• 1
    Kleanthous C, Deka R, Davis K, Kelly SM, Cooper A, Harding SE, Price NC, Hawkins AR, Coggins JR ( 1992) A comparison of the enzymological and biophysical properties of two distinct classes of dehydroquinase enzymes. Biochem J 282: 687695.
  • 2
    Gourley DG, Shrive AK, Polikarpov I, Krell T, Coggins JR, Hawkins AR, Isaacs NW, Sawyer L ( 1999) The two types of 3-dehydroquinase have distinct structures but catalyze the same overall reaction. Nat Struct Biol 6: 521525.
  • 3
    Choi KH, Lai V, Foster CE, Morris AJ, Tolan DR, Allen KN ( 2006) New superfamily members identified for Schiff-base enzymes based on verification of catalytically essential residues. Biochemistry 45: 85468555.
  • 4
    Butler JR, Alworth WL, Nugent MJ ( 1974) Mechanism of dehydroquinase catalyzed dehydration. I. Formation of a Schiff-base intermediate. J Am Chem Soc 96: 16171618.
  • 5
    Hanson KR, Rose IA ( 1963) Absolute stereochemical course of citric acid biosynthesis. Proc Natl Acad Sci USA 50: 981988.
  • 6
    Harris JM, Gonzalez-Bello C, Kleanthous C, Hawkins AR, Coggins JR, Abell C ( 1996) Evidence from kinetic isotope studies for an enolate intermediate in the mechanism of type II dehydroquinases. Biochem J 319: 333336.
  • 7
    Parker EJ, Bello CG, Coggins JR, Hawkins AR, Abell C ( 2000) Mechanistic studies on type I and type II dehydroquinase with (6R)- and (6S)-6-fluoro-3-dehydroquinic acids. Bioorgan Med Chem Lett 10: 231234.
  • 8
    Leech AP, Boetzel R, McDonald C, Shrive AK, Moore GR, Coggins JR, Sawyer L, Kleanthous C ( 1998) Re-evaluating the role of His-143 in the mechanism of type I dehydroquinase from Escherichia coli using two-dimensional 1H,13C NMR. J Biol Chem 273: 96029607.
  • 9
    Leech AP, James R, Coggins JR, Kleanthous C ( 1995) Mutagenesis of active site residues in type I dehydroquinase from Escherichia coli. Stalled catalysis in a histidine to alanine mutant. J Biol Chem 270: 2582725836.
  • 10
    Yao Y, Li ZS ( 2012) The reaction mechanism for dehydration process catalyzed by type I dehydroquinate dehydratase from gram-negative Salmonella enterica. Chem Phys Lett 519/520: 100104.
  • 11
    Pan Q, Yao Y, Li ZS ( 2012) New insights into the mechanism of the Schiff base formation catalyzed by type I dehydroquinate dehydratase from S. enterica. Theoret Chem Acc 131.
  • 12
    Yao Y, Li ZS ( 2012) New insights into the mechanism of the Schiff base hydrolysis catalyzed by type I dehydroquinate dehydratase from S. enterica: a theoretical study. Organ Biomol Chem 10: 70377044.
  • 13
    Light SH, Minasov G, Shuvalova L, Duban ME, Caffrey M, Anderson WF, Lavie A ( 2011) Insights into the mechanism of type I dehydroquinate dehydratases from structures of reaction intermediates. J Biol Chem 286: 35313539.
  • 14
    Light SH, Minasov G, Shuvalova L, Peterson SN, Caffrey M, Anderson WF, Lavie A ( 2011) A conserved surface loop in type I dehydroquinate dehydratases positions an active site arginine and functions in substrate binding. Biochemistry 50: 23572363.
  • 15
    Cersini A, Salvia AM, Bernardini ML ( 1998) Intracellular multiplication and virulence of Shigella flexneri auxotrophic mutants. Infect Immun 66: 549557.
  • 16
    Miller IA, Chatfield S, Dougan G, Desilva L, Joysey HS, Hormaeche C ( 1989) Bacteriophage-P22 as a vehicle for transducing cosmid gene banks between smooth strains of Salmonella typhimurium—use in identifying a role for arod in attenuating virulent Salmonella strains. Mol Gen Genet 215: 312316.
  • 17
    Chaudhuri S, Lambert JM, Mccoll LA, Coggins JR ( 1986) Purification and characterization of 3-dehydroquinase from Escherichia-coli. Biochem J 239: 699704.
  • 18
    Noble M, Sinha Y, Kolupaev A, Demin O, Earnshaw D, Tobin F, West J, Martin JD, Qiu C, Liu WS, DeWolf WEJr, Tew D, Goryanin II ( 2006) The kinetic model of the shikimate pathway as a tool to optimize enzyme assays for high-throughput screening. Biotech Bioengin 95: 560573.
  • 19
    Otwinowski Z, Minor W ( 1997) Processing of X-ray diffraction data collected in oscillation mode. Macromol Cryst 276: 307326.
  • 20
    McCoy AJ, Grosse-Kunstleve RW, Storoni LC, Read RJ ( 2005) Likelihood-enhanced fast translation functions. Acta Cryst D61: 458464.
  • 21
    Murshudov GN, Vagin AA, Lebedev A, Wilson KS, Dodson EJ ( 1999) Efficient anisotropic refinement of macromolecular structures using FFT. Acta Cryst D55: 247255.
  • 22
    Emsley P, Cowtan K ( 2004) Coot: model-building tools for molecular graphics. Acta Cryst D60: 21262132.