UMLS:C0027960 - FACTA Search

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Query: UMLS:C0027960 (mole)
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A low molecular weight, native zinc binding, cytosolic protein (LMZP) has been isolated, purified and characterized from human normal term placenta. Gel filtration of heat treated placental cytosol after sequential acetone precipitation (80% ppt) revealed a major zinc binding protein in the range of low molecular weight. This partially purified zinc binding fraction was further fractionated on DEAE-Sephadex A-25. The zinc was eluted in one of the three peak fractions. Further, the purity of zinc binding protein was confirmed on fast protein liquid chromatography (FPLC). The purified placental LMZP was homogenous on SDS-polyacrylamide gel electrophoresis with a single band. Ultraviolet (UV) spectrum of LMZP showed an absorption maximum at 257 nm which disappeared at pH 2. Molecular weight of LMZP as determined by gel chromatography, SDS-polyacrylamide gel electrophoresis and amino acid analysis was 6 kDa. It was calculated that 1 g atom of zinc was bound to 1 mole of the LMZP. Unlike in classical metallothionein, the amino acid composition of placental LMZP revealed the presence of aromatic amino acids, lower content of cysteine and higher content of histidine, glutamic acid and aspartic acid (10, 9 and 5 residues/mole, respectively).
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PMID:Purification and characterization of a low molecular weight zinc binding protein from human placenta. 753 17

Chlorophyllin (CHL), a food-grade derivative of the green plant pigment chlorophyll, has recently been shown in this laboratory to be a potent inhibitor in vivo of hepatic aflatoxin B1 (AFB1)-DNA adduction and hepatocarcinogenesis (Breinholt et al. (1995) Cancer Res. 55, 57-62). We report here that CHL forms a strong noncovalent complex with AFB1 in vitro (dissociation constant (Kd) by Scatchard analysis = 1.4 (+/- 0.4) microM based on copper chlorin content), which may contribute to its anticarcinogenic activity. Kd values for the related porphyrins chlorine e6, protoporphyrin IX, and zinc protoporphyrin IX were also of the same order of magnitude as that of the commercial CHL. Mole ratio analysis provided evidence that all porphyrins examined associate with AFB1 at an approximate one to one stoichiometric ratio. Energy minimization computer modeling of the complex indicates a favorable association energy of -20 kcal/mol, independent of oxidation state of the 8,9-double bond of AFB1. AFB1 incubated in vitro with liver microsomes in the presence of added CHL showed comparable levels of inhibition in the production of several phase 1 metabolites, including the postulated procarcinogenic metabolite AFB1 8,9-epoxide. Kinetic analysis of microsome-catalyzed AFB1-DNA adduction suggested a CHL inhibition constant near 10 microM chlorin. In vivo, addition of CHL to concentrated AFB1 solutions followed by gavage administration resulted in dose-dependent inhibition of hepatic AFB1-DNA adduction, whereas the same dosages of AFB1 and CHL incorporated into a single bolus of trout diet for gavage provided less protection at all CHL doses.(ABSTRACT TRUNCATED AT 250 WORDS)
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PMID:Mechanisms of chlorophyllin anticarcinogenesis against aflatoxin B1: complex formation with the carcinogen. 754 30

N-Acyl-D-glutamate amidohydrolase (D-AGase) from Pseudomonas sp. 5f-1 was a zinc-metalloenzyme which contained 2.06-2.61 g.atom of Zn per mole of enzyme. The zinc atom was required for the catalytic activity and stability of the enzyme. The N-terminal amino acid sequence of Pseudomonas sp. 5f-1 D-AGase showed 32% identity to that of Alcaligenes xylosoxydans subsp. xylosoxydans A-6.
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PMID:Metal-characterization of N-acyl-D-glutamate amidohydrolase from Pseudomonas sp. strain 5f-1. 754

Bacteriophage T4 endonuclease VII is one of a class of structure-selective enzymes that resolve helical branchpoints in DNA molecules. The sequence of this protein suggests a modular organisation. We have expressed a synthetic gene encoding endonuclease VII, which has been used in a directed mutagenesis exercise, with the aim of understanding the role of different sections of the protein sequence. Towards the N-terminal end of the protein lies a section of polypeptide in which four cysteine residues distributed in a CxxC--CxxC pattern co-ordinate one atom of zinc. The N-terminal section composed of amino acid residues 1 to 65 isolated from the remaining C-terminal section also binds one mole of zinc, suggesting that this region folds autonomously. Mutation shows that the outer cysteine residues are essential for zinc binding, while the inner cysteine residues are partially degenerate in that either one of the two (but not both) can be replaced while retaining some zinc. The activity as a junction-resolving enzyme correlated qualitatively with the presence of the zinc. In the C-terminal part of the protein lies a section that is 48% identical with a sequence found in the DNA repair protein T4 endonuclease V. We can replace the section of T4 endonuclease VII with the corresponding sequence from T4 endonuclease V with no change in the pattern of cleavage on four-way junctions. The evidence supports a modular construction for T4 endonuclease VII.
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PMID:The modular character of a DNA junction-resolving enzyme: a zinc-binding motif in bacteriophage T4 endonuclease VII. 756 77

Zn2+ binding to canine cardiac calsequestrin was investigated using the Zn2+ specific fluorescence dye salicylcarbohydrazone (SACH), 65Zn2+ overlay and Zn(2+)-IDA chromatography. Cardiac calsequestrin binds approximately 200 moles of Zn2+/mole of protein with the Kd = 300 microM. Zn2+ binding to calsequestrin was further confirmed by 65Zn2+ overlay and Zn(2+)-dependent aggregation of the protein. However, calsequestrin did not bind to a Zn(2+)-IDA-agarose column, indicating that histidine residues may not be involved in Zn2+ binding to the protein. Circular dichroism revealed only minor Zn(2+)-dependent conformational changes in calsequestrin. We conclude that calsequestrin is a Ca(2+)- and Zn(2+)-binding protein and that Zn2+ may modulate the structure and function of the protein.
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PMID:Zn2+ binding to cardiac calsequestrin. 772 52

Limited proteolysis of intact yeast methionine aminopeptidase (MAP1) with trypsin releases a 34 kDa fragment whose NH2-terminal sequence begins at Asp70, immediately following Lys69. These results suggest that yeast MAP may have a two-domain structure consisting of an NH2-terminal zinc finger domain and a C-terminal catalytic domain. To test this, a mutant MAP lacking residues 2-69 was generated, overexpressed, purified and analyzed. Metal ion analyses indicate that 1 mol of wild-type yeast MAP contains 2 mol of zinc ions and at least 1 mol of cobalt ion, whereas 1 mol of the truncated MAP lacking the putative zinc fingers contains only a trace amount of zinc ions but still contains one mole of cobalt ion. These results suggest that the two zinc ions observed in the native yeast MAP are located at the Cys/His rich region and the cobalt ion is located in the catalytic domain. The kcat and Km values of the purified truncated MAP are similar to those of the wild-type MAP when measured with peptide substrates in vitro and it appears to be as active as the wild-type MAP in vivo. However, the truncated MAP is significantly less effective in rescuing the slow growth phenotype of map mutant than the wild-type MAP. These findings suggest that the zinc fingers are essential for normal MAP function in vivo, even though the in vitro enzyme assays indicate that they are not involved in catalysis.(ABSTRACT TRUNCATED AT 250 WORDS)
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PMID:Evidence that two zinc fingers in the methionine aminopeptidase from Saccharomyces cerevisiae are important for normal growth. 786 96

A Ni(2+)-binding protein (pNiXc, 40 kDa), present in Xenopus laevis oocytes and embryos, was isolated from mature oocytes by chromatography on DEAE-cellulose and cellulose phosphate, followed by FPLC on Ni-iminodiacetate-Agarose, or reverse-phase HPLC on a C-4 column. Size-exclusion HPLC showed that intact pNiXc is approximately 155 kDa, consistent with tetrameric structure. After cleavage with Lys-C proteinase or cyanogen bromide, six peptides were separated by HPLC and sequenced by Edman degradation, providing sequence data for 83 residues. Data-base search showed similarity of pNiXc to eukaryotic aldolases, with 96% identity to human aldolase A. pNiXc demonstrated aldolase activity with fructose 1,6-bisphosphate as substrate (Km, 30 microM Vmax 26 mumol min-1 mg-1); the aldolase activity was inhibited non-competitively by Cu2+, Cd2+, Co2+, or Ni2+. Equilibrium dialysis showed high affinity binding (Kd, 7 microM) of 1 mole of Ni per mole of 40 kDa subunit. Based on metal-blot competition assays, the abilities of metals to compete with 63Ni2+ for binding to pNiXc were ranked: Cu2+ >> Zn2+ > Cd2+ > Co2+. This study identifies pNiXc as the monomer of fructose-1,6-bisphosphate aldolase A, and raises the possibility that aldolase A is a target enzyme for metal toxicity.
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PMID:The 40 kDa 63Ni(2+)-binding protein (pNiXc) on western blots of Xenopus laevis oocytes and embryos is the monomer of fructose-1,6-bisphosphate aldolase A. 787 95

Hemorrhage, necrosis and edema are some of the effects often observed following snake bites. This paper reports studies on the isolation and biological properties of hemorrhagic toxin from Crotalus viridis viridis (Prairie rattlesnake) venom. A hemorrhagic toxin was isolated from C. v. viridis venom by Sephadex G-50, DEAE-Sephacel and Q-Sepharose column chromatographies. The hemorrhagic toxin from C. v. viridis venom was shown to be homogenous as demonstrated by a single band on polyacrylamide gel electrophoresis and immunodiffusion. Its molecular weight was approximately 54,000 daltons, and it contained 471 amino acid residues. The toxin possessed hemorrhagic activity with a minimum hemorrhagic dose (MHD) of 0.11 micrograms and hydrolytic activity on dimethylcasein, casein, azocasein, azoalbumin, azocoll and hide powder azure. Hemorrhagic and casein hydrolytic activities were inhibited by EDTA, o-phenanthroline or dithiothreitol. The toxin contained 1 mole of zinc per mole of protein and zinc is essential for both hemorrhagic and proteolytic activities. Hemorrhagic toxin possessed hydrolytic activity on the B-chain of insulin, which cleaves His(5)-Leu(6), His(10)-Leu(11), Ala(14)-Leu(15), Tyr(16)-Leu(17) and Phe(24)-Phe(25) bonds. This toxin also hydrolyzed A alpha and B beta chains of fibrinogen. Intramuscular injections of hemorrhagic toxin caused an increase of creatine phosphokinase activity in mice serum from 50.3 mU/ml to 1133 mU/ml. A toxin isolated from C. v. viridis venom was shown to have strong hemorrhagic activity. Partial characterization is reported for this major hemorrhagic toxin in C. v. viridis venom.
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PMID:Biochemical characterization of hemorrhagic toxin from Crotalus viridis viridis (prairie rattlesnake) venom. 789 Jan 22

Snake venoms, especially from the Crotalidae family, contain a variety of enzymes that prevent blood coagulation by virtue of their fibrinolytic enzymes. Nineteen snake venoms were screened for fibrinolytic activity and the highest activity was found in the venom of Crotalus basiliscus basiliscus venom. The active principle, basilase, was isolated, purified, and found to have fibrinolytic and fibrinogenolytic activity. It had a molecular weight of 22,000 and 1 mol of zinc per mole of protein associated with it. The proteolytic activity of the enzyme against dimethyl casein was inhibited by ethylenediaminetetraacetic acid and alpha 2-macroglobulin. It did not inactivate alpha 2-macroglobulin. Basilase did not have any of the following activities: thrombin-like, factor X-like, protein C activating, or urokinase-like. It caused neither hemorrhage nor platelet aggregation. In spite of its proteolytic activity, basilase did not hydrolyze the membranes of platelets. Basilase had 24% alpha-helix, 31% beta-sheet, 25% turns, and 20% unordered structure, as determined by Fourier Transform Infrared spectroscopy. Basilase is an enzyme that hydrolyzes fibrin directly without activation of plasminogen.
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PMID:Biochemical characterization of basilase, a fibrinolytic enzyme from Crotalus basiliscus basiliscus. 789 51

1. Despite considerable progress, cancer continues to remain the number one health threat to human beings. Currently, the targeted antineoplastic therapy is based on an understanding of the molecular mechanisms that govern the normal proliferation and functioning of the cellular elements. Furthermore, the gene-directed therapies and antibody-based approaches are also based on modulating specific signalling processes influencing growth factors and oncogenes that alter cellular proliferation. 2. The intracellular level of metallothionein, a low molecular weight metal binding protein consisting of 25-30% cysteine, containing no aromatic amino acids or disulfide bonds and binding between 5 and 7 g atoms of group II B heavy metals per mole protein, may play an important role in regulating cellular responsiveness to DNA interactive antineoplastic agents. For example, cells with acquired resistance to cisplatin or chlorambucil overexpress metallothionein, which tends to bind these alkylating agents to a higher extent than the non-resistant cells. Since humans synthesize several isoforms of metallothionein. It is not certain which isoforms are increased in cells with acquired resistance to anti-cancer drugs. In addition to sequestering electrophilic anti-cancer drugs, metallothionein, by regulating the activities of zinc-requiring metalloenzymes or scavenging radical species, may alter the therapeutic efficacy of antineoplastic agents.
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PMID:Metallothionein in carcinogenesis and cancer chemotherapy. 789 39

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