, The Journal of biological chemistry.
[24] R. H. Olsen,et al. A novel toluene-3-monooxygenase pathway cloned from Pseudomonas pickettii PKO1 , 1994, Journal of bacteriology.
[25] R. H. Olsen,et al. Enumeration and characterization of BTEX-degrading bacteria from hypoxic environments functional with mixed electron acceptors. , 1994, Research in microbiology.
[26] M. Merrick,et al. In a class of its own — the RNA polymerase sigma factor σ;54 (σN) , 1993 .
[27] P. Black,et al. Bacterial long-chain fatty acid transport. Identification of amino acid residues within the outer membrane protein FadL required for activity. , 1993, The Journal of biological chemistry.
[28] S. Kustu,et al. Prokaryotic enhancer-binding proteins reflect eukaryote-like modularity: the puzzle of nitrogen regulatory protein C , 1993, Journal of bacteriology.
[29] V. Shingler,et al. Cloning and nucleotide sequence of the gene encoding the positive regulator (DmpR) of the phenol catabolic pathway encoded by pVI150 and identification of DmpR as a member of the NtrC family of transcriptional activators , 1993, Journal of bacteriology.
[30] M. Shields,et al. Selection of a Pseudomonas cepacia strain constitutive for the degradation of trichloroethylene , 1992, Applied and environmental microbiology.
[31] R. H. Olsen,et al. Complete nucleotide sequence of tbuD, the gene encoding phenol/cresol hydroxylase from Pseudomonas pickettii PKO1, and functional analysis of the encoded enzyme , 1992, Journal of bacteriology.
[32] R. B. Winter,et al. Cloning and characterization of a Pseudomonas mendocina KR1 gene cluster encoding toluene-4-monooxygenase , 1991, Journal of bacteriology.
[33] J. Ramos,et al. Activation of the Pseudomonas TOL plasmid upper pathway operon. Identification of binding sites for the positive regulator XylR and for integration host factor protein. , 1991, The Journal of biological chemistry.
[34] R. H. Olsen,et al. Genetic organization and regulation of a meta cleavage pathway for catechols produced from catabolism of toluene, benzene, phenol, and cresols by Pseudomonas pickettii PKO1 , 1991, Journal of bacteriology.
[35] K. Timmis,et al. An upstream XylR‐ and IHF‐induced nucleoprotein complex regulates the sigma 54‐dependent Pu promoter of TOL plasmid. , 1991, The EMBO journal.
[36] P. Black. Primary sequence of the Escherichia coli fadL gene encoding an outer membrane protein required for long-chain fatty acid transport , 1991, Journal of bacteriology.
[37] S. Kustu,et al. Prokaryotic transcriptional enhancers and enhancer-binding proteins. , 1991, Trends in biochemical sciences.
[38] A. Nakazawa,et al. Upstream regulatory sequence for transcriptional activator XylR in the first operon of xylene metabolism on the TOL plasmid. , 1990, Journal of molecular biology.
[39] R. H. Olsen,et al. Molecular cloning, characterization, and regulation of a Pseudomonas pickettii PKO1 gene encoding phenol hydroxylase and expression of the gene in Pseudomonas aeruginosa PAO1c , 1990, Journal of bacteriology.
[40] Gilbert S. Omenn,et al. Biotechnology and Biodegradation , 1990 .
[41] B. Iglewski,et al. Transformation of Pseudomonas aeruginosa by electroporation. , 1989, Nucleic acids research.
[42] P. Chapman,et al. Novel Pathway of Toluene Catabolism in the Trichloroethylene-Degrading Bacterium G4 , 1989, Applied and environmental microbiology.
[43] R. H. Olsen,et al. Initial catabolism of aromatic biogenic amines by Pseudomonas aeruginosa PAO: pathway description, mapping of mutations, and cloning of essential genes , 1987, Journal of bacteriology.
[44] C. Harley,et al. Analysis of E. coli promoter sequences. , 1987, Nucleic acids research.
[45] M. Inouye. Bacterial outer membranes as model systems , 1987 .
[46] D. Glover. DNA cloning : a practical approach , 1985 .
[47] D. Oliver. Protein secretion in Escherichia coli. , 1985, Annual review of microbiology.
[48] J. Sambrook,et al. Molecular Cloning: A Laboratory Manual , 2001 .
[49] R. H. Olsen,et al. Development of broad-host-range vectors and gene banks: self-cloning of the Pseudomonas aeruginosa PAO chromosome , 1982, Journal of bacteriology.
[50] D. Helinski,et al. Replication of an origin-containing derivative of plasmid RK2 dependent on a plasmid function provided in trans. , 1979, Proceedings of the National Academy of Sciences of the United States of America.
[51] B. Holloway,et al. Chromosomal genetics of Pseudomonas. , 1979, Microbiological reviews.
[52] F. Sanger,et al. DNA sequencing with chain-terminating inhibitors. , 1977, Proceedings of the National Academy of Sciences of the United States of America.
[53] R. H. Olsen,et al. Evolution and utility of a Pseudomonas aeruginosa drug resistance factor , 1976, Journal of bacteriology.
[54] Jeffrey H. Miller. Experiments in molecular genetics , 1972 .
[55] U. K. Laemmli,et al. Cleavage of Structural Proteins during the Assembly of the Head of Bacteriophage T4 , 1970, Nature.
[56] G. Cohen-bazire,et al. Kinetic studies of pigment synthesis by non-sulfur purple bacteria. , 1957, Journal of cellular and comparative physiology.
[57] H. Vogel,et al. Acetylornithinase of Escherichia coli: partial purification and some properties. , 1956, The Journal of biological chemistry.