Gene/Protein Disease Symptom Drug Enzyme Compound
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Query: EC:3.2.1.20 (alpha-glucosidase)
 4,237 document(s) hit in 31,850,051 MEDLINE articles (0.00 seconds)

alpha-Glucosidase from yeast is inactivated rapidly at temperatures above 42 degrees C. The thermal inactivation is accompanied by aggregation. The molecular chaperone GroEL suppresses the formation of aggregates by binding the thermally inactivated alpha-glucosidase. Spectroscopic studies suggest that GroEL binds alpha-glucosidase in an intermediately folded state. The complex between alpha-glucosidase and GroEL can be dissolved by MgATP. GroES accelerates the MgATP-dependent dissociation of the alpha-glucosidase-GroEL complex. At elevated temperatures this release leads to the formation of aggregates, while at lower temperatures native, enzymatically active molecules are formed.
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PMID:Reconstitution of a heat shock effect in vitro: influence of GroE on the thermal aggregation of alpha-glucosidase from yeast. 175 84

The groEL gene of the alkaliphilic Bacillus sp. strain C-125 was cloned in Escherichia coli and sequenced. The groEL gene encoded a polypeptide of 544 amino acids and was preceded by the incomplete groES gene, lacking its 5'-end. The sequence of the derived amino acids was 87.5% identical to that of B. subtilis, 85.4% identical to that of B. stearothemophilus, and 60.9% identical to that of E. coli. The GroEL protein was expressed in E. coli. Purified GroEL protected yeast alpha-glucosidase from irreversible aggregation at a high temperature and the addition of Mg-ATP was essential for reactivation of the alpha-glucosidase. The addition of E. coli GroES increased recovery of the enzyme activity, indicating that C-125 GroEL could function in coordination with E. coli GroES.
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PMID:Molecular cloning and nucleotide sequence of the groEL gene from the alkaliphilic Bacillus sp. strain C-125 and reactivation of thermally inactivated alpha-glucosidase by recombinant GroEL. 898 60

We have purified to apparent homogeneity and characterized a molecular chaperonin GroEL homologue (hpGroEL) from a moderately halophilic eubacterium, Pseudomonas sp. #43. Although this halophilic bacterium requires 1-2 M NaCl for growth, hpGroEL did not require a high concentration of salt for its stability, ATPase activity and refold-promoting activity for denatured protein. The ATPase activity was even more halo-sensitive than that of GroEL from Escherichia coli. The hpGroEL protein promotes Mg(2+)-ATP-dependent refolding of urea-denatured alpha-glucosidase in the presence of E. coli-GroES, indicating that chaperonins 60 and 10 isolated from halophilic and nonhalophilic eubacteria, respectively, can cooperate with each other.
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PMID:Purification and characterization of a GroEL homologue from the moderately eubacterial halophile Pseudomonas sp. #43. 923 26

To improve the production of oligo-1,6-glucosidase from the obligately thermophilic Bacillus thermoglucosidasius KP1006 in Escherichia coli, the combined expression of oligo-1,6-glucosidase with various chaperone proteins of Hsp (heat-shock protein) 60 team proteins (GroES and GroEL) or Hsp70 team proteins (GrpE, DnaK and DnaJ) from the same thermophile was examined. This attempt was based on the facts that, (i) among glycosyl hydrolases of Family 13, bacillary oligo-1,6-glucosidases share highest homology with yeast alpha-glucosidase, and (ii) this yeast enzyme interacts with GroEL. In B. thermoglucosidasius Hsp60 team proteins, in particular, GroEL brought about a remarkable rise in expression of B. thermoglucosidasius oligo-1,6-glucosidase, while Hsp70 team proteins had no significant effect. The effect of B. thermoglucosidasius GroEL on oligo-1,6-glucosidase expression was supported by the finding that thermally inactivated B. thermoglucosidasius oligo-1,6-glucosidase was revived by B. thermoglucosidasius GroEL. Although the molecular mass of B. thermoglucosidasius oligo-1,6-glucosidase (66 kDa) exceeds the major range of substrates for GroEL proteins, the GroEL molecules probably recognized the alpha/beta motifs contained in the N-terminal domain and the subdomain of the oligo-1,6-glucosidase. Here we show that (i) the production of B. thermoglucosidasius oligo-1,6-glucosidase in E. coli was improved 3.8-fold by Hsp60 team proteins, (ii) the system can function for the expression of other glycosyl hydrolases of Family 13 that have defects in expression and (iii) the combinatorial expression of thermostable proteins with GroEL from the same thermophile in E. coli can increase the production of thermostable enzymes, preventing problems derived from differences in protein biogenesis.
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PMID:Oligo-1,6-glucosidase from a thermophile, Bacillus thermoglucosidasius KP1006, was efficiently produced by combinatorial expression of GroEL in Escherichia coli. 1183 28

Genome analysis of Lactobacillus johnsonii NCC533 has been recently completed. One of its annotated genes, lj0569, encodes the protein having the conserved domain of glycoside hydrolase family 31. Its homolog gene (ljag31) in L. johnsonii NBRC13952 was cloned and expressed using an Escherichia coli expression system, resulting in poor production of recombinant LJAG31 protein due to inclusion body formation. Production of soluble recombinant LJAG31 was improved with high concentration of NaCl in medium, possible endogenous chaperone induction by benzyl alcohol, and over-expression of GroES-GroEL chaperones. Recombinant LJAG31 was an alpha-glucosidase with broad substrate specificity toward both homogeneous and heterogeneous substrates. This enzyme displayed higher specificity (in terms of k(cat)/K(m)) toward nigerose, maltulose, and kojibiose than other natural substrates having an alpha-glucosidic linkage at the non-reducing end, which suggests that these sugars are candidates for prebiotics contributing to the growth of L. johnsonii. To our knowledge, LJAG31 is the first bacterial alpha-1,3-glucosidase to be characterized with a high k(cat)/K(m) value for nigerose [alpha-d-Glcp-(1 --> 3)-d-Glcp]. Transglucosylation of 4-nitrophenyl alpha-d-glucopyranoside produced two 4-nitrophenyl disaccharides (4-nitrophenyl alpha-nigeroside and 4-nitrophenyl alpha-isomaltoside). These hydrolysis and transglucosylation properties of LJAG31 are different from those of mold (Acremonium implicatum) alpha-1,3-glucosidase of glycoside hydrolase family 31.
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PMID:The first alpha-1,3-glucosidase from bacterial origin belonging to glycoside hydrolase family 31. 1968 32