14 Papain and Other Plant Sulfhydryl Proteolytic Enzymes

[1]  K. Brocklehurst,et al.  A novel reactivity of papain and a convenient active site titration in the presence of other thiols , 1970, FEBS letters.

[2]  A. Berger,et al.  The purification of papain by affinity chromatography. , 1970, European journal of biochemistry.

[3]  M. McDowall Anionic proteinase from Actinidia chinensis. Preparation and properties of the crystalline enzyme. , 1970, European journal of biochemistry.

[4]  L. Sluyterman,et al.  The fluorescence of papain. , 1970, Biochimica et biophysica acta.

[5]  L. Sluyterman,et al.  An agarose mercurial column for the separation of mercaptopapain and nonmercaptopapain. , 1970, Biochimica et biophysica acta.

[6]  G. Lowe The structure and mechanism of action of papain. , 1970, Philosophical transactions of the Royal Society of London. Series B, Biological sciences.

[7]  A. Berger,et al.  Mapping the active site of papain with the aid of peptide substrates and inhibitors. , 1970, Philosophical transactions of the Royal Society of London. Series B, Biological sciences.

[8]  N. Takahashi,et al.  The composition and structure of carbohydrate moiety of stem bromelain. , 1970, Biochemistry.

[9]  R. Steiner,et al.  Luminescence of the tryptophan and tyrosine residues of papain in solution. , 1970, Biochemistry.

[10]  Emil L. Smith 6 Evolution of Enzymes , 1970 .

[11]  A. Glazer Specific chemical modification of proteins. , 1970, Annual review of biochemistry.

[12]  E. C. Lucas,et al.  The pH dependencies of individual rate constants in papain-catalyzed reactions. , 1969, Biochemistry.

[13]  A. Fink,et al.  Binding sites for substrate leaving groups and added nucleophiles in papain-catalyzed hydrolyses. , 1969, Biochemistry.

[14]  D. Williams,et al.  Multiple Molecular Forms of Ficus glabrata Ficin. Their Separation and Relative Physical, Chemical, and Enzymatic Properties. , 1969, Plant physiology.

[15]  J. Whitaker Ficin-and papain-catalyzed reactions. Changes in reactivity of the essential sulfhydryl group in the presence of substrates and competitive inhibitors. , 1969, Biochemistry.

[16]  J. Whitaker,et al.  Multiple molecular forms of ficin-evidence against autolysis as explanation. , 1969, Plant physiology.

[17]  J. Whitaker,et al.  Nature of the Conversion of Ficus carica Variety Kadota Ficin Component D to Component C. Some Physicochemical Properties of Components C and D. , 1969, Plant physiology.

[18]  H. Weetall,et al.  Trypsin and Papain Covalently Coupled to Porous Glass: Preparation and Characterization , 1969, Science.

[19]  J. Whitaker Papain- and ficin-catalyzed reactions. Effect of pH on activity and conformation of ficin. , 1969, Biochemistry.

[20]  J. Whitaker,et al.  Ficin-Catalyzed Reactions. Hydrolysis of α-N-Benzoyl-l-Arginine Ethyl Ester and α-N-Benzoyl-l-Argininamide , 1969 .

[21]  B. Wolthers Kinetics of inhibition of papain by TLCK and TPCK in the presence of BAEE as substrate , 1969, FEBS Letters.

[22]  G. S. Skelton Development of proteolytic enzymes in growing papaya fruit , 1969 .

[23]  K. Kito,et al.  Valylprolylarginine: a ninhydrin negative tripeptide. , 1969, Journal of chromatography.

[24]  R. Arnon,et al.  Comparison between the antigenic structure of mutually related enzymes. A study with papain and chymopapain. , 1968, Biochemistry.

[25]  J. Kirsch,et al.  The presteady-state kinetics of the papain-catalyzed hydrolysis of isomeric nitrophenyl esters of carbobenzoxyglycine. , 1968, Biochemistry.

[26]  J. Whitaker,et al.  Proteolytic activity in the genus ficus. , 1968, Plant physiology.

[27]  W. Hol,et al.  Papain in water-rich and in methanol-rich media; crystallization and conformation. , 1968, Journal of Molecular Biology.

[28]  J. Drenth,et al.  Structure of Papain , 1968, Nature.

[29]  S. Ota Autodigestion of the main proteolytically active component of the stem bromelain. , 1968, Journal of biochemistry.

[30]  I. Silman,et al.  Papain-collodion membranes. I. Preparation and properties. , 1968, Biochemistry.

[31]  L. Sluyterman The rate-limiting reaction in papain action as derived from the reaction of the enzyme with chloroacetic acid. , 1968, Biochimica et biophysica acta.

[32]  G. S. Skelton Column chromatography of papaya proteinases on hydroxylapatite. , 1968, Journal of chromatography.

[33]  B. Eisele,et al.  Stereospecific alkylation with asymmetric reagents. , 1968, European journal of biochemistry.

[34]  P. T. Englund,et al.  Studies on ficin. I. Its isolation and characterization. , 1968, Biochemistry.

[35]  M. Shinttzky,et al.  Fluorometric Detection of Histidine‐Tryptophan Complexes in Peptides and Proteins , 1967 .

[36]  R. Arnon,et al.  Antibodies to papain. A selective fractionation according to inhibitory capacity. , 1967, Biochemistry.

[37]  R. Arnon,et al.  The mechanism of inhibition of papain by its specific antibodies. , 1967, Biochemistry.

[38]  D. Williams,et al.  Kinetics of papain-catalyzed hydrolyses of neutral substrates. , 1967, Biochemistry.

[39]  N. Takahashi,et al.  Evidence for glycoprotein nature of stem bromelain. Isolation of a glycopeptide. , 1967, Biochemistry.

[40]  J. Kirsch,et al.  Papain-catalyzed reactions of esters with alcohols. The nature of the rate-determining step. , 1967, Biochemistry.

[41]  K. Morihara Chemical nature of the active site of papain. I. Inhibition by carbonyl reagents with active methylene groups. , 1967, Journal of biochemistry.

[42]  L. Sluyterman The effect of methanol, urea and other solutes on the action of papain. , 1967, Biochimica et biophysica acta.

[43]  L. Sluyterman The activation reaction of papain. , 1967, Biochimica et biophysica acta.

[44]  R. Smith,et al.  The activation of papain and ficin by phosphorothioate. , 1967, Biochemistry.

[45]  P. Pétra,et al.  A kinetic analysis of the papain-catalyzed hydrolysis of alpha-N-benzoyl-L-citrulline methyl ester. , 1967, Biochemistry.

[46]  M. L. Bender,et al.  The preparation and properties of trans-cinnamoyl-papain. , 1966, Journal of the American Chemical Society.

[47]  M. L. Bender,et al.  The Kinetics and Mechanism of Papain-Catalyzed Hydrolyses1 , 1966 .

[48]  L. Polgár,et al.  A New Enzyme Containing a Synthetically Formed Active Site. Thiol-Subtilisin1 , 1966 .

[49]  J. Kirsch,et al.  The kinetics of the papain-catalyzed hydrolysis of esters of carbobenzoxyglycine. Evidence for an acyl-enzyme intermediate. , 1966, Biochemistry.

[50]  Y. Takahashi,et al.  Proteolytic specificity of chymopapain: hydrolysis of the fraction B of oxidized insulin. , 1966, Biochimica et biophysica acta.

[51]  L. Sluyterman Substrate binding by non-activated papain. , 1966, Biochimica et biophysica acta.

[52]  I. Silman,et al.  Water-insoluble derivatives of enzymes, antigens, and antibodies. , 1966, Annual review of biochemistry.

[53]  R. Goldman,et al.  Papain Membrane on a Collodion Matrix: Preparation and Enzymic Behavior , 1965, Science.

[54]  T. Murachi,et al.  Alkylphosphorylation of Stem Bromelain by Diisopropylphosphorofluoridate without Inhibition of Proteinase Activity , 1965 .

[55]  William W. Cohen,et al.  Evidence for an Active-Center Histidine in Trypsin through Use of a Specific Reagent, 1-Chloro-3-tosylamido-7-amino-2-heptanone, the Chloromethyl Ketone Derived from Nα-Tosyl-L-lysine* , 1965 .

[56]  J. Whitaker,et al.  Kinetics of Papain-Catalyzed Hydrolysis of α-N-Benzoyl-L-arginine Ethyl Ester and α-N-Benzoyl-L-argininamide1 , 1965 .

[57]  R. Arnon The reactoin of papain with antipapain , 1965 .

[58]  J. Kirsch,et al.  REACTION OF PAPAIN WITH ETHYL (CARBONYL-18O)HIPPURATE. , 1965, Biochemistry.

[59]  M. L. Bender,et al.  MECHANISM OF ACTION OF PROTEOLYTIC ENZYMES. , 1965, Annual review of biochemistry.

[60]  I. Liener,et al.  REACTION OF FICIN WITH DIISOPROPYLPHOSPHOROFLUORIDATE. EVIDENCE FOR A CONTAMINATING INHIBITOR. , 1965, Biochemistry.

[61]  I. Szumiel [THE MECHANISM OF ENZYME ACTION]. , 1965, Postepy biochemii.

[62]  M. L. Bender,et al.  The Acyl-enzyme Intermediate, trans-Cinnamoylpapain , 1964 .

[63]  R. Frater,et al.  CURRENT STATUS OF THE STRUCTURE OF PAPAIN: THE LINEAR SEQUENCE, ACTIVE SULFHYDRYL GROUP, AND THE DISULFIDE BRIDGES. , 1964, Proceedings of the National Academy of Sciences of the United States of America.

[64]  J. Whitaker,et al.  ON THE MOLECULAR WEIGHTS OF THE PROTEOLYTIC ENZYMES OF STEM BROMELAIN. , 1964, Biochemistry.

[65]  T. Murachi AMINO ACID COMPOSITION OF STEM BROMELAIN. , 1964, Biochemistry.

[66]  R. B. Johnston,et al.  THE ENZYMIC CONDENSATION OF A THIOL ESTER--TYPE CARBOXYL-ACTIVATED ACYLAMINO ACID WITH AN AMINO ACID AMIDE TO FORM A PEPTIDE. , 1964, Biochemistry.

[67]  S. Moore,et al.  PREPARATION AND CHEMICAL PROPERTIES OF PURIFIED STEM AND FRUIT BROMELAINS. , 1964, Biochemistry.

[68]  T. Murachi,et al.  PURIFICATION AND PHYSICAL CHARACTERIZATION OF STEM BROMELAIN. , 1964, Biochemistry.

[69]  T. Inagami,et al.  KINETIC STUDIES OF BROMELAIN CATALYSIS. , 1963, Biochemistry.

[70]  J. Whitaker,et al.  FRACTIONATION AND PARTIAL CHARACTERIZATION OF THE PROTEOLYTIC ENZYMES OF STEM BROMELAIN. , 1963, Biochemistry.

[71]  T. Murachi A general reaction of diisopropylphosphorofluoridate with proteins without direct effect on enzymic activities. , 1963, Biochimica et biophysica acta.

[72]  I. Liener A study of the number and reactivity of the sulfhydryl groups of ficin. , 1961, Biochimica et biophysica acta.

[73]  K. Shimura,et al.  Preparation of Reduced, Activator-Free Papain by Para-Thiocresol Treatment , 1961 .

[74]  C. Nolan,et al.  Absence of Sialic Acids and Other Carbohydrates in Crystalline Papain. ∗ , 1960, Proceedings of the Society for Experimental Biology and Medicine. Society for Experimental Biology and Medicine.

[75]  M. L. Bender Mechanisms of Catalysis of Nucleophilic Reactions of Carboxylic Acid Derivatives. , 1960 .

[76]  T. Masuda STUDIES ON ACTIVE GROUPS OF PAPAIN II. INHIBITION OF CYANIDE-ACTIVATED PAPAIN BY DIISOPROPYL FLUOROPHOSPHATE , 1959 .

[77]  T. Masuda STUDIES ON ACTIVE GROUPS OF PAPAIN: I. EFFECT OF ACTIVATORS ON INHIBITION BY ALDEHYDE REAGENTS* , 1959 .

[78]  T. C. Bruice Imidazole Catalysis. VI.1 The Intramolecular Nucleophilic Catalysis of the Hydrolysis of an Acyl Thiol. The Hydrolysis of n-Propyl γ-(4-Imidazolyl)-thiolbutyrate , 1959 .

[79]  R. Heinicke,et al.  Effect of Diisopropylfluorophosphate on Sulfhydryl Proteases , 1959, Science.

[80]  A. Arcus Proteolytic enzyme of Actinidia chinensis. , 1959, Biochimica et biophysica acta.

[81]  T. C. Bruice,et al.  Imidazole Catalysis. IV.1 The Reaction of General Bases with p-Nitrophenyl Acetate in Aqueous Solution , 1958 .

[82]  Emil L. Smith,et al.  Some chemical and kinetic studies of crystalline papain , 1955 .

[83]  R. Heinicke Complementary enzyme actions in the clotting of milk. , 1953, Science.

[84]  A. Ivy,et al.  A REVIEW OF THE LITERATURE ON THE POTENTIAL THERAPEUTIC SIGNIFICANCE OF PAPAIN , 1951, Annals of the New York Academy of Sciences.

[85]  G. Schwert,et al.  The mode of action of the crystalline pancreatic proteolytic enzymes. , 1950, Chemical reviews.

[86]  J. Fruton The Role of Proteolytic Enzymes in the Biosynthesis of Peptide Bonds * , 1950, The Yale journal of biology and medicine.

[87]  D. M. Greenberg,et al.  NOMENCLATURE OF PROTEOLYTIC ENZYMES. , 1945, Science.

[88]  D. M. Greenberg,et al.  Enzymes that Hydrolyze the Carbon-Nitrogen Bond: Proteinases, Peptidases, and Amidases , 1945 .

[89]  D. C. Carpenter,et al.  The Isoelectric Point of Asclepain1,2 , 1943 .

[90]  C. F. Asenjo,et al.  A NEW PROTEASE FROM BROMELLA PINGUIN L. , 1942, Science.

[91]  S. Schwimmer,et al.  Drying of Papaya Latex Stability Of Papain , 1940 .

[92]  Shigeo Okumura Über die chemische Natur des Papains. III. Mitteilung. Über die Wirkungsweise der Blausäure auf Papain , 1939 .

[93]  Shigeo Okumura Über die chemische Natur des Papains. II. Reinigung des Papains durch Taka-Amylase , 1938 .

[94]  A. P. Krueger THE MECHANISM OF BACTERIOPHAGE PRODUCTION. , 1937, Science.

[95]  S. Maeda Über die chemische Natur des Papains , 1937 .