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)

The ATP-dependent Clp protease of Escherichia coli contains two dissimilar components: the Clp A regulatory polypeptide, with two ATP binding sites and intrinsic ATPase activity, and the Clp P subunit, which contains the proteolytic active site. The DNA sequence of the clpP gene predicts a protein of 207 amino acids (Mr 21,679), which is in close agreement with the size determined by sodium dodecyl sulfate-gel electrophoresis of purified Clp P. Clp P has a native Mr of approximately 240,000, and electron micrographs of the protein show superimposed disk-like structures with a central cavity, similar in appearance to purified proteasomes from eukaryotic cells. Clp P is synthesized with a 14-amino acid leader which is rapidly cleaved in vivo to yield the 193-amino acid protein which has activity in vitro. The clpP gene is at 10 min on the E. coli map, close to that for the ATP-dependent Lon protease of E. coli and far from the gene for clpA. Primer extension experiments indicate that transcription initiates immediately upstream of the coding region for Clp P, with a major transcription start at 120 bases in front of the start of translation. Insertion mutations in clpP have been isolated and transferred to the chromosome; strains devoid of Clp P are viable in the presence or absence of Lon protease. Mutations in clpP stabilize the same Clp A-beta-galactosidase fusion protein specifically stabilized by clpA mutations, providing the first genetic evidence that Clp A and Clp P act together in vivo.
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PMID:Sequence and structure of Clp P, the proteolytic component of the ATP-dependent Clp protease of Escherichia coli. 219 75

Bactenecins are a class of arginine-rich antibacterial peptides of bovine neutrophil granules. Two bactenecins with approximate molecular weights of 5,000 and 7,000 designated Bac5 and Bac7, respectively, exert in vitro a potent bactericidal activity toward several gram-negative bacteria (R. Gennaro, B. Skerlavaj, and D. Romeo, Infect. Immun. 57:3142-3146, 1989). We have now found that this activity shows an inverse relationship to the ionic strength of the medium and is inhibited by divalent cations and greatly potentiated by lactoferrin. Under conditions supporting marked bactericidal activity, the two peptides cause a rapid increase in the permeability of both the outer and inner membranes of Escherichia coli, as shown by unmasking of periplasmic beta-lactamase and of cytoplasmic beta-galactosidase. In addition, the two bactenecins inhibit the respiration of E. coli and Klebsiella pneumoniae but not of Bac5- and Bac7-resistant Staphylococcus aureus. Furthermore, they induce a drop in ATP content in E. coli, K. pneumoniae, and Salmonella typhimurium and a marked decrease in the rates of transport and incorporation of [3H]leucine and [3H]uridine into E. coli protein and RNA, respectively. In general, all these effects become evident within 1 to 2 min and reach their maximal expression within about 5 min. Overall, these data strongly suggest that the decrease in bacterial viability is causally related to the increase in membrane permeability and the subsequent fall in respiration-linked proton motive force, with the attendant loss of cellular metabolites and macromolecular biosynthesis ability.
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PMID:Rapid membrane permeabilization and inhibition of vital functions of gram-negative bacteria by bactenecins. 222 43

Transcription of the genes in the phosphate regulon in Escherichia coli is activated by PhoB protein, which is phosphorylated by PhoR protein under phosphate-limiting conditions. In the absence of the phoR function, the genes in the phosphate regulon are expressed constitutively and the expression is dependent on the function of phoM and phoB. We constructed a plasmid with a lacZ'-'phoM fusion gene, which encoded a hybrid protein (PhoM1206) in which the hydrophobic amino-terminal half of the native PhoM was replaced by beta-galactosidase. The phoM1206 gene could complement the phoM mutation in vivo. We purified PhoM1206 from the overproducing strain carrying the plasmid; it was autophosphorylated at a histidine residue in the presence of ATP, and the phospho-PhoM1206 phosphorylated PhoB. PhoM1206 could also transphosphorylate the product of phoM-orf2, which is structurally homologous to phoB and located immediately upstream of phoM. Although PhoR1084 that lacked the hydrophobic amino-terminal region of the native PhoR protein transphosphorylated PhoB, it could not phosphorylate PhoM-open reading frame 2. Therefore, cross talk by protein phosphorylation appears to occur from PhoM to PhoB but not from PhoR to PhoM-open reading frame 2.
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PMID:Cross talk to the phosphate regulon of Escherichia coli by PhoM protein: PhoM is a histidine protein kinase and catalyzes phosphorylation of PhoB and PhoM-open reading frame 2. 222 61

A cDNA clone coding for an internal fragment of slow-cardiac beta-myosin heavy chain was isolated from a lambda gt10 human skeletal muscle library. Six overlapping cDNA subclones, which span myosin heavy chain subregions and presumably interact with actin, were derived from this clone, fused to a beta-galactosidase vector and expressed in Escherichia coli. Three of the subclones were obtained by PCR (polymerase chain reaction) which enables gene or cDNA fragments to be amplified independently of preexisting restriction sites. Initially, various experiments were carried out using a long MHC (myosin heavy chain) fusion protein containing the 50 kDa-20 kDa connecting region, the whole 20 kDa region and the short subfragment 2 region. This MHC fusion protein was chemically or proteolytically cleaved in the same conditions as the native myosin molecule. Whole and truncated forms of the MHC fusion protein were separated on polyacrylamide gels, electroblotted on nitrocellulose sheets and renatured. They were then assayed in overlay experiments with F-actin and/or myosin light chains in solution. Specific antibodies were used to detect interactions between heavy chain fragments and F-actin or light chains. We thus observed that one long heavy chain fragment synthesized by E. coli behaved like proteolytic or chemical MHC preparations made from native myosin molecules. Two chymotryptic fragments of the MHC fusion protein, which are soluble at low ionic strength, cosedimented with F-actin in solution. Our results demonstrate that, in actin overlay experiments with whole fusion proteins, interactions seem to be due to the heavy chain fragment, not to the bacterial component. All interactions were non ATP-sensitive. We further investigated the possible participation of the six recombinant MHC fragments in contributing to the actomyosin interfaces on the 50 kDa-20 kDa regions of the human cardiac beta-MHC. The present procedure, which enables the synthesis of any MHC fragment independent of any protease site, is a powerful new tool for studying structure-function relationships within the myosin molecule family.
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PMID:Expression of human beta-myosin heavy chain fragments in Escherichia coli; localization of actin interfaces on cardiac myosin. 226 65

FRS1 and FRS2, the structural genes encoding the large (alpha) and small (beta) subunits of yeast phenylalanyl-tRNA synthetase (PheRS) were placed under the control of the lacZ promoter by creating an artificial operon. The FRS2 gene was fused next to the promoter, followed by a 14 base pair intergenic sequence containing a translation reinitiation site in front of the FRS1 coding sequences. The engineered PheRS has 16 N-terminal amino acids from beta-galactosidase fused to the beta subunit. However, the purified protein shows a Km value for tRNA(Phe) that is indistinguishable from that of the the native enzyme. The product of the FRS2-FRS1 operon is not able to complement thermosensitive E. coli PheRS, indicating the lack of heterologous aminoacylation in vivo. We made a deletion in the FRS2 gene that removed about 150 amino terminal residues of the beta subunit. The truncated protein showed intact ATP-PPi exchange, whereas tRNA aminoacylation was lost. This result is similar to that of limited proteolysis performed on the native enzyme that yielded a tetrameric alpha 2 beta'2 structure, able to form aminoacyladenylate but unable to bind tRNA(Phe). A deletion of 50 amino acids from the carboxyl terminus of the beta chain resulted in the loss of both enzyme activities; this suggests the participation of the C-terminal end of the beta subunit in the active site or in subunit assembly to yield a tetrameric functional enzyme.
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PMID:Construction of a FRS1-FRS2 operon encoding the structural genes for the alpha and beta subunits of yeast phenylalanyl-tRNA synthetase and its use in deletion analysis. 233 90

This paper reports the identification of the lyn gene product, a member of the src-related family of protein-tyrosine kinases, and its expression in hematopoietic cells. A lyn-specific sequence (Arg-25 to Ala-119 of the protein) was expressed in Escherichia coli as a fusion protein with beta-galactosidase. Antiserum raised against the fusion protein immunoprecipitated a 56-kDa protein from human B lymphocytes. Incubation of the immunoprecipitate with [gamma-32P]ATP resulted in the phosphorylation of this protein at tyrosine residues. Immunohistological and immunoblotting analyses showed that the lyn gene product was expressed in lymphatic tissues (spleen and tonsil) and in adult lung, which contains many macrophages. Furthermore, both the transcripts and the protein products of the lyn gene accumulated in macrophages/monocytes, platelets, and B lymphocytes but were not expressed appreciably in granulocytes, erythrocytes, or T lymphocytes, suggesting that lyn gene products function primarily in certain differentiated cells of lymphoid and myeloid lineages.
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PMID:Selective expression of a protein-tyrosine kinase, p56lyn, in hematopoietic cells and association with production of human T-cell lymphotropic virus type I. 250 53

Energetic and permeability properties of Escherichia coli cells were determined prior to and during lysis caused by expression of the cloned gene E of bacteriophage phi X174. Before onset of cell lysis the transmembrane gradients for K+, Na+ or Mg2+/ions, the level of ATP and the membrane potential, were unaffected. All these parameters changed simultaneously at the time of lysis onset, as monitored by measurements of culture turbidity as well as by determining the various specifications over a period of 1 min. During cell lysis chromosomal DNA was fragmented whereas plasmid DNA was liberated in its intact supercoiled form. Cytoplasmic constituents were released almost entirely, as indicated by the activity of beta-galactosidase in the supernatant fraction of protein-E-lysed cells. Periplasmic enzymes were only found in limited amounts in the cell supernatant and most remained associated with the cell ghosts. Such ghosts exhibited no gross cell damage or morphological alterations when compared with intact E. coli by light microscopy. All parameters investigated indicated that protein-E-mediated lysis of E. coli is caused by the formation of a transmembrane tunnel structure through the envelope complex of the bacterium.
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PMID:Biochemical characterization of phi X174-protein-E-mediated lysis of Escherichia coli. 252 90

The H+-ATPase, located in the yeast plasma membrane and encoded by the PMA1 gene, provides energy for the active transport of nutrients and regulates intracellular pH. Expression of the PMA1 gene is essential for cell growth and development. In this study, progressive deletions of the PMA1 promoter fused to the beta-galactosidase gene have identified two upstream activating sequences. These upstream activating sequences have high homologies with the consensus sequence known to control the expression of the ribosomal protein genes (RPG). In vivo deletion of these RPG sequences from the PMA1 gene results in slower growth and reduces ATPase activity to one-third of its original value. The RPG sequences from PMA1 interact with the promoter binding factor TUF. Thus, PMA1 belongs to the RPG-TUF system which includes many constitutive genes encoding nonrelated functions such as ATP metabolism, transcription, translation, and active transport.
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PMID:The yeast H+-ATPase gene is controlled by the promoter binding factor TUF. 252 95

The arsenical resistance (ars) operon of the conjugative R-factor R773 encodes an ATP-driven anion extrusion pump, producing bacterial resistance to arsenicals. There are three structural genes, of which the product of the middle gene, arsB, has not previously been identified. From nucleotide sequence data, the ArsB protein is predicted to be a 45577 Dalton hydrophobic protein. A mini-Mu transposition procedure was used to construct an arsB-lacZ gene fusion, producing a hybrid ArsB-beta-galactosidase protein which was localized in the inner membrane. The operon was cloned into a T7 RNA polymerase expression vector. In addition to the previously identified ArsA and ArsC proteins, the cells synthesized an inner membrane protein with an apparent mass of 36 kD identified as the ArsB protein.
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PMID:Identification of the membrane component of the anion pump encoded by the arsenical resistance operon of R-factor R773. 252 97

We describe here the properties of a mutant of Chinese hamster ovary cells that expresses a conditional-lethal mutation affecting dense lysosomes. This mutant, termed V.24.1, is a member of the End4 complementation group of temperature-sensitive mutants selected for resistance to protein toxins (Colbaugh, P. A., C.-Y. Kao, S.-P. Shia, M. Stookey, and R. K. Draper. 1988. Somatic Cell Mol. Genet. 14:499-507). Vesicles present in postnuclear supernatants prepared from V.24.1 cells harvested at the restrictive temperature had a 50% reduction in acidification activity, assessed by the ATP-stimulated accumulation of the dye acridine orange in acidic vesicles. To investigate whether specific populations of vesicles were impaired in acidification, we measured acidification activity in three subcellular fractions prepared from Percoll gradients: one containing endosomal and Golgi markers, one containing buoyant lysosomes, and the third containing dense lysosomes. Activity in dense lysosomes was reduced by 90%, activity in the buoyant lysosome fraction was unaffected, and activity in the endosome-Golgi fraction was mildly reduced. The activity of three lysosomal enzymes--beta-hexosaminidase, beta-galactosidase, and beta-glucocerebrosidase--was also reduced in dense lysosomes but nearly normal in the buoyant lysosome fraction. However, beta-hexosaminidase and beta-glucocerebrosidase activity was increased two- to threefold in the endosome-Golgi fraction. We conclude that the lesion selectively impairs dense lysosomes but has little effect on properties of buoyant lysosomes.
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PMID:Impaired lysosomes in a temperature-sensitive mutant of Chinese hamster ovary cells. 252 60

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