Team:University of Sheffield /References

From 2008.igem.org

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*9.) Suzuki et al, ('''2002'''), Regulatory Circuitry of thr CsrA/CrsB and BarA/UvrY systems of E.coli
*9.) Suzuki et al, ('''2002'''), Regulatory Circuitry of thr CsrA/CrsB and BarA/UvrY systems of E.coli
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*10.) Sahu, Acharya et al, ('''2003'''), The bacterial adaptive response gene, barA, encodes a novel conserved histidine kinase regulatory switch for adaptation and modulation of metabolism in E.coli
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*10.) Sahu, Acharya et al, ('''2003'''), The bacterial adaptive response gene, barA, encodes a novel conserved istidine kinase regulatory switch for adaptation and modulation of metabolism in E.coli
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*11) Sabnis, A. N. et al., ('''1995'''), Pleiotropic Regulation of Central Carbohydrate Metabolism
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*11) Sabnis, A. N. et al., ('''1995'''), Pleiotropic Regulation of Central Carbohydrate Metabolism in Escherichia coli via the Gene csrA
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in Escherichia coli via the Gene csrA
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-
*12) Ytoh, J. et al., ('''2006'''), Roles of pgaABCD Genes in Synthesis, Modification, and Export of the
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*12) Ytoh, J. et al., ('''2006'''), Roles of pgaABCD Genes in Synthesis, Modification, and Export of the Escherichia coli Biofilm Adhesin Poly-beta-1,6-N-Acetyl-D-Glucosamine
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Escherichia coli Biofilm Adhesin Poly-beta-1,6-N-Acetyl-D-Glucosamine
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-
*13) Yang., H. et al. , ('''1995'''), Coordinate Genetic Regulation of Glycogen Catabolism and
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*13) Yang., H. et al. , ('''1995'''), Coordinate Genetic Regulation of Glycogen Catabolism and Biosynthesis in scherichia coli via the CsrA Gene Product
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Biosynthesis in Escherichia coli via the CsrA Gene Product
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*14) Romeo, T. ('''1998'''), Global Regulation by the small RNA-binding protein CsrA and non-coding RNA molecule CsrB
*14) Romeo, T. ('''1998'''), Global Regulation by the small RNA-binding protein CsrA and non-coding RNA molecule CsrB
-
*15) Wang, X. et al. ('''2005'''), CsrA post-transcriptionally represses pgaABCD,responsible for synthesis of a biofilm polysaccharide adhesin of ''Escherichia coli''
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*15) Wang, X. et al. ('''2005'''), CsrA post-transcriptionally represses pgaABCD,responsible for synthesis of a iofilm polysaccharide adhesin of ''Escherichia coli''
*16) Romeo, T. et al. ('''1995'''), Identification and Molecular Characterization of ''csrA'', a Pleiotropic Gene from Escherichia coli That Affects Glycogen Biosynthesis, Gluconeogenesis, Cell Size, and Surface Properties
*16) Romeo, T. et al. ('''1995'''), Identification and Molecular Characterization of ''csrA'', a Pleiotropic Gene from Escherichia coli That Affects Glycogen Biosynthesis, Gluconeogenesis, Cell Size, and Surface Properties
 +
 +
*17) Pernestig, A. K. et al. ('''2002'''), The Escherichia coli BarA-UvrY Two-Component System Is Needed for Efficient Switching between Glycolytic and Gluconeogenic Carbon Sources
 +
 +
*18) Pernestig, A. K. et al. ('''2000'''), Identification of UvrY as the Cognate Response Regulator for the BarA Sensor Kinase in '' Escherichia coli''
 +
 +
*19) Mondragon, V. et al. ('''2006'''), pH-Dependent Activation of the BarA-UvrY Two-Component System in ''Escherichia coli''
 +
 +
*20) Rogov, V. V. et al. ('''2006'''), A New Structural Domain in the ''Escherichia coli'' RcsC Hybrid Sensor Kinase onnects Histidine Kinase and Phosphoreceiver Domains
 +
 +
*21) Tomenius, H. et al. ( '''2006'''), The ''Escherichia coli'' BarA-UvrY two-component system is a virulence determinant in the urinary tract
 +
 +
*22) Zhu, Y. and Inouye M. ('''2004'''), The HAMP Linker in Histidine Kinase Dimeric Receptors Is Critical for Symmetric Transmembrane Signal Transduction

Revision as of 18:15, 28 October 2008

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References

  • 1.) Andersen, J.B et al. (1998) New Unstable Variants of Green Fluorescent Protein for Studies of Transient Gene Expression in Bacteria. Applied and Environmental Microbiology
  • 2.) Cerca, N. and Jefferson, K. K. (2008) Effect of Growth Conditions On Poly-N-acetylglucosamine expression and Biofilm Formation in Escherichia coli
  • 3.) Goller, C. et al. ( 2006) The Cation-Responsive Protein NhaR of Excherichia coli Activates pgaABCD Transcription, Required for Production of the Biofilm Adhesin Poly-Beta-1, 6 - N - D - Glucosamine. Journal of Bacteriology
  • 4.)Datsenko & Wanner, (2000), One-step inactivation of chromosomal genes in Escherichia coli K-12 using PCR products
  • 5.) Higgins, Bassler et al, (2007), The major Vibrio cholerae autoinducer and its role in virulence factor production
  • 6.) Hammer & Bassler, (2007), Regulatory small RNAs circumvent the conventional quorum sensing pathway in pandemic Vibrio cholerae
  • 7.) Jun Zhu, Melissa B. Miller, et al, (2001), Quorum-sensing regulators control virulence gene expression in Vibrio cholerae
  • 8.)Tomenius, Pernestig et al, (2005), Genetic and functional characterization of the E.coli BarA-UvrY Two-componant system
  • 9.) Suzuki et al, (2002), Regulatory Circuitry of thr CsrA/CrsB and BarA/UvrY systems of E.coli
  • 10.) Sahu, Acharya et al, (2003), The bacterial adaptive response gene, barA, encodes a novel conserved istidine kinase regulatory switch for adaptation and modulation of metabolism in E.coli
  • 11) Sabnis, A. N. et al., (1995), Pleiotropic Regulation of Central Carbohydrate Metabolism in Escherichia coli via the Gene csrA
  • 12) Ytoh, J. et al., (2006), Roles of pgaABCD Genes in Synthesis, Modification, and Export of the Escherichia coli Biofilm Adhesin Poly-beta-1,6-N-Acetyl-D-Glucosamine
  • 13) Yang., H. et al. , (1995), Coordinate Genetic Regulation of Glycogen Catabolism and Biosynthesis in scherichia coli via the CsrA Gene Product
  • 14) Romeo, T. (1998), Global Regulation by the small RNA-binding protein CsrA and non-coding RNA molecule CsrB
  • 15) Wang, X. et al. (2005), CsrA post-transcriptionally represses pgaABCD,responsible for synthesis of a iofilm polysaccharide adhesin of Escherichia coli
  • 16) Romeo, T. et al. (1995), Identification and Molecular Characterization of csrA, a Pleiotropic Gene from Escherichia coli That Affects Glycogen Biosynthesis, Gluconeogenesis, Cell Size, and Surface Properties
  • 17) Pernestig, A. K. et al. (2002), The Escherichia coli BarA-UvrY Two-Component System Is Needed for Efficient Switching between Glycolytic and Gluconeogenic Carbon Sources
  • 18) Pernestig, A. K. et al. (2000), Identification of UvrY as the Cognate Response Regulator for the BarA Sensor Kinase in Escherichia coli
  • 19) Mondragon, V. et al. (2006), pH-Dependent Activation of the BarA-UvrY Two-Component System in Escherichia coli
  • 20) Rogov, V. V. et al. (2006), A New Structural Domain in the Escherichia coli RcsC Hybrid Sensor Kinase onnects Histidine Kinase and Phosphoreceiver Domains
  • 21) Tomenius, H. et al. ( 2006), The Escherichia coli BarA-UvrY two-component system is a virulence determinant in the urinary tract
  • 22) Zhu, Y. and Inouye M. (2004), The HAMP Linker in Histidine Kinase Dimeric Receptors Is Critical for Symmetric Transmembrane Signal Transduction