Gene/Protein Disease Symptom Drug Enzyme Compound
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Query: EC:3.2.1.23 (beta-galactosidase)
 14,648 document(s) hit in 31,850,051 MEDLINE articles (0.00 seconds)

To obtain silica supports for high-performance affinity chromatography, a method of preparing CNBr-activated diol-silica under anhydrous conditions was developed. Activation of the silane-derived hydroxyls with cyanogen bromide and triethylamine was optimized and demonstrated to efficiently couple several amino ligands (tryptophan, 6-aminohexyl-Cibacron Blue, and DNA). Sonication and vacuum degassing, a procedure used to remove air from the silica beads, increased activation. Coupling of an amino ligand under slightly basic conditions (pH 8.0) gave the highest yield. The linkage between the immobilized ligands and silica was stable from pH 2-10. Anhydrous acetone was the most effective solvent for activation but dimethylformamide and 2-propanol were also good choices. The high-performance affinity chromatography columns obtained by coupling sequence-specific DNA binding sequences for Lac repressor-beta-galactosidase fusion protein were compared to affinity columns obtained by coupling the same DNA element to Sepharose beads; 5 microm silica gave the best performance.
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PMID:Cyanogen bromide activation and coupling of ligands to diol-containing silica for high-performance affinity chromatography optimization of conditions. 1235 Jan 29

The tryptophan repeat motif of the human immunodeficiency virus type-1 (HIV-1) reverse transcriptase (RT) is comprised of a cluster of six tryptophan residues at codons 398, 401, 402, 406, 410 and 414 that are highly conserved amongst primate lentiviral RTs. To determine the contributions of each of these residues for HIV-1 RT dimerization, we introduced changes into cloned DNA and tested the mutant subunits for their capacity to mediate heterodimerization in the yeast two-hybrid system. Changes of residue 401 to either leucine or alanine (but not phenylalanine) and residue 414 to leucine resulted in major reductions in beta-galactosidase activity produced from the reporter gene as compared to yeast expressing wild-type p66 bait and p51 prey fusions. Subunit selective mutagenesis revealed that the effect of these mutations was mediated mainly through the p66 subunit. Introduction of tryptophan mutants into the bacterial expression vector pRT6H/NB-PROT showed that RTs containing W401A or W401L substitutions (but not W401F) and W414L were defective for dimerization in vitro. Consistent with their dimerization defect, the W401A, W401L and W414L mutants were devoid of RT activity. Using the yeast two-hybrid system, we identified several second-site suppressors in p66 that restored interaction of the p66W401A bait to the p51W401A prey. The suppressors (T409I, D110G, V372A and I393M) also restored heterodimerization of bacterially expressed W401A subunits. When introduced into the W401A mutant, T409I was able to restore RT activity to 50% of the wild-type level. Examination of the RT structures revealed that K331 in p51 makes multiple hydrogen bond contacts with residues in the p66 loop spanned by W401 and W414. Consistent with this observation, the K331A RT mutant was dimerization-defective. We conclude that mutations at codons 401 and 414 in p66 impair dimerization by altering the proper positioning of structural elements in between these residues that make important contacts with p51.
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PMID:Role of residues in the tryptophan repeat motif for HIV-1 reverse transcriptase dimerization. 1255 8

In this study, the taxonomic positions of 19 Vibrio isolates disclosed in a previous study were evaluated. Phylogenetic analysis based on 16S rDNA sequences partitioned these isolates into groups that were closely related (98.8-99.1 % similarity) to Vibrio pelagius and Vibrio xuii, respectively. DNA-DNA hybridization experiments further showed that these groups had <70 % similarity to other Vibrio species. Two novel Vibrio species are proposed to accommodate these groups: Vibrio fortis sp. nov. (type strain, LMG 21557(T)=CAIM 629(T)) and Vibrio hepatarius sp. nov. (type strain, LMG 20362(T)=CAIM 693(T)). The DNA G+C content of both novel species is 45.6 mol%. Useful phenotypic features for discriminating V. fortis and V. hepatarius from other Vibrio species include production of indole and acetoin, utilization of cellobiose, fermentation of amygdalin, melibiose and mannitol, beta-galactosidase and tryptophan deaminase activities and fatty acid composition.
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PMID:Vibrio fortis sp. nov. and Vibrio hepatarius sp. nov., isolated from aquatic animals and the marine environment. 1313 38

Pep-1 is a tryptophane-rich cell-penetrating peptide (CPP) that has been previously proposed to bind protein cargoes by hydrophobic assembly and translocate them across cellular membranes. To date, however, the molecular mechanisms responsible for cargo binding and translocation have not been clearly identified. This study was conducted to gain insight into the interaction between Pep-1 with its cargo and the biological membrane to identify the thereby involved structural elements crucial for translocation. We studied three peptides differing in their N- and C-termini: (i) Pep-1, carrying an acetylated N-terminus and a C-terminal cysteamine elongation, (ii) AcPepWAmide, with an acetylated N-terminus and an amidated C-terminus, and (iii) PepW, with two free termini. Thioredoxin (TRX) and beta-galactosidase were used as protein cargoes. To study CPP-membrane interactions, we performed biophysical as well as biological assays. To mimic biological membranes, we used phospholipid liposomes in a dye leakage assay and surfactant micelles for high-resolution NMR studies. In addition, membrane integrity, cell viability, and translocation efficiency were analyzed in HeLa cells. An alpha-helical structure was found for all peptides in the hydrophobic N-terminal region encompassing residues 4-13, whereas the hydrophilic region remained unstructured in the presence of micelles. Our results show that the investigated peptides interacted with the micelles as well as with the protein cargo via their tryptophan-rich domain. All peptides displayed an orientation parallel to the micelle surface. The C-terminal cysteamine group formed an additional membrane anchor, leading to more efficient translocation properties in cells. No membrane permeabilization was observed, and our data were largely compatible with an endocytic pathway for cellular uptake.
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PMID:Biophysical and biological studies of end-group-modified derivatives of Pep-1. 1631 83

The previous report from our laboratory has recently identified a new trpE gene (termed trpE2) which exists independently in Azospirillum brasilense Yu62. In this study, amplification of trpE(G) (termed trpE1(G) here) confirmed that there are two copies of trpE gene, one trpE being fused into trpG while the other trpE existed independently. This is the first report to suggest that two copies of the trpE gene exist in this bacterium. Comparison of the nucleotide sequence demonstrated that putative leader peptide, terminator, and anti-terminator were found upstream of trpE1(G) while these sequence features did not exist in front of trpE2. The beta-galactosidase activity of an A. brasilense strain carrying a trpE2-lacZ fusion remained constant at different tryptophan concentrations, but the beta-galactosidase activity of the same strain carrying a trpE1(G)-lacZ fusion decreased as the tryptophan concentration increased. These data suggest that the expression of trpE1(G) is regulated at the transcriptional level by attenuation while trpE2 is constantly expressed. The anthranilate synthase assays with trpE1(G)- and trpE2- mutants demonstrated that TrpE1(G) fusion protein is feedback inhibited by tryptophan while TrpE2 protein is not. We also found that both trpE1(G) and trpE2 gene products were involved in IAA synthesis.
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PMID:Characterization of two trpE genes encoding anthranilate synthase alpha-subunit in Azospirillum brasilense. 1643 Aug 64

We present the detection of single beta-galactosidase molecules from Escherichia coli (Ecbeta Gal) using deep UV laser-based fluorescence lifetime microscopy. The native fluorescence from intrinsic tryptophan emission has been observed after one-photon excitation at 266 nm. Applying the time-resolved single-photon counting method, we investigated the fluorescence lifetime distribution and the bursts of autofluorescence photons from tryptophan residues in Ecbeta Gal protein as well as fluorescence correlation spectroscopy of Ecbeta Gal. The results demonstrate that deep UV laser-based fluorescence lifetime microscopy is useful for identification of biological macromolecules at the single-molecule level using intrinsic fluorescence.
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PMID:Label-free detection of single protein molecules using deep UV fluorescence lifetime microscopy. 1661 86

We present a label-free detection of protein interaction between beta-galactosidase from Escherichia coli (Ecbeta-Gal) and monoclonal anti-Ecbeta-Gal using deep UV laser-based fluorescence lifetime microscopy. The native fluorescence from intrinsic tryptophan emission was observed after one-photon excitation at 266 nm. Applying the time-correlated single-photon counting (TCSPC) method, we investigated the mean fluorescence lifetime and lifetime distributions from tryptophan residues in Ecbeta-Gal protein, monoclonal anti-Ecbeta-Gal, and corresponding complex. The results demonstrate that deep UV laser-based fluorescence lifetime microscopy is useful for sensitive identification of biological macromolecules interaction using intrinsic fluorescence.
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PMID:Label-free detection of protein interactions using deep UV fluorescence lifetime microscopy. 1755 49

beta-Galactosidase (EC: 3.2.1.23), one of the glycosidases detected in Erythrina indica seeds, was purified to 135 fold. Amongst the four major glycosidases detected beta-galactosidase was found to be least glycosylated, and was not retained by Con-A CL Seralose affinity matrix. A homogenous preparation of the enzyme was obtained by ion-exchange chromatography, followed by gel filtration. The enzyme was found to be a dimmer with a molecular weight of 74 kDa and 78 kDa, by gel filtration and SDS-PAGE, respectively. The optimum pH and optimum temperature for enzyme activity were 4.4 and 50 degrees C, respectively. The enzyme showed a K(m) value of 2.6 mM and V(max) of 3.86 U/mg for p-nitrophenyl-beta-D-galactopyranoside as substrate and was inhibited by Zn(2+) and Hg(2+). The enzyme activity was regulated by feed back inhibition as it was found to be inhibited by beta-D-galactose. Chemical modification studies revealed involvement of tryptophan and histidine for enzyme activity. Involvement of tryptophan was also supported by fluorescence studies and one tryptophan was found to be present in the active site of beta-galactosidase. Circular dichroism studies revealed 37% alpha helix, 27% beta sheet and 38% random coil in the secondary structure of the purified enzyme.
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PMID:Purification of beta-galactosidase from Erythrina indica: involvement of tryptophan in active site. 1776 89

A mutagenesis approach was applied to the beta-galactosidase BgaB from Geobacillus stearothermophilus KVE39 in order to improve its enzymatic transglycosylation of lactose into oligosaccharides. A simple screening strategy, which was based on the reduction of the hydrolysis of a potential transglycosylation product (lactosucrose), provided mutant enzymes possessing improved synthetic properties for the autocondensation product from nitrophenyl-galactoside and galacto-oligosaccharides (GOS) from lactose. The effects of the mutations on enzyme activity and kinetics were determined. An change of one arginine to lysine (R109K) increased the oligosaccharide yield compared to that for the wild-type BgaB. Subsequently, saturation mutagenesis at this position demonstrated that valine and tryptophan further increased the transglycosylation performance of BgaB. During the transglycosylation reaction with lactose of the evolved beta-galactosidases, a major trisaccharide was formed. Its structure was characterized as beta-D-galactopyranosyl-(1-->3)-beta-D-galactopyranosyl-(1-->4)-D-glucopyranoside (3'-galactosyl-lactose). At the lactose concentration of 18% (wt/vol), this trisaccharide was obtained in yields of 11.5% (wt/wt) with GP21 (BgaB R109K), 21% with GP637.2 (BgaB R109V), and only 2% with the wild-type BgaB enzyme. GP643.3 (BgaB R109W) was shown to be the most efficient mutant, with a 3'-galactosyl-lactose production of 23%.
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PMID:Evolved beta-galactosidases from Geobacillus stearothermophilus with improved transgalactosylation yield for galacto-oligosaccharide production. 1966 23


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