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Query: EC:2.5.1.18 (
glutathione S-transferase
)
22,582
document(s) hit in 31,850,051 MEDLINE articles (0.00 seconds)
The roles of tyrosine 9 and
aspartic acid
101 in the catalytic mechanism of rat
glutathione S-transferase
YaYa were studied by site-directed mutagenesis. Replacement of tyrosine 9 with phenylalanine (Y9F), threonine (Y9T), histidine (Y9H), or valine (Y9V) resulted in mutant enzymes with less than 5% catalytic activity of the wild type enzymes. Kinetic studies with purified Y9F and Y9T mutants demonstrated poor catalytic efficiencies which were largely due to a drastic decrease in kcat. The estimated pK alpha values of the sulfhydryl group of glutathione bound to Y9F and Y9T mutant enzymes were 8.5 to 8.7, similar to the chemical reaction, in contrast to the estimated pK alpha value of 6.7 to 6.8 for the glutathione enzyme complex of wild type
glutathione S-transferase
. These results indicate that tyrosine 9 is directly responsible for the lowering of the pKa of the sulfhydryl group of glutathione, presumably due to the stabilization of the thiolate anion through hydrogen bonding with the hydroxyl group of tyrosine. To examine the role of
aspartic acid
in the binding of glutathione to YaYa, 4 conserved
aspartic acid
residues at positions 61, 93, 101, and 157 were changed to glutamic acid and asparagine. All mutant enzymes retained either full or partial activity except D157N, which was virtually inactive. Kinetic studies with four mutant enzymes (D93E, D93N, D101E, and D101N) indicate that only D101N exhibited a 5-fold increase in Km toward glutathione. Also, the binding of this mutant to the affinity column was greatly reduced. These results demonstrate that
aspartic acid
101 plays an important role in glutathione interaction to YaYa. The role of
aspartic acid
157 in catalysis remains to be determined.
...
PMID:Site-directed mutagenesis of glutathione S-transferase YaYa. Important roles of tyrosine 9 and aspartic acid 101 in catalysis. 140 Mar 2
A plasmid vector was constructed that encodes the expression in Escherichia coli of a truncated form of GST2, a human Alpha-class
glutathione transferase
. The truncated enzyme, GST2del210, has 12 residues deleted from the C-terminus and has the last two residues of the new C-terminal mutated from
aspartic acid
and glutamic acid to histidine and glycine respectively. GST2del210 has substantially diminished specific activity with either 1-chloro-2,4-dinitrobenzene or cumene hydroperoxide as substrate. The affinity of the truncated enzyme for a GSH-agarose matrix was also diminished, but sufficient interaction remained to enable affinity purification. Inhibition of GST2del210 by bromosulphophthalein was not altered. In contrast, this truncated form was not inhibited by S-pentylglutathione, a competitive inhibitor of the wild-type GST2 isoenzyme. The results show that the C-terminal segment of the Alpha-class glutathione transferases may form a component of the hydrophobic substrate-binding site. In contrast, this region appears not to be directly involved in GSH binding and is not absolutely essential for catalytic activity.
...
PMID:The contribution of the C-terminal sequence to the catalytic activity of GST2, a human alpha-class glutathione transferase. 201 73
The procedure developed for purification of the N-ethylmaleimide-activated microsomal glutathione transferase was applied successfully to isolation of this same enzyme in unactivated form. The microsomal glutathione transferases, the unactivated and activated forms, were shown to be identical in terms of molecular weight, immunochemical properties, and amino acid composition. In addition the microsomal glutathione transferase purified in unactivated form could be activated 15-fold with N-ethylmaleimide to give the same specific activity with 1-chloro-2,4-dinitrobenzene as that observed for the enzyme isolated in activated form. This activation involved the binding of one molecule N-ethylmaleimide to the single cysteine residue present in each polypeptide chain of the enzyme, as shown by amino acid analysis, determination of sulfhydryl groups by 2,2'-dithiopyridyl and binding of radioactive N-ethylmaleimide. Except for the presence of only a single cysteine residue and the total absence of tryptophan, the amino acid composition of the microsomal glutathione transferase is not remarkable. The contents of
aspartic acid
/asparagine + glutamic acid/glutamine, of basic amino acids, and of hydrophobic amino acids are 15%, 12% and 54% respectively. The isoelectric point of the enzyme is 10.1. Microsomal
glutathione transferase
conjugates a wide range of substrates with glutathione and also demonstrates glutathione peroxidase activity with cumene hydroperoxide, suggesting that it may be involved in preventing lipid peroxidation. Of the nine substrates identified here, the enzymatic activity towards only two, 1-chloro-2,4-dinitrobenzene and cumene hydroperoxide, could be increased by treatment with N-ethylmaleimide. This treatment results in increases in both the apparent Km values and V values for 1-chloro-2,4-dinitrobenzene and cumene hydroperoxide. Thus, although clearly distinct from the cytosolic glutathione transferases, the microsomal enzyme shares certain properties with these soluble enzymes, including a relative abundance, a high isoelectric point and a broad substrate specificity. The exact role of the microsomal glutathione transferase in drug metabolism, as well as other possible functions, remains to be established.
...
PMID:Microsomal glutathione transferase. Purification in unactivated form and further characterization of the activation process, substrate specificity and amino acid composition. 688 49
The basement membrane glycoprotein, entactin, has previously been shown to promote cell attachment and chemotaxis. We have constructed a panel of
glutathione S-transferase
fusion proteins that encompasses the four major structural domains of entactin, G1, G2, E, and G3. These proteins have been synthesized in bacteria and purified by affinity chromatography. The connecting stalk of entactin, E, which contains four cysteine-rich EGF homology repeats and the integrin receptor RGD recognition sequence, has been modified by deletion of the RGD sequence and substituting glutamic acid for
aspartic acid
. Attachment assays reveal that the RGD sequence is one of the major cell attachment sites in entactin and that this sequence is recognized by the alpha v beta 3 integrin receptor. Analysis of cell attachment on mutant forms of full-length entactin expressed in the baculovirus expression system revealed a second attachment site that was independent of the RGD sequence. This second site was localized to a peptide of 39 amino acid residues in the second globular G2 domain of entactin. This peptide represents a cysteine-rich EGF repeat. Inhibition of cell attachment by anti-integrin receptor antibodies indicates that the second attachment site is recognized by a member of the beta 1 family of integrin receptors, possibly alpha 3 beta 1.
...
PMID:Two distinct cell attachment sites in entactin are revealed by amino acid substitutions and deletion of the RGD sequence in the cysteine-rich epidermal growth factor repeat 2. 779 88
Previous studies from our laboratory have shown that
aspartic acid
101 plays an important role in glutathione interaction to rat
glutathione S-transferase
YaYa, while tyrosine 9 is directly involved in catalysis. Based on the available structural information, site-directed mutagenesis was conducted to examine the function of arginine, lysine, glutamine, and proline residues surrounding the GSH binding pocket. Arginine mutants R13K, R15K, R20K, and R20I retained partial enzymatic activities, while R13I and R15I lost most of their activities. Kinetic studies showed a marked increase in Km toward GSH for R15I suggesting that arginine 15 contributes significantly to the binding of GSH in the active site of
glutathione S-transferase
YaYa. A drastic decrease in enzymatic activities for R13I suggested the importance of the charged group of arginine 13 either in maintaining the structural integrity of the enzyme or in serving a vital role in enzymatic function. Replacement of glutamine 54 and 67 with glutamic acid or asparagine resulted in decreased enzymatic activities. Moreover, an 11-, 17-, and 9-fold increase in Km values toward GSH for mutant Q54E, Q54N, and Q67N was observed, respectively. These results suggested that glutamine 54 and 67 also contributed significantly to the binding of GSH. Proline at position 56 appears to be important for maintaining the structural integrity of the enzyme since mutants P56A and P56F were much less active and extremely less stable than that of the wild type enzyme. Both lysine mutants, K45R and K45I, exhibited substantially higher catalytic efficiencies toward both 1-chloro-2,4-dinitrobenzene and GSH than the wild type enzyme. Our data clearly show that lysine 45 is not an essential residue for catalysis nor for GSH binding in
glutathione S-transferase
YaYa.
...
PMID:Site-directed mutagenesis of glutathione S-transferase YaYa. Mapping the glutathione-binding site. 822 40
The type III connecting segment (IIICS) within fibronectin is the major binding site for the integrin alpha 4 beta 1. Most integrin ligands have an essential acidic residue within their integrin binding site, in IIICS this residue is hypothesized to be the
aspartic acid
at position 21. Alanine scanning mutagenesis was used to determine the amino acid residues within the intact IIICS domain required for interaction with alpha 4 beta 1. IIICS was cloned and expressed as a fusion protein with
glutathione S-transferase
. This recombinant form of IIICS supports the adhesion of CHO cells that express human alpha 4 beta 1 in a cation dependent manner. Alanine scanning mutagenesis of the EILDVP sequence in recombinant IIICS demonstrated that only two of these residues are critical for adhesion of alpha 4 beta 1 expressing cells. Mutations of leucine at position 20 and
aspartic acid
at position 21 to alanine significantly reduced cell adhesion. Conservative mutations of
aspartic acid
at position 21 to asparagine or glutamic acid also reduced the ability of the recombinant protein to support cell adhesion, although not to the same extent as the corresponding alanine replacement. Most importantly, we show that although the mutation of asp 21 impairs cell adhesion, an examination of cell adhesion as a function of time demonstrated that asp 21 is not necessary for cell adhesion through alpha 4 beta 1. In comparison to wild type IIICS, the asp 21 to ala mutant supported minimal adhesion at early time points (10-30 min.), but was equivalent to wild type IIICS in supporting adhesion over one hour.
...
PMID:The type III connecting segment of fibronectin contains an aspartic acid residue that regulates the rate of binding to integrin alpha 4 beta 1. 880 92
Rhodostomin (RHO) from Agkistrodon rhodostoma venom, consisting of 68 amino acids with an arginine-glycine-
aspartic acid
(RGD) sequence and 12 cysteine residues, is a potent inhibitor of platelet aggregation. We previously demonstrated that cell culture plates coated with the bacterially produced fusion protein of
glutathione S-transferase
-RHO [
GST
-RHO(RGD)] can facilitate human hepatoma cell attachment via intergrin interaction within 15 min. In this study, we further characterized the effect of RHO fusion protein on platelet cells by creating two other related fusion proteins,
GST
-RHO(RGE) and
GST
-(PS)RHO. The former was a single amino acid-substituted mutant, in which the
aspartic acid
residue of RGD was replaced by glutamic acid, and the latter was an insertion mutant, in which a pentapeptide of protein kinase A phosphorylation site was inserted between
GST
and RHO. These two mutant proteins together with a wild-type of
GST
-RHO(RGD) and native form of RHO were used to study effects on the inhibition of ADP-induced platelet aggregation. Results indicated that
GST
-RHO(RGD) inhibited platelet aggregation as potently as the native RHO, while the two other mutants were inactive. Furthermore, when unactivated platelet cells attached on the
GST
-RHO(RGD)-coated plate, they became a flattened pancake shape. From the results of facilitation of cell attachment on fusion protein-coated plates, we concluded that: (1) the
GST
-RHO(RGD) fusion protein is equally functional in inhibition of platelet aggregation and facilitation of cell attachment, which is through the interaction of RGD and integrins on the cell membrane; (2) the
GST
-RHO(RGE) mutant protein is unable to bind with integrins and results in loss of function; (3) the insertion mutant of
GST
-(PS)RHO may disrupt a proper conformation of RHO and also results in loss of function; (4) the bacterially produced fusion protein
GST
-RHO(RGD) can be properly used as an antithrombotic agent and an extracellular matrix.
...
PMID:Glutathione S-transferase-rhodostomin fusion protein inhibits platelet aggregation and induces platelet shape change. 908 May 76
Srp1p, the protein encoded by SRP1 of the yeast Saccharomyces cerevisiae, is a yeast nuclear localization signal (NLS) receptor protein. We have previously reported isolation of a protein kinase from yeast extracts that phosphorylates Srp1p complexed with NLS peptides/proteins. From partial amino acid sequences of the four subunits of the purified kinase, we have now identified this protein kinase to be identical to yeast casein kinase II (CKII). It was previously thought that autophosphorylation of the 36 kDa subunit of the yeast enzyme was stimulated by the substrate,
GST
-Srp1p. However, with the use of a more refined system, no stimulation of autophosphorylation of the 36 kDa subunit of yeast CKII was observed. Biochemical and mutational analyses localized the in vitro phosphorylation site of Srp1p by CKII to serine 67. It was shown that, in the absence of NLS peptides/proteins, phosphorylation of the intact Srp1p protein is very weak, but deletion of the C-terminal end causes great stimulation of phosphorylation without NLS peptides/proteins. Thus, the CKII phosphorylation site is apparently masked in the intact protein structure by the presence of a C-terminal region, probably between amino acids 403 and 516. Binding of NLS peptides/proteins most likely causes a change in protein conformation, exposing the CKII phosphorylation site. Mutational alterations of serine 67, the CKII phosphorylation site, to valine (S67V) and
aspartic acid
(S67D) were not found to cause any significant deleterious effects on cell growth. Analysis of in vivo phosphorylation showed that at least 30% of the wild type Srp1p molecules are phosphorylated in growing cells, and that the phosphorylation is mostly at the serine 67 CKII site. The ability of Srp1p purified from E coli and treated with calf intestinal phosphatase to bind a SV40 T-antigen NLS peptide was compared with that of Srp1p which was almost fully phosphorylated by CKII. No significant difference was observed. It appears that NLS binding does not require any phosphorylation of Srp1p, either by CKII or by some other protein kinase.
...
PMID:Phosphorylation of Srp1p, the yeast nuclear localization signal receptor, in vitro and in vivo. 925 33
Nef is a membrane-associated cytoplasmic phosphoprotein that is well conserved among the different human (HIV-1 and HIV-2) and simian immunodeficiency viruses and has important roles in down-regulating the CD4 receptor and modulating T-cell signaling pathways. The ability to modulate T-cell signaling pathways suggests that Nef may physically interact with T-cell signaling proteins. In order to identify Nef binding proteins and map their site(s) of interaction, we targeted a highly conserved acidic sequence at the carboxyl-terminal region of Nef sharing striking similarity with an acidic sequence at the c-Raf1-binding site within the Ras effector region. Here, we used deletion and site-specific mutagenesis to generate mutant Nef proteins fused to bacterial
glutathione S-transferase
in in vitro precipitation assays and immunoblot analysis to map the specific interaction between the HIV-1LAI Nef and c-Raf1 to a conserved acidic sequence motif containing the core sequence Asp-Asp-X-X-X-Glu (position 174-179). Significantly, we demonstrate that substitution of the nonpolar glycine residue for either or both of the conserved negatively charged
aspartic acid
residues at positions 174 and 175 in the full-length recombinant Nef protein background completely abrogated binding of c-Raf1 in vitro. In addition, lysates from a permanent CEM T-cell line constitutively expressing the native HIV-1 Nef protein was used to coimmunoprecipitate a stable Nef-c-Raf1 complex, suggesting that molecular interactions between Nef and c-Raf1, an important downstream transducer of cell signaling through the c-Raf1-MAP kinase pathway, occur in vivo. This interaction may account for the Nef-induced perturbations of T-cell signaling and activation pathways in vitro and in vivo.
...
PMID:Binding of c-Raf1 kinase to a conserved acidic sequence within the carboxyl-terminal region of the HIV-1 Nef protein. 962 70
We have previously reported that non-activated platelets can be induced by morphological changes from the recombinant fusion protein of
GST
-rhodostomin [
GST
-RHO(RGD)], a member of disintegrin with an arginine-glycine-
aspartic acid
(RGD) motif. In this study, we further characterized the factors involved in platelet shape changes induced by rhodostomin. From less to full-spreading, four cell spreading indexes, p1, p2, s1 and s2, were designated to the platelet shape based on the scanning electron micrographs. Results of peptide competition and antibody blocking confirmed that interaction between the RGD of rhodostomin and the alpha(IIb)beta3 integrins of platelets was required for induction of a higher percentage of s2 cells. When platelets were pretreated with calphostin C, herbimycin A and cytochalasin B, respectively, the percentage of p1 and p2 cells on rhodostomin-coated plates was increased and, concomitantly, the percentage of s1 and s2 cells was decreased. Biochemical analyses indicated that the focal adhesion kinase (FAK or pp125FAK) in platelets that adhered to
GST
-RHO(RGD) was phosphorylated in contrast to little or no phosphorylation of FAK in cells adhered to fibrinogen or non-activated cells. Furthermore, the degree of FAK phosphorylation was consistently correlated with morphological changes in platelets treated with various drugs. Taking all the results together, we suggested that rhodostomin could directly bind to integrins of platelets and then trigger signal transduction leading to FAK phosphorylation and actin polymerization and finally resulting in platelet full-spreading.
...
PMID:Full-spreading platelets induced by the recombinant rhodostomin are via binding to integrins and correlated with FAK phosphorylation. 969 Jul 77
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