Gene/Protein Disease Symptom Drug Enzyme Compound
Pivot Concepts: Gene/Protein Disease Symptom Drug Enzyme Compound   Target Concepts: 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)

Klebsiella strain RE1755A is a Lac- Gal- mutant which has lost both of its lac operons, but possesses a gene specifying beta-galactosidase III, an enzyme which hydrolyzes o-nitrophenyl-beta-D-galactopyranoside but does not hydrolyze lactose. Selective pressure was applied to isolate mutants able to utilize lactose. The lactose-utilizing mutants obtained were shown to possess an unaltered beta-galactosidase III. Lactose utilization was shown to result from a pleiotropic mutation which also (i) permits galactose utilization and (ii) prevents induction of beta-galactosidase III synthesis by lactose. Evidence is presented suggesting that a phospho-beta-galactosidase enzyme is involved in lactose metabolism.
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PMID:Lactose metabolism involving phospho-beta-galactosidase in Klebsiella. 11 Jul 64

Ten strains of Propionibacterium shermanii were tested for beta-galactosidase (beta-gal) activity. Of these ten strains, five yielded enhanced enzyme activity when cell suspensions were treated with toluene-acetone; on solvent treatment, the remaining five lost a considerable portion of the activity found in whole-cell suspensions. By using a strain yielding decreased activity upon solvent treatment, explanations for the loss in activity were sought through assays for possible alternative beta-galactoside utilization mechanisms. When this strain was assayed for beta-D-phosphogalactoside galactohydrolase by using orthonitrophenyl-beta-D-galactopyranoside-6-P04 as a substrate, the activity was wither lower or indiffernt as compared with beta-gal activity determined simultaneously. Cell suspensions of P. shermanii 7 and 22 (strains chosen for further work) grown separately on the individual substrates (lactose, glucose, galactose, and sodium lactate) did not show significant differences in beta-gal activity. Optimal temperature for beta-gal activity in untreated and toluene-acetone-treated cell suspensions of strain 7 was 52 C. With strain 22, of the temperatures tested, maximal activity in untreated cell suspensions was noted at 58 C and with solvent-treated cells at 32 C. In the cell-free extract (CFE) system, both strains exhibited maximal activity at 52 C. Optimal pH for untreated and solvent-treated cell suspensions of both strains was around 7.5. In the P. shermanii 22 CFE system, maximal activity occurred at pH 7.0; pH had very little effect on enzyme activity in P. shermanii 7 CFE. Sodium or potassium phosphate buffers in the assay system yielded the best activity. In the CFE system of these two strains, Mn2+ was definitely stimulatory, but in untreated and solvent-treated cell systems of these strains presence or absence of Mn2+ in the assay system had variable effects on enzyme activity. Maximal beta-gal activity was noted in P. shermanii 7 cells harvested after 28 h of growth at 32 C in sodium lactate broth. Sulfhydryl-group blocking agents inhibited enzyme activity in P. shermanii 22 CFE; the inhibition was partly reversed by dithiothreitol.
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PMID:Beta-galactosidase of Propionibacterium shermanii. 23 59

The mechanisms for transport and hydrolysis of lactose were investigated in five cariogenic strains (HS6, AHT, FA1, NCTC 10449, and SL1) representing the four serogenetic groups of Streptococcus mutans. The systems for transport and hydrolysis of lactose had the characteristics of a phosphoenolpyruvate (PEP)-dependent lactose (Lac) phosphotransferase (PT) system and phospho-beta-galactosidase (P-beta-gal), respectively, in all strains tested, except strain HS6. Decryptified cells required PEP and Mg(2+) for transport of the non-metabolizable model beta-galactosides o-nitrophenyl-beta-d-galactopyranoside (ONPG) and thiomethyl-beta-d-galactopyranoside (TMG). Substitution of 2-phosphoglycerate (2-PG) for PEP also stimulated the Lac PT system. Other potential high-energy phosphate donors (adenosine tri-, di-, and monophosphates and guanosine triphosphate) did not stimulate the Lac PT system. Sodium fluoride had no effect upon the PEP-dependent Lac PT system in decryptified cells with PEP as the energy source; however, when 2-PG was used as the energy source, F(-) inhibited ONPG phosphorylation. With intact cells which must generate PEP endogenously, the presence of F(-) in concentration >/= 10 mM completely inhibited the Lac PT system, presumably through inhibition of 2-PG hydrolyase (EC 4.2.1.11; enolase). Both intact and decryptified cells accumulated a phosphorylated derivative of TMG that behaved chromatographically as TMG-phosphate. After alkaline phosphatase treatment, the derivative had an R(f) identical to that of TMG. No beta-galactosidase (beta-gal) activity was detected with ONPG as the substrate; hydrolysis occurred only when ONPG-6-phosphate was supplied as the substrate. Strain HS6 apparently transported lactose by an active transport-type system in which the accumulated intracellular product was the free disaccharide based on the following criteria: (i) ONPG transport and hydrolysis in decryptified cells was not stimulated by PEP; (ii) ONPG hydrolysis occurred in the absence of PEP; and (iii) ONPG-6-phosphate was not hydrolyzed. These data indicate that, in all strains tested except strain HS6, lactose transport was mediated by a PEP-dependent Lac PT system, resulting in accumulation of lactose-phosphate that was hydrolyzed by an enzyme similar to the P-beta-gal of group N streptococci and Staphylococcus aureus; conversely, strain HS6 transported and hydrolyzed lactose by a PEP-independent transport system and beta-gal, respectively.
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PMID:Involvement of phosphoenolpyruvate in the catabolism of caries-conducive disaccharides by Streptococcus mutans: lactose transport. 24 29

A beta-galactosidase gene from Clostridium acetobutylicum NCIB 2951 was expressed after cloning into pSA3 and electroporation into derivatives of Lactococcus lactis subsp. lactis strains H1 and 7962. When the clostridial gene was introduced into a plasmid-free derivative of the starter-type Lact. lactis subsp. lactis strain H1, the resulting construct had high beta-galactosidase activity but utilized lactose only slightly faster than the recipient. beta-galactosidase activity in the construct decreased by over 50% if the 63 kb Lac plasmid pDI21 was also present with the beta-galactosidase gene. Growth rates of Lac+ H1 and 7962 derivatives were not affected after introduction of the clostridial beta-galactosidase, even though beta-galactosidase activity in a 7962 construct was more than double that of the wild-type strain. When pDI21 was electroporated into a plasmid-free variant of strain 7962, the recombinant had high phospho-beta-galactosidase activity and a growth rate equal to that of the H1 wild-type strain. The H1 plasmid-free strain grew slowly in T5 complex medium, utilized lactose and contained low phospho-beta-galactosidase activity. We suggest that beta-galactosidase expression can be regulated by the lactose phosphotransferase system-tagatose pathway and that Lact. lactis subsp. lactis strain H1 has an inefficient permease for lactose and contains chromosomally-encoded phospho-beta-galactosidase genes.
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PMID:Expression of a beta-galactosidase gene from Clostridium acetobutylicum in Lactococcus lactis subsp. lactis. 191 34

In this report, we demonstrate the utility of electroporation as an efficient method for genetic transformation of Leuconostoc paramesenteroides. We optimized several factors which determine the transformation frequency, resulting in transformation efficiencies of up to 4 x 10(3) transformants per micrograms of pNZ12 DNA, which contains the promiscuous Lactococcus lactis pSH71 replicon. Slightly lower efficiencies were obtained with a deletion derivative of the broad-host-range plasmid pAM beta 1. These plasmids could be stably maintained in L. paramesenteroides NZ6009 for more than 100 generations, even in the absence of selective pressure. In order to show the use of the developed host-vector system, we cloned the Lactococcus lactis gene encoding phospho-beta-galactosidase in L. paramesenteroides. Expression of this heterologous gene in L. paramesenteroides under control of Lactococcus lactis expression signals was evident from the presence, in transformants, of phospho-beta-galactosidase activity and a specific phospho-beta-galactosidase protein band on Western blots (immunoblots). In addition, we transformed a lactose-deficient derivative of L. paramesenteroides with a plasmid carrying a Lactococcus lactis-Escherichia coli lacZ gene fusion. The resulting transformants synthesized high levels of beta-galactosidase, indicating the efficiency of heterologous gene expression signals in L. paramesenteroides.
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PMID:Plasmid transformation by electroporation of Leuconostoc paramesenteroides and its use in molecular cloning. 250 8

The phospho-beta-galactosidase gene of Staphylococcus aureus was cloned in Escherichia coli. This was done by first isolating a staphylococcal transposon Tn551-induced mutant which rendered phospho-beta-galactosidase synthesis partially constitutive because of an insertion nearby this lac structural gene. This allowed selection in E. coli of chimeric plasmids which expressed the erythromycin resistance determinant of Tn551. A 26-kilobase (kb) BamHI insert in plasmid pBR322 was isolated which encoded phospho-beta-galactosidase, as determined by phospho-beta-galactosidase activity measurements. Maxicell experiments showed the presence of 56-, 13.5-, and 31-kilodalton proteins encoded by the staphylococcal DNA. The presence of the 56-kilodalton protein correlated with phospho-beta-galactosidase activity and corresponded in molecular weight to the reported value for the purified enzyme. The nature of the other proteins is unknown. Phospho-beta-galactosidase was apparently expressed in E. coli by a promoter contained within a 2.1-kb EcoRI chromosomal DNA fragment. This fragment, when inserted into a chloramphenicol acetyl transferase promoter detection plasmid, was transcriptionally active in both E. coli and Bacillus subtilis but was much more active in the latter host.
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PMID:Cloning and expression of the phospho-beta-galactosidase gene of Staphylococcus aureus in Escherichia coli. 301 32

Six Streptococcus thermophilus strains were examined for growth, acid production, and beta-galactosidase activity per milligram protein (specific activity), so that strain comparisons could be made. A wide range in activity was observed. Activity depended on growth time in M17 broth and, for most strains, continued to increase after cells had reached stationary phase. Maximum activity was at 16 h and ranged from 0 to 58 units/mg protein. Strain ST exhibited no beta-galactosidase activity but had trace phospho-beta-galactosidase activity (.8 units/mg protein after 2 h of growth). Strains 3641 and TS2B exhibited slower growth rates and lower beta-galactosidase activities in milk as compared to M17 broth. Further, strain 3641 exhibited 10 times the activity of strain TS2B (2.86 vs. .24 units) after 4 h of growth in milk.
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PMID:A comparison of beta-galactosidase specific activities in strains of Streptococcus thermophilus. 310 May 89

The mesophilic (S. lactis and S. cremoris) and thermophilic (S. thermophilus) dairy lactic streptococci, which are used in industrial dairy fermentations, contain two different lactose hydrolysing enzymes, a phospho-beta-galactosidase and a beta-galactosidase. The central role of these enzymes in the pathways used for lactose transport and degradation is discussed along with their properties and distributions in lactic streptococci. In addition, recent results on the cloning, expression and sequence organization of the genes for the mesophilic phospho-beta-galactosidase and thermophilic beta-galactosidase are reviewed. Original data are presented concerning heterologous gene expression in the study of lactose hydrolysis in lactic streptococci. These include 1) the purification of the S. lactis phospho-beta-galactosidase from an overproducing Escherichia coli, and 2) the expression of the E. coli beta-galactosidase (lacZ) gene in S. lactis employing a lactic streptococcal expression vector.
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PMID:Molecular cloning of lactose genes in dairy lactic streptococci: the phospho-beta-galactosidase and beta-galactosidase genes and their expression products. 313 67

beta-Galactosidase (beta-gal, EC 3.2.1.23) and beta-D-phosphogalactoside galactohydrolase (beta-Pgal) activities were observed in all of 13 Lactobacillus species studied except L. casei and L. buchneri. Only the latter enzyme was detected in nine strains of L. casei. The beta-gal from L. thermophilus and the beta-Pgal from L. casei were purified and characterized. In comparison with beta-gal, the beta-Pal was slightly less active (V(max) values were 28.9 and 50.0 mumoles per mg per min, respectively), but the substrate affinitives were similar (K(m) values were 1.69 x 10(-3) M and 1.59 x 10(-3) M, respectively). Although the two enzymes had similar amino acid compositions, the molecular weight of beta-gal was 5.4 x 10(5) and that of beta-Pgal was 1.3 x 10(5). The beta-gal from L. thermophilus and the beta-Pgal from L. casei had optimal temperature and pH activity values of 55 C at pH 6.2 and 37 C at pH 5.0, respectively. The complete absence of beta-gal from a homofermentative Lactobacillus species of industrial importance is further evidence of the heterogeneity of this genus.
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PMID:Lactose-hydrolyzing enzymes of Lactobacillus species. 505 73

Streptococcus lactis 7962, which ferments lactose slowly, has a lactose phosphoenolpyruvate-dependent phosphotransferase system and low phospho-beta-galactosidase activity, in addition to high beta-galactosidase activity. Lactose 6'-phosphate accumulated to a high concentration (greater than 100 mM) in cells growing on lactose. In contrast, lactic streptococci, which ferment lactose rapidly and use only the lactose-phosphotransferase system for uptake, contained high phospho-beta-galactosidase activity and low concentrations (0.9 to 1.6 mM) of lactose 6'-phosphate. It is concluded that rate-limiting phospho-beta-galactosidase activity is primarily responsible for defective lactose metabolism in S. lactis 7962.
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PMID:Properties of a Streptococcus lactis strain that ferments lactose slowly. 641 19


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