EC:2.5.1.18 - FACTA Search

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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)

We here presented evidence that a 94-kDa glucose-regulated protein (GRP94) was associated with hepatitis B viral (HBV) polymerase in the human liver cell HepG2 and this association could be applied even in Escherichia coli. We investigated the role of GRP94 in the expression and stabilization of HBV polymerase in Escherichia coli by coexpression of the two proteins. The affinity column-purified glutathione S-transferase-tagged HBV polymerase (GST-P, 130 kDa) showed a proper molecular size and reverse transcriptase activity on several exogenous templates and was sensitive to specific inhibitors. The GST-P was associated with the maltose-binding protein-tagged GRP94 (MBP-GRP94, 130 kDa) using analyses by an affinity chromatography, native gel electrophoresis and glycerol gradient centrifugation. However, nondenaturing and partially denaturing activity gel analyses showed two active bands of approximately 260 kDa and approximately 130 kDa, respectively. Furthermore, in the presence of the encapsidation signal RNA template (HBV epsilon RNA), the approximately 260-kDa active band was gradually converted to approximately 130 kDa, which implies that HBV polymerase was dissociated from the chaperone GRP94 and bound preferentially to the HBV epsilon RNA. These results suggested that the chaperone GRP94 was necessary for the stabilization and production of HBV polymerase as an active form.
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PMID:Expression of stable hepatitis B viral polymerase associated with GRP94 in E. coli. 1096 39

Kcc4, a kinase of the budding yeast Saccharomyces cerevisiae, is homologous to the bud neck protein kinases Hsl1/Nik1 and Gin4. We report here that a GFP-Kcc4 fusion protein is localized at the bud neck and that the non-kinase domain is required for this localization. We also demonstrate that Kcc4 associates with septin proteins in vitro and in vivo by two-hybrid analysis, GST pull-down experiments, immunoprecipitation, and analysis of direct association with affinity-purified GST-Kcc4 and MBP-Septin proteins. From the results obtained here, we suggest that Cdc11 is the primary association partner of Kcc4.
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PMID:Kcc4 associates with septin proteins of Saccharomyces cerevisiae. 1116 49

We have previously reported on the cloning of the 14-3-3 protein of Schistosoma mansoni. Here, we evaluate the potential use of this protein as a vaccine candidate against infection by S. mansoni. Sm14-3-3 was expressed and purified either as a free protein or as a fusion protein to SjGST or MBP. Sera from mice infected with S. mansoni recognized both SjGST and 14-3-3, indicating that antibodies against these two proteins are induced in the course of the natural infection. Furthermore, mice immunized with either 14-3-3, GST or 14-3-3-GST, reacted with cercaria lysate. A cellular immune response was also detected, particularly in mice immunized with 14-3-3-GST. With respect to the effect on biological functions, antibodies to 14-3-3 and 14-3-3-GST caused 23-32% complement-mediated cytotoxcity of S. mansoni schistosomula compared to only 10-11% induced by either normal mouse serum, or GST alone. In challenge infection with S. mansoni, immunization with 14-3-3, either as a fusion protein or as a free protein, led to protection ranging from 25-46%, as determined by reduction of adult worm burden, while SjGST alone elicited only 0-8% protection and MBP alone did not elicit any protection.
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PMID:The 14-3-3 protein as a vaccine candidate against schistosomiasis. 1129 98

To identify antigens that would improve the accuracy of serological diagnosis of active tuberculosis, we cloned the genes encoding nine potentially immunogenic secreted or surface-associated proteins of Mycobacterium tuberculosis. Recombinant proteins were reacted with sera from HIV-negative individuals with extrapulmonary tuberculosis (EP-TB) or HIV-positive individuals with pulmonary tuberculosis (TBH). Specific and high level antibody responses were obtained for four recombinant proteins, of which antigen GST-822 was recognized by 60% of EP-TB and 42% of TBH and antigen MBP-506 was recognized by 45% of EP-TB and 61% of TBH. These results suggest that these proteins are strong candidates as subunits in a polyvalent serodiagnostic test.
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PMID:Assessment of the serodiagnostic potential of nine novel proteins from Mycobacterium tuberculosis. 1132 50

Protein-fusion constructs have been used with great success for enhancing expression of soluble recombinant protein and as tags for affinity purification. Unfortunately the most popular tags, such as GST and MBP, are large, which hinders direct NMR studies of the fusion proteins. Cleavage of the fusion proteins often re-introduces problems with solubility and stability. Here we describe the use of N-terminally fused protein G (B1 domain) as a non-cleavable solubility-enhancement tag (SET) for structure determination of a dimeric protein complex. The SET enhances the solubility and stability of the fusion product dramatically while not interacting directly with the protein of interest. This approach can be used for structural characterization of poorly behaving protein systems, and would be especially useful for structural genomics studies.
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PMID:A solubility-enhancement tag (SET) for NMR studies of poorly behaving proteins. 1143 Jul 50

Vascular endothelial growth factor receptor 1 (Flt1) plays an important role in angiogenesis. It was hypothesized that, upon binding to VEGF, Flt1 tyrosine kinase underwent dimerization and initiated the signal transduction in VEGF/VEGF receptor system. In this report, a soluble active Flt1 tyrosine kinase domain expressed in E. coli was obtained, and its properties were partly characterized. The cDNA of Flt1 tyrosine kinase domain was obtained from the total RNA extracted from human liver cancer tissues by using RT-PCR, and was cloned to vector pGEX-KG. A soluble active GST-fusion protein of Flt1 tyrosine kinase domain (GST-F) was obtained from E. coli BL21 (DE3) pLysS. Although it was reported that GST-F contains no phosphorylation site, it did autophosphorylate in vitro. Mg2+ and Mn2+ were essential for the activity. It was also found that GST-F phosphorylated a synthesized substrate PolyE4Y, but not MBP and Src-related-peptide. The optimal Mg2+ and Mn2+ concentration for polyE4Y phosphorylation was 15 mmol/L and 0.5 mmol/L, respectively. This work is helpful for developing the new anti-cancer drugs.
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PMID:[Cloning, expression and characterization of human vascular endothelial growth factor receptor 1 tyrosine kinase]. 1195 32

In this study different forms of the hepatitis C virus (HCV) NS5A protein, including a nearly full-length, an amino-terminal and a carboxy-terminal truncated form were produced in E. coli as fusion proteins with the MBP or the GST protein. The chimeric proteins were tested for their reactivity with sera from HCV infected patients by immunoblot and ELISA assays. A panel of 110 sera specimens, including 39 HCV-positive sera, 27 sera from patients with non-HCV-associated liver disease and 44 healthy individuals were analyzed for the presence of antibodies to NS5A. Twenty four (61 %) out of the 39 HCV positive sera, showed reactivity against the nearly full length NS5A, 21 (54 %) against the amino-terminal part of NS5A and 20 (51 %) against the carboxy-terminal part of the NS5A protein in immunoblot assays, suggesting that immunoreactive epitopes are present both at the carboxy- and the amino- terminal part of the protein. None of the 71 HCV-negative serum samples showed any reactivity against the NS5A antigens. With the exception of one patient, similar data were obtained with an ELISA assay based on the use of the nearly full-length NS5A antigen. The data indicate that new forms of NS5A may be potentially valuable antigens for the development of serological assays for HCV.
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PMID:Expression of immunoreactive forms of the hepatitis C NS5A protein in E. coli and their use for diagnostic assays. 1220 13

The factors that organize the internal membranes of cells are still poorly understood. We have been addressing this question using striated muscle cells, which have regular arrays of membranes that associate with the contractile apparatus in stereotypic patterns. Here we examine links between contractile structures and the sarcoplasmic reticulum (SR) established by small ankyrin 1 (sAnk1), a approximately 17.5-kDa integral protein of network SR. We used yeast two-hybrid to identify obscurin, a giant Rho-GEF protein, as the major cytoplasmic ligand for sAnk1. The binding of obscurin to the cytoplasmic sequence of sAnk1 is mediated by a sequence of obscurin that is C-terminal to its last Ig-like domain. Binding was confirmed in two in vitro assays. In one, GST-obscurin, bound to glutathione-matrix, specifically adsorbed native sAnk1 from muscle homogenates. In the second, MBP-obscurin bound recombinant GST-sAnk1 in nitrocellulose blots. Kinetic studies using surface plasmon resonance yielded a K(D) = 130 nM. On subcellular fractionation, obscurin was concentrated in the myofibrillar fraction, consistent with its identification as sarcomeric protein. Nevertheless, obscurin, like sAnk1, concentrated around Z-disks and M-lines of striated muscle. Our findings suggest that obscurin binds sAnk1, and are the first to document a specific and direct interaction between proteins of the sarcomere and the SR.
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PMID:Obscurin is a ligand for small ankyrin 1 in skeletal muscle. 1263 29

Receptor for activated C-kinase (RACK1) binds to protein kinase C and functions as an anchor for several other cellular components. Most in vitro studies of RACK1 have been carried out with RACK1 fused to a soluble fusion protein partner, such as GST or MBP. Here, we show that fusion complexes may exist as large soluble aggregates and thereby lead to false conclusions about the biological activity of RACK1. We developed a purification procedure that gave soluble monodisperse molecules of the protein. The RACK1 gene was cloned and expressed in a pMAL vector. After purification of the resulting MBP-RACK1 fusion protein, RACK1 was excised from MBP by thrombin, rendering RACK1 in a soluble monodisperse form as monitored by fluorimetric static light scattering, gel filtration, and ultracentrifugation. Circular dichroism analysis revealed that RACK1 was properly folded with a T(m) of approximately 62 degrees C and contained the predicted portions of secondary structures. The biological activity of the purified protein was verified by binding to activated protein kinase C. The production of soluble, high-purity RACK1 will allow structural studies and functional in vitro studies to identify interacting partners to this important scaffold protein.
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PMID:Expression and purification of receptor for activated C-kinase 1 (RACK1). 1296 40

Gating of the CFTR Cl- channel is associated with ATP hydrolysis at the nucleotide-binding domains (NBD1, NBD2) and requires PKA (protein kinase A) phosphorylation of the R domain. The manner in which the NBD1, NBD2 and R domains of CFTR (cystic fibrosis transmembrane conductance regulator) interact to achieve a properly regulated ion channel is largely unknown. In this study we used bacterially expressed recombinant proteins to examine interactions between these soluble domains of CFTR in vitro. PKA phosphorylated a fusion protein containing NBD1 and R (NBD1-R-GST) on CFTR residues Ser-660, Ser-700, Ser-712, Ser-737, Ser-768, Ser-795 and Ser-813. Phosphorylation of these serine residues regulated ATP hydrolysis by NBD1-R-GST by increasing the apparent K(m) for ATP (from 70 to 250 microM) and the Hill coefficient (from 1 to 1.7) without changing the V(max). When fusion proteins were photolabelled with 8-azido-[alpha-32P]ATP, PKA phosphorylation increased the apparent k(d) for nucleotide binding and it caused binding to become co-operative. PKA phosphorylation also resulted in dimerization of NBD1-R-GST but not of R-GST, a related fusion protein lacking the NBD1 domain. Finally, an MBP (maltose-binding protein) fusion protein containing the NBD2 domain (NBD2-MBP) associated with and regulated the ATPase activity of PKA-phosphorylated NBD1-R-GST. Thus when the R domain in NBD1-R-GST is phosphorylated by PKA, ATP binding and hydrolysis becomes co-operative and NBD dimerization occurs. These findings suggest that during the activation of native CFTR, phosphorylation of the R domain by PKA can control the ability of the NBD1 domain to hydrolyse ATP and to interact with other NBD domains.
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PMID:Protein kinase A regulates ATP hydrolysis and dimerization by a CFTR (cystic fibrosis transmembrane conductance regulator) domain. 1460 47

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