EC:3.2.1.23 - FACTA Search

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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)

Antibodies prepared against a human papilloma virus-1 (HPV-1) E4/beta-galactosidase fusion protein identified several polypeptides in HPV-1, but not HPV-2 or 4, induced papillomas. The major E4 protein, that represented up to 30% of total cellular protein, was a 16/17-K doublet which was purified by column chromatography and analysed for amino acid content. A peptide derived by chymotryptic digestion was purified by h.p.l.c. and subjected to amino acid sequencing. The unique sequence obtained, Gly-His-Pro-Asp-Leu-Ser-Leu, identified the 16/17-K doublet as a product of the HPV-1 E4 gene region. Antibodies to both the E4/beta-galactosidase fusion protein and the 16/17-K doublet identified two smaller polypeptides (10/11-K) which may represent spliced products of E4. We propose that the products of the HPV-1 E4 gene region are not classical DNA tumor virus early proteins and suggest that they play a role in virus maturation.
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PMID:Identification of the human papilloma virus-1a E4 gene products. 301 4

The collagen-binding domain of human fibronectin has been expressed as a cro/beta-galactosidase fusion protein in Escherichia coli. The hybrid polypeptide was recognized by an anti-(human plasma fibronectin) serum and bound specifically to gelatin-Sepharose. The collagen-binding region was subdivided by constructing a series of overlapping bacterial expression plasmids. The fusion proteins produced by these constructs were analysed for gelatin-binding activity. The results indicate that the binding site lies within an approximately 12.5 kd fragment of fibronectin, and show that the following 14 amino acid sequence is critical for gelatin-binding activity: Ala-Ala-His-Glu-Glu-Ile-Cys-Thr-Thr-Asn-Glu-Gly-Val-Met. This sequence links the second type II homology unit with the adjacent type I repeat in the amino-terminal third of the fibronectin molecule.
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PMID:Mapping the collagen-binding site of human fibronectin by expression in Escherichia coli. 302 62

Galactose appears to be the physiological inducer of the chromosomal lac operon in Klebsiella aerogenes. Both lactose and galactose are poor inducers in strains having a functional galactose catabolism (gal) operon, but both are excellent inducers in gal mutants. Thus the slow growth of K. aerogenes on lactose reflects the rapid degradation of the inducer. Several pts mutations were characterized and shown to affect both inducer exclusion and permanent catabolite repression. The beta-galactosidase of pts mutants cannot be induced at all by lactose, and pts mutants appear to have a permanent and constitutive inducer exclusion phenotype. In addition, pts mutants show a reduced rate of glucose metabolism, leading to slower growth on glucose and a reduced degree of glucose-mediated permanent catabolite repression. The crr-type pseudorevertants of pts mutations relieve the constitutive inducer exclusion for lac but do not restore the full level of glucose-mediated permanent catabolite repression and only slightly weaken the glucose-mediated inducer exclusion. Except for weakening the glucose-mediated permanent catabolite repression, pts and crr mutations have no effect on expression of the histidine utilization (hut) operons.
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PMID:Regulation of the galactose-inducible lac operon and the histidine utilization operons in pts mutants of Klebsiella aerogenes. 314 52

Glutamic acid decarboxylase (GAD;E.C. 4.1.1.15) catalyzes the production of GABA, the major inhibitory neurotransmitter in the mammalian brain. We recently isolated a lambda gt-11 recombinant, lambda-GAD, that contains the cDNA for GAD from feline brain (Kaufman et al., 1986). Interestingly, the beta-galactosidase-GAD fusion protein encoded by lambda GAD is enzymatically active, catalyzing the conversion of glutamate to CO2 and GABA. Here we report the nucleotide sequence of feline GAD cDNA. It consists of 2265 bases, with a continuous open reading frame of 625 codons. The derived sequence contains the sequence Asn-Pro-His-Lys, which is identical to sequence at the pyridoxal phosphate-binding site of porcine DOPA decarboxylase (Bossa et al., 1977). The first ATG sequence in the open reading frame begins at nucleotide residue 118. The 585 codons 3' to this putative initiation site predict an amino acid composition, N-terminal residue, and molecular size consistent with published characterizations of GAD.
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PMID:Glutamic acid decarboxylase cDNA: nucleotide sequence encoding an enzymatically active fusion protein. 345 23

Enhanced accumulation of human proinsulin synthesized in Escherichia coli has been achieved by inserting a short leader of homooligopeptide at the amino end of proinsulin. Out of 20 amino acid oligomers studied, (Ala)6, (Asn)6, (Cys)7, (Gln)7, (His)6, (Ser)6, and (Thr)6 leaders were the most effective, with the yield of proinsulin ranging between 6% and 26% of the total bacterial protein. These constructions were made by inserting a synthetic oligodeoxyribonucleotide duplex, coding for a small homooligopeptide, between a synthetic proinsulin gene and an eight-codon beta-galactosidase gene residue in vector pUC8. Cyanogen bromide cleavage of the 102 amino acid fused polypeptide yielded a species identical to authentic proinsulin, as judged by NaDodSO4/PAGE and radioimmunoassay.
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PMID:Short synthetic oligodeoxyribonucleotide leader sequences enhance accumulation of human proinsulin synthesized in Escherichia coli. 351 72

Pyridoxineless mutants of Escherichia coli B stopped incorporation of nucleosides into trichloroacetic acid-insoluble material about 40 to 60 min after pyridoxine starvation was initiated, whereas incorporation of amino acids (measured the same way) slowed but did not stop for several hours. Both these incorporations and cell density were increased most effectively by the presence of either threonine or isoleucine. Arginine, glutamate, histidine, methionine, tryptophan, and tyrosine also caused significant but less dramatic increases. Inducibility of beta-galactosidase continued beyond the point where nucleic acids appeared to stop their synthesis, suggesting that messenger ribonucleic acid synthesis continued beyond ribosomal ribonucleic acid synthesis. This inducibility was also increased by isoleucine and threonine. The overall results suggest that the threonine-isoleucine biosynthetic pathway is the most sensitive to starvation for pyridoxine.
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PMID:Isoleucine and threonine can prolong protein and ribonucleic acid synthesis in pyridoxine-starved mutants of Escherichia coli B. 456 72

The regulation of ribonucleic acid (RNA) synthesis was examined in cultures of bacteria whose growth was limited in the chemostat by the supply of a required amino acid. Strains possessing the relaxed (relA) mutation accumulated excess RNA (relative to protein) at low growth rates when growth was limited by arginine, histidine, or cysteine but not when limited by methionine. In contrast, stringent (relA(+)) strains maintained a constant RNA/protein ratio with decreasing growth rate regardless of the amino acid used to limit growth. The presence of excess RNA in relaxed strains was accompanied by an absence of increase in RNA production upon addition of chloramphenicol, a lag upon shift-up in growth by addition of excess of the limiting amino acid, and a decreased rate of production of beta-galactosidase upon induction. Analysis of the RNA accumulated in relaxed strains indicated it was present as transfer RNA as well as 50S and 30S ribosomal subunits. Microscope examination of the relaxed strains during histidine-, arginine-, or cysteine-limited growth in the chemostat showed them to be 10 to 20 times longer in size than the stringent strains. Also, cell density was reduced to one-tenth when the increased size was observed. An analysis of the amount of ppGpp present in all slow-growing amino acid-limited cultures (relaxed and stringent) demonstrated that only basal levels of ppGpp were made. These data are consistent with the hypothesis that when growth is limited in the chemostat by an initiation event in protein synthesis, i.e., limited methionine, RNA regulation occurs in relaxed as well as stringent strains. Also, when other amino acids are limiting in concentration during translation, errors occur in relaxed strains, resulting in misread proteins.
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PMID:Ribonucleic acid regulation in amino acid-limited cultures of Escherichia coli grown in a chemostat. 461 16

Adam Kepes suggested that the cellular transport and hydrolysis of orthonitrophenyl-beta-d-galactopyranoside is powered by the counterflux of the d-galactose resulting from beta-galactosidase action within the cell. His explanation would rationalize the unique insensitivity of this galactoside transport to energy poisons such as azide. But contrary to the predictions of this hypothesis, (i) there is no initial large inhibition that progressively lessens as galactose is produced. This was shown with a double wavelength stopped-flow spectrophotometer developed to eliminate interference from turbidity transients. (ii) The azide sensitivity does not increase with an external concentration of galactose sufficient to reverse the thermodynamic gradient. (iii) Mutation in galactose utilization or growth on highly catabolite-repressing regimens did not increase the azide sensitivity, and induction of galactose transport and metabolism did not decrease azide sensitivity. It was found that Kepes measurements must have contained two artifacts. One is that the control rate of hydrolysis decreases with time as the dense cell suspension becomes anaerobic. The other is that azide causes turbidity changes for some time after its introduction. If the former is avoided by magnetic stirring and the latter by double wavelength spectrophotometry or controls without substrate, the inhibition is constant from the earliest time that can be measured. It is therefore concluded that energy-unstarved cells, exposed to azide, still have adequate energy reserves to couple to the downhill transport, although their potential is not adequate to drive accumulation against a concentration gradient.
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PMID:Unimportance of counterflux in the energetics of "downhill" transport. 461 52

A kinetic study of induction of the enzymes of the lactose operon was carried out under conditions known to affect the kinetics of derepression of the enzymes of the histidine operon. The results show that the lactose system is similar to the histidine system in its responsiveness to conditions thought to affect the formylating capacity of the cell. This was demonstrated in the following ways: (i) trimethoprim, which is known to reduce the formylating capacity of the cell, gives rise to a relatively long interval between the times of induction of beta-galactosidase and transacetylase; (ii) under conditions in which the histidine operon is derepressed, chloramphenicol causes a prolongation of the interval between the times of induction of the two enzymes, and this prolongation is reversed by adenine, methionine, and serine, compounds known to enrich the one-carbon pool of the cell; and (iii) 4-amino-5-imidazolcarboxamide ribonucleoside, a compound which may act as a drain for formyl groups, reverses the effect of the latter compounds. The finding that the interval between the times of induction of the two enzymes is shortened under conditions expected to maintain a relatively high intracellular fo rmylating capacity suggests that under certain conditions translation of the polycistronic messenger ribonucleic acid of the lactose operon may be initiated at more than one site or may proceed more rapidly from the operator end.
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PMID:Kinetics of induction of the lactose operon on an episome in Samonellla typhimurium. 489 73

Tryptophan oxygenase (tryptophan 2,3-dioxygenase) activity increases immediately before the initiation of actinomycin D production by Streptomyces parvullus. We have attempted to discern whether this increase is due to a release from catabolite repression or to the synthesis of an inducer substance. The standard culture medium (glutamic acid-histidine-fructose medium) used in antibiotic production studies with S. parvullus contains l-glutamate as a major constituent. l-Glutamate is almost totally consumed before the onset of actinomycin D synthesis. The addition of 10 mM l-glutamate at this stage completely abolished actinomycin D production as well as tryptophan oxygenase synthesis. Fourteen amino acids were tested for a similar effect. Of these, l-glutamate and l-aspartate had the most dramatic effect on tryptophan oxygenase and beta-galactosidase (beta-d-galactosidase), another inducible enzyme. Standard glutamic acid-histidine-fructose medium, preincubated for 23 h to remove l-glutamate, allowed the synthesis of actinomycin D and tryptophan oxygenase by cells at a stage of growth normally considered too early for antibiotic production. A chemically defined medium lacking l-glutamate and adjusted to pH 8.0 was designed to simulate the preincubation medium. The transfer of cells to this artificial preincubation medium resulted in the appearance of tryptophan oxygenase as early as 19 h before normal synthesis occurred, eliminating the possibility that an inducer molecule is synthesized and excreted during the preincubation period. The results of these studies suggest that the increase in tryptophan oxygenase activity before the onset of actinomycin D synthesis, as well as the synthesis of actinomycin D itself, is due to a release from l-glutamate catabolite repression.
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PMID:Control of actinomycin D biosynthesis in Streptomyces parvullus: regulation of tryptophan oxygenase activity. 611 49

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