Gene/Protein Disease Symptom Drug Enzyme Compound
Pivot Concepts:   Target Concepts:
Query: EC:3.4.21.9 (enterokinase)
 675 document(s) hit in 31,850,051 MEDLINE articles (0.00 seconds)

The 54-kDa subunit of the signal recognition particle (SRP) binds nascent secretory polypeptides, binds the 7SL RNA (SRP RNA) component of SRP, and hydrolyzes GTP. Limited proteolysis of SRP 54-kDa suggests the protein has two domains, termed the G (GTP-binding) and M (methionine-rich) domains. The M domain is predicted to contain a number of amphiphilic helices, which provide a binding cleft for signal sequences. In order to obtain sufficient material for studies of relationships between structure and function, we have expressed the canine cDNA encoding the 54-kDa subunit in Escherichia coli using a T7 expression system. To aid purification, the protein was expressed with an amino-terminal extension encoding an initiating methionine and 10 histidine residues followed by an enterokinase cleavage site; 0.3mg of HIS-SRP 54-kDa was purified to give a single band on SDS-PAGE in 20% yield from 500 ml of cultured E. coli. Purified HIS-SRP 54-kDa was shown to be folded into the G and M domains, to inhibit the translocation of pre-prolactin into canine microsomes, and to bind mammalian SRP RNA only in the presence of the 19-kDa subunit of SRP.
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PMID:Expression and purification of the canine 54-kDa subunit of signal recognition particle as a his-tagged protein from Escherichia coli. 893 89

G protein-mediated pathways are fundamental mechanisms of cell signaling. In this paper, the expression and the characterization of the alphai1, alphai3, alphao1, beta1, and gamma2 subunits of the human G protein are described. This approach was developed to evaluate the G protein activation profile of new compounds. pCR-TOPO T7 vectors, engineered to contain the target sequences, were used to transform Escherichia coli competent cells. Subunits were over-expressed in a preparative scale as fusion proteins with a six-histidine tag, and subsequently purified by metal chelate chromatography. Afterward, the His-tag was removed by enterokinase digestion, and the secondary structures of the recombinant subunits were analyzed by circular dichroism. To assess the functionality of the subunits, the rate of GTP hydrolysis and GTPgammaS binding were evaluated both in the absence and in the presence of two modulators: the peptidic activator Mastoparan and the non-peptidic activator N-dodecyl-lysinamide (ML250). Tests were conducted on isolated alpha-subunit and on heterotrimeric alphabetagamma complex, alone or reconstituted in phospholipidic vesicles. Our results show that recombinant subunits are stable, properly folded and, fully active, which makes them suitable candidates for functional studies.
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PMID:Gi/o proteins: expression for direct activation enquiry. 1636 55

We have previously purified the superoxide dismutase (SOD) of Mycobacterium bovis bacillus Calmette-Guerin (BCG), and there is no signal peptide necessary for protein exportation [S.K. Kang, Y.J. Jung, C.H. Kim, C.Y. Song, Extracellular and cytosolic iron superoxide dismutase from Mycobacterium bovis BCG, Clin. Diagn. Lab. Immunol. 5 (1998) 784-789]. In the present study, SOD gene of M. bovis BCG was cloned and expressed in Escherichia coli, and its complete nucleotide sequence and deduced amino acid composition were determined. The open reading frame from the GTG initiation codon was 621 base pair (bp) in length for the SOD structural gene. The ribosomal-binding sequences (GGAAGG) were 6-12 bp upstream from the initiation codon. The amino acid sequence, deduced from the nucleotide sequence, revealed that the SOD consists of 207 amino acids residues with a molecular weight of 22.8 kDa. The N-terminal amino acid sequence predicted from the nucleotide sequence showed that the structural gene of the SOD is not preceded by leader sequences. There were no cysteine residues in the deduced amino acid composition, indicating that the SOD does not consist of disulfide bonds. Analyses of both nucleotide and amino acid sequences of the SOD showed significant similarity to other pathogenic mycobacterial SODs. Furthermore, the results of fractionation and two-dimensional electrophoresis showed that SOD is also associated with cell membrane, suggesting that there might be a specific mechanism for exportation of SOD in M. bovis BCG as well as other pathogenic mycobacteria. Overexpressed SOD in E. coli was purified from the inclusion bodies, and the histidine tag was removed from the protein using enterokinase. Enzyme activity was then determined by gel staining analysis.
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PMID:Cloning and expression of superoxide dismutase from Mycobacterium bovis BCG. 1636 56