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Scandinavian Journal of Clinical and Laboratory Investigation Volume 52, 1992 - Issue sup210
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Original

Chymosin: A short review on foetal and neonatal gastric proteases

B. Foltmann Institute of Biochemical Genetics, University of Copenhagen, Denmark
Pages 65-79 | Published online: 29 Mar 2011

References

  • Foltmann B. A review on Prorennin and rennin. C R Trav Lab Carlsberg 1966; 35: 143–231
  • Foltmann B. Prochymosin and chy-mosin (Prorennin and rennin). Meth Enzymol 1970; 19: 421–36
  • Foltmann B. The Biochemistry of prorennin (prochymosin) and rennin (chy-mosin). Milk Proteins, HA McKenzie. Acad Press, 1971; vol II.: 217–54
  • Foltmann B. Gastric proteinases Structure, function, evolution and mechanism of action. Essays in Biochemistry 1981; 17: 52–84
  • Foltmann B. General and molecular aspects of rennets. Cheese: Chemistry, Physics and Microbiology, P. Fox. Elsevier Appl Sci. 1987; vol.1: 33–61
  • Foltmann B, Axelsen NH. Gastric proteinases and their zymogens. Phylogenetic and developmental aspects. FEBS Proceedings 1980; 60: 271–80
  • Krause W J, Yamada J, Cutts J H, Andrén A. An immunohistochemical survey of gastric proteinase (pepsinogen and prochymosin) - containing cells in the stomach of developing opossum. J Anat 1987; 154: 259–63
  • Sielecki A R, Fujinaga M, Read R J, James M NG. Refined structure of porcine pepsinogen at 1.8 Å resolution. J Mol Biol 1991; 219: 671–92
  • Foltmann B. Structure and function of proparts in zymogens for aspartic proteinases. Biol Chem Hoppe-Seyler 1988; 369: 311–4
  • Blundell T L, Jenkins J A, Sewell B T, et al. X-ray analyses of aspartic proteinases. The three-dimensional structure at 2.1 Å resolution of endothiapepsin. J Mol Biol 1990; 211: 919–41
  • Ong E B, Perlmann GE. The amino-terminal sequence of porcine pepsinogen. J Biol Chem 1968; 243: 6104–9
  • Pedersen V B, Foltmann B. The amino acid sequences of a hitherto unobserved segment from porcine pepsinogen preceding the N-terminus of pepsin. FEBS Lett 1973; 35: 255–6
  • Tang J, Sepulveda P, Marciniszyn J, et al. Amino-acid sequence of porcine pepsin. Proc Nat Acad Sci USA 1973; 70: 3437–9
  • Moravek L, Kostka V. Complete amino acid sequence of hog pepsin. FEBS Lett 1974; 43: 207–11
  • Foltmann B, Pedersen V B, Jacobsen H, Kauffman D, Wybrandt G. The complete amino acid sequence of prochymosin. Proc Natl Acad Sci USA 1977; 74: 2321–4
  • Baudys M, Erdene T G, Kostka V, Pavlik M, Foltmann B. Comparison between prochymosin and pepsinogen from lamb and calf. Comp Biochem Physiol 1988; 89B: 385–91
  • Pungercar J, Strukelj B, Gubensek F, Turk V, Kregar I. Complete primary structure of lamb preprochymosin deduced from cDNA. Nucleic Acids Research 1990; 18: 4602
  • Foltmann B. Production of gastric proteases during the ontogeny of pigs. Some properties of pig chymosin. Rep Natl Inst Anim Sci Denmark 1985; 580: 120–3
  • Jensen T, Axelsen N H, Foltmann B. Isolation and partial characterization of prochymosin and chymosin from cat. Biochim Biophys Acta 1982; 705: 249–56
  • Kageyama T, Tanabe K, Koiwai O. Structure and development of rabbit pepsinogens. J Biol Chem 1990; 265: 17031–8
  • Hayashi K, Agata K, Mochii M, Yasugi S, Eguchi G, Mizuno T. Molecular cloning and the nucleotide sequence of cDNA for embryonic chicken pepsinogen: Phylogenetic relationship with prochymosin. J Biochem (Tokyo) 1988; 103: 290–6
  • Örd T, Kolmer M, Villems R, Saarma M. Structure of the human genomic region homologous to the bovine pro-chymosin-encoding gene. Gene 1990; 91: 241–46
  • McPhie P. A turbidimetric milk-clotting assay for pepsin. Anal Biochem 1976; 73: 258–61
  • Alais C, Dutheil H, Bosc J. Caractère spécifique des présures extraites des caillettes d'agneaux et de veaux et des casénes de brebis et de vache. XVI Int. Dairy Congr. (Copenhagen) 1962; 643–54
  • Foltmann B, Jensen A L, Lønblad P, Smidt E, Axelsen NH. A developmental analysis of the production of chymosin and pepsin in pigs. Comp Biochem Physiol 1981; 68: 9–13
  • Harris T JR, Lowe P A Lyons, et al. Molecular cloning and nucleotide sequence of cDNA coding for calf preprochymosin. Nucleic Acids Research 1982; 10: 2177–87
  • Moir D, J-I Mao, Schumm J W, Vovis G F, Alford B L, Taunton-Rigby A. Molecular cloning and characterization of double-stranded cDNA coding for bovine chymosin. Gene 1982; 19: 127–38
  • Hidaka M, Sasaki K, Uozumi T, Beppu T. Cloning and structural analysis of the calf prochymosin gene. Gene 1986; 43: 197–203
  • Foltmann B. On the limited proteolysis of A-rennin and the proteolytic activity of chromatographically purified fractions of rennin. C R Trav Lab Carlsberg 1964; 34: 319–25
  • Gilliland G L, Winborn E L, Nachman J, Wlodawer A. The three-dimensional structure of recombinant bovine chymosin at 2.3 Å resolution. Structure, Function and Genetics, Proteins 1990; 8: 82–101
  • Newman M, Safro M, Frazao C, et al. X-ray analysis of aspartic proteinases IV. Structure and refinement at 2.2 Å resolution of bovine chymosin. J Mol Biol 1991; 221: 1295–309
  • Safro MG, Andreeva NS. On the role of peripheral interactions in the specificity of chymosin. Biochem Int 1990; 20: 555–61
  • Danley DE, Geoghegan KF. Structure and mechanism of formation of recombinant-derived chymosin C. J Biol Chem 1988; 263: 9785–9
  • Donelly W J, Carroll D P, O'Callaghan D M, Walls D. Genetic polymorphism of bovine chymosin. J Dairy Res 1986; 53: 657–64
  • Laemmli UK. Cleavage of structural proteins during the assembly of the head of bacteriophage T4. Nature London 1970; 227: 680–5
  • Matsudaira P. Sequence from picomole quantities of proteins electroblotted onto polyvinylidene difluoride membranes. J Biol Chem 1987; 262: 10035–8
  • Foltmann B, Drøhse H B, Nielsen P K, James M NG. Separation of porcine pepsinogen A and progastricsin. Sequencing of the first 73 amino acid residues in progastricsin. Biochim Biophys Acta 1992, in press
  • Foltmann B, Szecsi P B, Tarasova NI. Detection of proteases by clotting of casein after gel electrophoresis. Anal Biochem 1985; 146: 353–60
  • Sangild P T, Foltmann B, Cranwell PD. Development of gastric proteases in fetal pigs and pigs from birth to six days of age. J Developmental Physiol 1991; 16: 229–38
  • Klemm P, Poulsen F, Harboe M K, Foltmann B. N-terminal amino acid sequences of pepsinogens from dogfish and seal and of bovine pepsinogen B. Acta Chem Scand 1976; 30: 979–84
  • Shamsuzzaman K, Haard NF. Purification and characterization of a chymo-sinlike protease from the gastric mucosa of harp seal (Pago-philus groenlandicus). Can J Biochem Cell Biol 1984; 62: 699–708
  • Furihata C, Kawachi T, Sugimura T. Premature induction of pepsinogen in developing rat gastric mucosa by hormones. Biochem Biophys Research Comm 1972; 47: 705–11
  • Muto N, Tani S. Purification and charaterization of rat pepsinogens whose contents increase with developmental progress. J Biochem (Tokyo) 1978; 85: 1143–9
  • Kumegawa M, Takuma T, Hosoda S, Kunii S, Kanda Y. Precocious induction of pepsinogen in the stomach of suckling mice by hormones. Biochim Biophys Acta 1978; 543: 243–50
  • Yasugi S, Matsumoto F, Mizuno T. Evolution des pepsinogènes au cours du developpement, chez la souris. C R Soc Biol 1987; 181: 450–3
  • Kotts C, Jenness R. Rennin and pepsin in stomachs of rats (Rattus norvegicus). J Dairy Sci 1976; 59: 1398–400
  • Henschel MJ. Comparison of the development of proteolytic activity in the stomach of the young rabbit and guinea-pig. Br J Nutr 1973; 30: 285–96
  • Yasugi S, Mizuno T, Esumi H. Changes in molecular species of pepsinogens in the development of the chick. Experientia 1979; 35: 814–5
  • Yasugi S, Mizuno T. Purifucation and characterization of embryonic chicken pepsinogen, a unique pepsinogen with large molecular weight. J Biochem (Tokyo) 1981; 89: 311–5
  • Kageyama T, Tanabe K, Koiwai O. Development-dependent expression of isozymogens of monkey pepsinogens and structural differences between them. Eur J Biochem 1991; 202: 205–15
  • Henschel M J, Newport M J, Parmar V. Gastric proteases in the human infant Biol Neonate. 1987; 52: 268–72
  • Carlsson L CT, Weström B R, Karlsson BW. Intestinal absorption of proteins by neonatal piglet. Biol Neonate 1980; 38: 309–20
  • Guilloteau P, Corring T, Toullec R, Robelin J. Enzyme potentialities of the abomasum and pancreas of the calf. Reprod Nutr Develop 1984; 24: 315–25
  • Drøhse H B, Foltmann B. Specificity of milk-clotting enzymes towards bovine-casein. Biochim Biophys Acta 1989; 995: 221–4
  • Mercier J C, Chobert J M, Addeo F. Comparative study of the amino acid sequences of the caseinomacro peptides from seven species. FEBS Lett 1976; 72: 208–14
  • Brignon G, Chtourou A, Ribadeau-Dumas B. Preparation and amino acid sequence of human-casein. FEBS Lett 1985; 188: 48–54
  • Thompson M D, Dave J R, Nakhasi HL. Molecular cloning of mouse mammary gland κ-casein. Comparison with rat κ-casein. DNA 1985; 4: 263–71
  • Visser S., Van Rooijen P J, Schatten-Kert C, Kerling K ET. Peptide substrates for chymosin (rennin). Kinetic studies with bovin κ casein-(103–108) hexa peptide analogues. Biochim Biophys Acta 1977; 481: 171–6

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