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References

  • 1
    Ostrow JD. APF/CBP, an anionic polypeptide in bile and gallstones that may regulate calcium salt and cholesterol precipitation from bile. Hepatology 1992; 16: 14931496.
  • 2
    Ostrow JD. The roles of calcium salts and matrix in gallstone formation. In: Meyer zum BüschenfeldeKH, PaumgartnerG, SchölmerichJ, eds. Perspectives in Gastroenterology. Munich: Urban and Schwarzenberg, 1995: 143152.
  • 3
    Domingo N, Lafont H, Halpern Z, Peled Y, Grosclaude J, Gilat T. Anionic polypeptide fraction in bile of patients with and without gallstones. Hepatology 1993; 17: 778780.
  • 4
    Martigne M, Domingo N, Lafont H, Nalbone G, Hauton JC. Purification of the human anionic polypeptide fraction of the bile lipoprotein complex by zonal ultracentrifugation. Lipids 1985; 20: 884889.
  • 5
    Nalbone G, Lafont H, Vigne JL, Domingo N, Lairon D, Chabert C, Lechéne P, et al. The apoprotein fraction of the bile lipoprotein complex: isolation, partial characterization and phospholipid-binding properties. Biochemie 1985; 61: 10291041.
  • 6
    Martigne M, Domingo N, Chanussot F, Nalbone G, Lafont H, Hauton J. Effects of bile anionic polypeptide fraction on the fate of cholesterol carried by liposomes in the rat. Proc Soc Exp Biol Med 1988; 187: 229234.
  • 7
    Afdhal NH, Ostrow JD, Koehler RK, Niu N, Groen AK, Veis A, Nunes DP, et al. Interaction of bovine gallbladder mucin and calcium-binding protein: effects on calcium phopshate precipitation. Gastroenterology 1995; 109: 16611672.
  • 8
    Shimizu S, Sabsay B, Veis A, Ostrow JD, Rege RV, Dawes LG. Isolation of an acidic protein from cholesterol gallstones, which inhibits the precipitation of calcium carbonate in vitro. J Clin Invest 1989; 84: 19901996.
  • 9
    Okido M, Shimizu S, Ostrow JD, Nakayama F. Isolation of a calcium regulatory protein from black pigment gallstones: similarity with a protein from cholesterol gallstones. Hepatology 1992; 15: 10791085.
  • 10
    Martigne M, Domingo N, De la Porte PL, Lafont H, Hauton J. Identification and localization of the apoprotein fraction of the bile lipoprotein complex in human gallstones. Scand J Gastroenterol 1988; 23: 731737.
  • 11
    Lechéne de la Porte P, Domingo N, van Wijland M, Groen AK, Ostrow JD, Lafont H. Distinct immuno-localization of mucin and other biliary proteins in human cholesterol gallstones. J Hepatol 1996; 25: 339348.
  • 12
    Kestell MF, Sekijima J, Lee SP, Park HZ, Long M, Kaler EW. A calcium-binding protein in bile and gallstones. Hepatology 1992; 16: 13151321.
  • 13
    Domingo N, Grosclaude J, Bekaert ED, Mège D, Chapman MJ, Shimizu S, Ayrault-Jarrier M, et al. Epitope mapping of the human biliary amphi-pathic anionic polypeptide (APF): similarity with a calcium-binding protein (CBP) isolated from gallstones and bile and immunologic cross-reactivity with apolipoprotein A-I. J Lipid Res 1992; 33: 14191430.
  • 14
    Schägger H, von Jagow G. Tricine-sodium dodecyl sulfate-poylacrylamide gel electrophoresis for the separation of proteins in the range from 1 to 100 kDa. Anal Biochem 1987; 166: 368379.
  • 15
    Laemmli UK. Cleavage of structural proteins during the assembly of the head of bacteriophage T4. Nature 1970; 227: 680685.
  • 16
    Suzuki H, Terada T. Removal of dodecyl sulfate from protein solution. Anal Biochem 1988; 172: 259263.
  • 17
    DeMoreno MR, Smith JF, Smith RV. Silver staining of proteins in poly-acrylamide gels: increased sensitivity through combined Coomassie blue-silver stain procedure. Anal Biochem 1985; 151: 466470.
  • 18
    Chicz RM, Regnier FE. High-performance liquid chromatography: effective protein purification by various chromatographic modes. Methods Enzymol 1990; 182: 392421.
  • 19
    Trotman BW, Rajagopalan C, Bernstein SE. Monoconjugated bilirubin is a major component of hemolys is-induced gallstones in mice. Hepatology 1988; 8: 919924.
  • 20
    Blanckaert N, Heirwegh KPM. Analysis and preparation of bilirubins and biliverdins. In: OstrowJD, ed. Bile Pigments and Jaundice: Molecular, Metabolic and Medical Aspects. New York: Dekker, 1986: 3179.
  • 21
    Penke A, Ferenczi R, Kovács K A new acid hydrolysis method for determining tryptophan in peptides and proteins. Anal Biochem 1974; 60: 4550.
  • 22
    Gurantz D, Laker MF, Hofmann AF. Enzymatic measurement of choline-containing phospholipids in bile. J Lipid Res 1981; 22: 373376.
  • 23
    Mashige F, Kazuhiro I, Osuga T. A simple and sensitive assay of total serum bile acids. Clin Chim Acta 1976; 70: 7986.
  • 24
    Kates M. Isolation, analysis and identification of lipids. In: WorkTS, WorkE, eds. Techniques in Lipidology (Laboratory Techniques in Biochemistry and Molecular Biology, vol. 3, part 2). Amsterdam: Elsevier-North Holland, 1972: 269610.
  • 25
    Duck CG, Hong C, Baker CJ. Rapid quantitative analysis of polar and non-polar lipids in a single sample using three-way thin-layer chromatography. Lipids 1983; 18: 387389.
  • 26
    Rendell M, Kao G, Mecherikunnel P, Petersen B, Duhaney R, Nierenberg J, Rasbold K, et al. Aminophenylboronic acid affinity chromatography and thiobarbituric acid colorimetry compared for measuring glycated albumin. Clin Chem 1985; 31: 229234.
  • 27
    Mukerjee P. Use of ionic dyes in the analysis of ionic surfactants and other ionic organic compounds. Anal Chem 1956; 28: 870873.
  • 28
    Thorin B, Gache G, Dubois T, Grataroli R, Domingo N, Russo-Marie F, Lafont H. Annexin VI is secreted in human bile. Biochem Biophys Res Commun 1995; 209: 10391045.
  • 29
    Ostrow JD, Mukerjee P, Tiribelli C. Structure and binding of unconjugated bilirubin: relevance for physiological and pathophysiological function. J Lipid Res 1994; 35: 17151737.
  • 30
    Fevery J, Blanckaert N, Leroy P, Michiels R, Heirwegh KPM. Analysis of bilirubins in biological fluids by extraction and thin-layer chromatography of the intact tetrapyrroles: application to bile of patients with Gilbert's syndrome, hemolysis, or cholelithiasis. Hepatology 1983; 3: 177183.
  • 31
    Gautam A, Seligson H, Gordon ER, Seligson D, Boyer JL. Irreversible binding of conjugated bilirubin to albumin in cholestatic rats. J Clin Invest 1984; 73: 873877.
  • 32
    Yoshida H, Inagaki T, Hirano M, Sugimoto T. Analyses of azopigments obtained from the delta fraction of bilirubin from mammalian plasma (mammalian biliprotein). Biochem J 1987; 248: 179184.
  • 33
    Ohkubo H, Ostrow JD, Carr SH, Rege RV. Polymer networks in pigment and cholesterol gallstones assessed by equilibrium swelling and infrared spectroscopy. Gastroenterology 1984; 87: 805814.
  • 34
    Lucassen J. The diazo reaction of bilirubin and bilirubin diglucuronide [PhD Thesis, University of Utrecht]. Utrecht: Kemink en Zoon, 1961.
  • 35
    Moore EW. The role of calcium in the pathogenesis of gallstones: Ca2+ electrode studies of model bile salt solutions and other biologic systems. Hepatology 1984; 4: 228S243S.
  • 36
    Shimizu S, Izumi Y, Yamazaki M, Shimizu K, Yamaguchi T, Nakajima H. Anti-bilirubin monoclonal antibody. I. Preparation and properties of monoclonal antibodies to covalently-coupled bilirubin-albumin. Biochim Biophys Acta 1998; 967: 255260.
  • 37
    Veis A, Sabsay B. Bone and tooth formation: insights into biomineraliza-tion strategies. In: WestbroekP, DejonEW, eds. Biomineralization and Biological Metal Accumulation: Biological and Geological. Dordrecht, the Netherlands: D. Riedel, 1982: 273284.
  • 38
    DeCaro A, Bonicel JJ, Rouimi P, DeCaro JC, Sarles H, Rovery M. Complete amino acid sequence of an immunoreactive form of human pancreatic stone protein. Eur J Biochem 1987; 168: 201207.
  • 39
    Montalto G, Lusher M, DeCaro A, Multigner L, Sarles H, Delaage M. Monoclonal antibody analysis of human pancreatic juice components related to the pancreatic calculi protein. C R Acad Sci (Ser C) 1985; 300: 199202.