UMLS:C0027960 - FACTA Search

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Query: UMLS:C0027960 (mole)
21,279 document(s) hit in 31,850,051 MEDLINE articles (0.00 seconds)

The chloroplast enzyme phosphoribulokinase is reversibly deactivated by oxidation of Cys16 and Cys55 to a disulfide. Although not required for catalysis, Cys16 is an active-site residue positioned at the nucleotide-binding domain (Porter and Hartman, 1988). The hyperreactivity of Cys16 has heretofore limited further active-site characterization by chemical modification. To overcome this limitation, the partially active enzyme, S-methylated at Cys16, has been probed with a potential affinity reagent. Treatment of methylated enzyme with bromoacetylethanolamine phosphate results in essentially complete loss of catalytic activity. Inactivation follows pseudo-first-order kinetics and exhibits a rate saturation with an apparent Kd of 3-4 mM. ATP, but not ribulose 5-phosphate, affords substantial protection. Complete inactivation correlates with incorporation of 1 mol of [14C]reagent per mole of enzyme subunit. Amino acid analysis of the [14C]-labeled enzyme demonstrates that only cysteine is modified, and mapping of tryptic digests shows that Cys55 is a major site of alkylation. These results indicate that Cys55 is also located in the ATP-binding domain of the active-site.
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PMID:Affinity labeling of spinach phosphoribulokinase subsequent to S-methylation at Cys16. 217 36

The DNA binding domain of the mammalian glucocorticoid hormone receptor (GR) contains nine highly conserved cysteine residues, a conservation shared by the superfamily of steroid and thyroid hormone receptors. A fragment [150 amino acids (AA) in length] consisting of GR residues 407-556, containing within it the entire DNA binding domain (residues 440-525), has been overexpressed and purified from Escherichia coli previously. This fragment has been shown to contain 2.3 +/- 0.2 mol of Zn(II) per mole of protein [Freedman, L. P., Luisi, B. F., Korszun, Z. R., Basavappa, R., Sigler, P. B., & Yamamoto, K. R. (1988) Nature 334, 543]. Zn(II) [or Cd(II) substitution] has been shown to be essential for specific DNA binding. 113Cd NMR of a cloned construct containing the minimal DNA binding domain of 86 AA residues [denoted GR(440-525)] with 113Cd(II) substituted for Zn(II) identifies 2 Cd(II) binding sites by the presence of 2 113Cd NMR signals each of which integrates to 1 113Cd nucleus. The chemical shifts of these two sites, 704 and 710 ppm, suggest that each 113Cd(II) is coordinated to four isolated -S- ligands. Shared -S- ligands connecting the two 113Cd(II) ions do not appear to be present, since their T1s differ by 10-fold, 0.2 and 2.0 s, respectively. Addition of a third 113Cd(II) or Zn(II) to 113Cd2GR(440-525) results in occupancy of a third site, which introduces exchange modulation of the two original 113Cd NMR signals causing them to disappear. Addition of EDTA to the protein restores the original two signals.(ABSTRACT TRUNCATED AT 250 WORDS)
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PMID:Cadmium-113 NMR studies of the DNA binding domain of the mammalian glucocorticoid receptor. 227 90

To determine whether cysteine residues have a contribution to the mechanism of color silver staining, we silver stained sodium dodecylsulfate polyacrylamide gel electrophoresis separations of proteins which have few or no cysteines. Proteins without cysteine stained negatively (yellow against a yellow background) with silver. Proteins with one or more cysteines stained orange, red, brown, or green/gray depending on the mole percentage of cysteine and whether they contained covalently attached lipids. The colors could not be correlated with the mole percentages of cysteine of these proteins indicating that some components other than cysteine affect the staining color of cysteine-containing proteins. Silver staining of amino acids, sugars, nucleotide bases, or lipopolysaccharide dot-blotted onto nitrocellulose paper implicated adenine, lipids, the basic amino acids, and glutamine, but not sugars or other amino acids in silver/protein complexes.
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PMID:Requirement for cysteine in the color silver staining of proteins in polyacrylamide gels. 242 85

The transcription factor GAL4 from Saccharomyces cerevisiae contains a "zinc-finger"-like motif, Cys-Xaa2-Cys-Xaa6-Cys-Xaa6-Cys-Xaa2-Cys-Xaa6+ ++-Cys, within its DNA-binding domain. A GAL4 fragment consisting of residues 1-147 plus two additional residues from the cloning vector [denoted GAL4(149*)] has been cloned and overexpressed in Escherichia coli. This fragment includes the entire DNA-binding domain (residues 1-74). The homogeneous GAL4-(149*) protein contains 1-1.5 moles of Zn(II) per mole of protein. The GAL4(149*) protein binds tightly to the specific 17-base-pair palindromic DNA sequence found at GAL4 binding sites as shown by gel-retention assays using a 32P-labeled 23-mer containing this sequence. Removal of the intrinsic Zn(II) by EDTA at low pH abolishes binding to the 23-mer. The GAL4(149*) apoprotein can be reconstituted with Zn(II), Cd(II), or Co(II) with restoration of specific DNA binding. Titration of GAL4(149*) apoprotein with 113Cd(II) shows two 113Cd(II) binding sites on the molecule, one with delta of 707 ppm, suggesting coordination to four sulfur atoms, and one with delta of 669 ppm, suggesting coordination to three or four sulfur atoms. Because GAL4(149*) protein contains only six cysteine residues within its DNA-binding domain, the precise coordination of the two Cd(II) ions cannot be stated with certainty; one or more shared -S- ligands could exist. GAL4(149*) protein contains approximately 40% alpha-helix and approximately 20% beta-sheet, estimated from circular dichroism. Removal of the native Zn(II) ion causes limited unfolding of secondary structure, but less than one turn of alpha-helix. The binding of Zn(II), Cd(II), and, to a lesser extent, Co(II) to GAL4(149*) apoprotein protects the protein from proteolysis by trypsin, which produces a 13-kDa DNA-binding core.
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PMID:Structure and function of the Zn(II) binding site within the DNA-binding domain of the GAL4 transcription factor. 249 63

Phosphoenolpyruvate carboxykinase (GTP) (PEPCK) specifically utilizes a guanosine or inosine nucleotide as a substrate, yet it does not share extended sequence homology with other GTP-binding proteins, and the molecular basis for its nucleotide specificity is not understood. In an effort to locate the enzyme's nucleotide-binding site, we have studied the interaction of cytosolic PEPCK from rat liver with the photoprobe 8-azidoGTP, which fulfills the criteria of a specific photoaffinity label for PEPCK. The photoprobe binds reversibly to the enzyme prior to modification and at low concentrations causes greater than 60% inactivation (Ki = 1.2 microM). GTP provides nearly complete protection against inactivation by 8-azidoGTP, whereas phosphoenolpyruvate and metal ions provide partial protection. In addition, the photoprobe is a substrate for the enzyme and has a Km similar to that for GTP. However, the extent of covalent modification by [32P]8-azidoGTP as measured by three independent techniques is significantly lower than the extent of enzyme inactivation. Further investigation of this anomaly has revealed that the loss in enzymatic activity is caused by modification of a critical cysteine residue in a reaction that does not terminate with covalent attachment of the photolabel. Quantitation of the total free thiols of modified PEPCK shows that 2 mol of cysteine is lost per mole of inactivated enzyme. These results indicate that the photoinactivation of PEPCK by 8-azidoGTP is caused by the formation of an intramolecular cystine disulfide bridge, thus providing evidence for the existence of a pair of proximal cysteine residues within the GTP-binding site. The interaction of cysteine residues with the reactive photogenerated derivatives of 8-azidopurines is discussed.
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PMID:Formation of an intramolecular cystine disulfide during the reaction of 8-azidoguanosine 5'-triphosphate with cytosolic phosphoenolpyruvate carboxykinase (GTP) causes inactivation without photolabeling. 261 Dec 26

Goat liver catalase (EC 1.11.1.6) has been purified to homogeneity using the techniques of ammonium sulfate fractionation, DEAE-cellulose chromatography and gel-filtration through Ultrogel AcA-34 involving two alternating steps of column chromatography. The homogeneity of the purified enzyme was tested by native and sodium dodecyl sulfate polyacrylamide gel electrophoresis, immunodiffusion and immunoelectrophoresis. The enzyme is a tetramer having a subunit molecular weight of 58,000 +/- 3000, contains six sulfhydryl groups per mole of the enzyme and shows pH optima at pH 6.8 and 7.7. The kinetic data show no cooperativity between the substrate binding sites. Tryptophan, indoleacetic acid, cysteine, formaldehyde and sodium azide inhibit the enzyme non-competitively with Ki values of 4 +/- 1, 2.5 +/- 0.8, 6 +/- 1.5, 0.48 +/- 0.15 and 0.0013 +/- 0.0003 mM, respectively. Sulfhydryl group binding agents as well as thiol reagents inhibit the enzyme activity.
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PMID:Purification and properties of goat liver catalase: two pH optima. 262 Sep 9

Various lines of evidence suggest that calcium dependent protease (CANP, calpain) exists in the cytosol as an inactive proenzyme which is converted to an active form by autolysis. During autolysis only the N-terminal regions of both subunits of proCANP are modified. About 20 and 90 residues are removed from the large and small subunits, respectively. The N-terminal region (domain I) of the large subunit modified during autolysis precedes the protease domain and corresponds to the propeptides of various cysteine proteinases. Analyses of the autocatalytic activation of CANP in the presence of plasma membranes reveal that proCANP translocates to the membrane in the presence of microM Ca2+ and is activated at the membrane. The CANP inhibitor and Ca2+ are the most important factors for the regulation of CANP activity. The primary translation product of the mRNA for rabbit liver CANP inhibitor contains four internal repeats. Structural analyses of the liver and erythrocyte inhibitors reveal that they contain four and three repeats, respectively. The repeating unit was identified as the functional unit of the inhibitor and each unit inhibits one mole of CANP. On the basis of these results, an activation mechanism for proCANP at the membrane was proposed. The native enzyme, which has been called CANP or calpain, should now be called proCANP or calpainogen. CANP and calpain should be used for the autolyzed active form.
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PMID:Regulation of activity of calcium activated neutral protease. 285 47

Inducible cadmium binding proteins (Cd-BP) in the mussel, Mytilus edulis, were resolved into two molecular weight components by gel permeation chromatography on Sephadex G-75. Each of these two molecular weight components was further resolved into four subcomponents by DEAE ion exchange chromatography. All eight subcomponents bound cadmium and exhibited significant u.v. absorption at 254 and little absorption at 280 nm. Based on amino acid composition analysis two classes of proteins were identified, one having higher cysteine (approximately 25 mole %) and lower serine and glutamic acid contents compared to the other class.
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PMID:Characterization of two molecular weight classes of cadmium binding proteins from the mussel, Mytilus edulis (L.). 286 Oct 5

The conversion of yeast Cu(I)-thionein into the Co(II) derivative was successful. 2.6 Co atoms were incorporated per mole of protein yielding a Co : S ratio of 1 : 3. The electronic absorption of this highly air sensitive Co(II)-thionein is virtually identical to those of the Co(II) derivatives of other metallothioneins originating from vertebrates and N. crassa. Weaker Cotton extrema are noticed and the two doublet splittings of Cu-thionein disappeared. Throughout the molar ellipticities of the cobalt protein were markedly lower compared to those of the Cu-thionein. Owing to the characteristic charge transfer bands and d-d transitions a tetrahedral Co-thiolate coordination was deduced. The best fit proposal maintaining the above Co : S ratio of 1 : 3 was a six-membered ring with three bridging cysteine sulphurs.
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PMID:Cobalt-(cysteinyl)4 tetrahedra in yeast cobalt(II)-thionein. 293 33

Multinuclear 1 and 2 dimensional magnetic resonance methods have been used to investigate the structures and metal binding properties of metallothioneins (MTs) isolated from several different sources. 113Cd NMR studies have unambiguously shown that the 7 g-atoms of Cd2+ bound per mole of the mammalian MT are located in two separate metal clusters, one containing 4 metal ions and the other, 3 metal ions. In the invertebrate (Scylla serrata) MT, similar studies have revealed that the 6 g-atoms of bound Cd2+ are distributed in two distinct 3-metal clusters while in Neurospora MT, the 3 g-atoms of bound Cd2+ are arranged in a pseudo 3-metal cluster. With the exception of one of the Cd2+ sites in this latter cluster, all the Cd2+ ions are tetrahedrally coordinated to four cysteine thiolate ligands with single cysteinyl sulfurs bridging adjacent metals. These conclusions are based on the 113Cd chemical shift data and a detailed analysis of the observed 113Cd-113Cd scalar couplings by both homonuclear decoupling and 2D techniques. In addition, the 113Cd NMR studies have revealed significant differences in the affinity of different metal ions for the two mammalian metal clusters. For the 3-metal cluster, the affinity is found to decrease in the order Cu+ greater than Cd2+ greater than Zn2+ with Cd2+ greater than Zn2+ for the 4 metal cluster and Cd2+ (4-metal cluster) greater than Cd2+ (3-metal cluster). The 113Cd NMR data are currently being integrated with 500 MHz 2D 1H and 1H-113Cd chemical shift correlated multiple quantum data sets to more completely define the structural arrangement of the metal clusters in the tertiary structure of these proteins.
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PMID:NMR analysis of the structure and metal sequestering properties of metallothioneins. 295 2

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