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 tellurite resistance (Ter) determinant of the IncP alpha plasmid RK2Ter, a variant of RK2 (also called RP4), is located between the kilA and korA genes involved in plasmid replication control. Transcriptional and translational fusions were constructed between the gene for beta-galactosidase and the kilA and Ter genes by using the transpositional phage mini-Mu. These fusions indicated that the Ter genes are transcribed in the same direction as kilA and that transcription and translation of the cloned kilA gene are occurring and may not be lethal to the bacterial cell even in the absence of korA. The nucleotide sequence of this region was determined, and three open reading frames (ORFs) were identified. The first ORF codes for KilA, a 28-kDa hydrophilic protein. The second ORF, telA, codes for a hydrophilic protein of 42 kDa. The third ORF, telB, codes for a hydrophobic protein of 32 kDa. This protein appears to be located in the inner membrane of the bacterial cell, since fusions of TelB to alkaline phosphatase were obtained by using TnphoA. All three proteins were detected by sodium dodecyl sulfate-polyacrylamide gel electrophoresis after overproduction using the T7 RNA polymerase/promoter system. The same three proteins were produced when Tes and Ter derivatives of RP4 were expressed in an in vitro transcription-translation system. A single Ser-to-Cys missense mutation in telB was found to be responsible for mutation of RK2 to Ter.
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PMID:Transcriptional analysis, translational analysis, and sequence of the kilA-tellurite resistance region of plasmid RK2Ter. 184 56

Induction of the tetracycline-resistance genes function by the inducer of the DNA-repair and mutability SOS-system, UV-light, has been tested. Activity of the tet-genes residing on the plasmid RP4 in Escherichia coli cells has been shown to be inducible by the low doses of tetracycline as well as by the mutagenic doses of UV-light. The induction was quantitatively registered by measuring the activity of beta-galactosidase of bacteriophage Mud1 (Ap, Lac) inserted into the tet-genes of the plasmid RP4. The bacteriophage integration inactivates the tet-genes function of the constructed plasmid fusing the lac-operon to a promoter of inactivated genes. Precise excision of bacteriophage restores the activity of the tet-genes proving together with the plasmid DNA-restriction analysis the fusion of tet-promoter with Iac-operon. The tet-genes of RP4 are concluded to be a part of the SOS-regulon, a set of genes inducible by the conditions harming the bacterial cell. Preliminary data on the mutagenic activity of tetracycline obtained in the bacterial test-system of mutagens are discussed.
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PMID:[SOS-induction of the RP4 plasmid tet-determinant]. 284 94

Wild-type strains of the phytopathogenic enterobacterium Erwinia chrysanthemi are unable to use lactose as a carbon source for growth although they possess a beta-galactosidase activity. Lactose-fermenting derivatives from some wild types, however, can be obtained spontaneously at a frequency of about 5 X 10(-7). All Lac+ derivatives isolated had acquired a constitutive lactose transport system and most contained an inducible beta-galactosidase. The transport system, product of the lmrT gene, mediates uptake of lactose in the Lac+ derivatives and also appears to be able to mediate uptake of melibiose, raffinose, and galactose. Two genes encoding beta-galactosidase enzymes were detected in E. chrysanthemi strains. That mainly expressed in the wild-type strains was the lacZ product. The other, the lacB product, is very weakly expressed in these strains. These enzymes showed different affinities for the substrates o-nitrophenyl-beta-D-galactopyranoside and lactose and for the inhibitors isopropyl-beta-D-thiogalactopyranoside and galactose. The lmrT and lacZ genes of E. chrysanthemi, together with the lacI gene coding for the regulatory protein controlling lacZ expression, were cloned by using an RP4::miniMu vector. When these plasmids were transferred into Lac- Escherichia coli strains, their expression was similar to that in E. chrysanthemi. The cloning of the lmrT gene alone suggested that the lacZ or lacB gene is not linked to the lmrT gene on the E. chrysanthemi chromosome. One Lac+ E. chrysanthemi derivative showed a constitutive synthesis of the beta-galactosidase encoded by the lacB gene. This mutation was dominant toward the lacI lacZ cloned genes. Besides these mutations affecting the regulation of the lmrT or lacB gene, the isolation of structural mutants unable to grow on lactose was achieved by mutagenic treatment. These mutants showed no expression of the lactose transport system, the lmrT mutants, or the mainly expressed beta-galactosidase, lacZ mutants. The lacZ mutants retained a very low beta-galactosidase level, due to the lacB product, but this level was low enough to permit use of the lacZ mutants for the construction of gene fusions with the Escherichia coli lac genes.
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PMID:Lactose metabolism in Erwinia chrysanthemi. 392 Feb 5

Strains of Escherichia coli K-12 in which the transcription of lacZ is initiated from the tyrR promoter have been constructed by use of the Mu d (Apr lac) phage of Casadaban and Cohen (Proc. Natl. Acad. Sci. U.S.A. 76:4530-4533, 1979). These strains have been used to examine the regulation of expression from the tyrR promoter, with the synthesis of beta-galactosidase used as an index of expression. The specific activity of beta-galactosidase fell to 51% upon introduction of lambda (Tn10) tyrR+; to 39% upon introduction of F123, an F-prime carrying tyrR+; to 29% upon introduction of pMU309, a derivative of the plasmid RP4 carrying tyrR+; and to 13.6% upon introduction of pMU352, a derivative of the multicopy plasmid pBR322 carrying tyrR+. These results indicate that the tyrR gene product interacts with its own promoter-operator region, decreasing synthesis of beta galactosidase in the tyrR::Mu d (Apr lac) strains. The increasing extent of repression of beta-galactosidase synthesis with increasing tyrR+ gene dosage was accompanied by increasing repression of the synthesis of tyrosine- and phenylalanine-repressible 3-deoxy-D-arabinoheptulosonic acid-7-phosphate synthetases. The interaction of the repressor with tyrRo appears unusual in the sense that aporepressor alone is probably one of the repressing species. The levels of beta-galactosidase synthesized in the tyrR::Mu d (Apr lac) strains indicate that tyrR has a relatively efficient promoter, the maximum levels representing on the order of a relatively efficient promoter, the maximum levels representing on the order of 1,000 monomers of beta-galactosidase per cell in the tyrR strain and about 500 monomers in the tyrR+ haploid strain.
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PMID:Autoregulation of the tyrR gene. 612 Sep 34

The lac operon shows anomalous expression in Proteus mirabilis: the maximal induced level is 10% or less of that in E. coli, while repression reduces this by a factor of only 2-5. We have sought to determine whether this effect relates in any way to CRP-mediated activation of expression, by comparing expression in P. mirabilis of lac operons (introduced for technical reasons on IncP1 plasmids) either regulatorily wild-type or bearing L8 or L8UV5. Derivatives of RP1 bearing L8UV5 were obtained by homogenotisation of pGC9114 (RP1::Tn951) in a L8UV5 background; while derivatives of RP4 bearing lac+, L8 or L8UV5 were obtained by Mu-mediated translocation of chromosomal regions bearing these alleles, following partial heat-induction of Mucts62 on pGM14 (RP4::Mucts62) in the appropriate hosts. These plasmids could be readily transferred to, and stably maintained in, the P. mirabilis strains employed. It was found that L8 reduced the maximal level of beta-galactosidase activity, and L8UV5 restored this activity to around wild-type, in P. mirabilis quantitatively very much as in E. coli. Nevertheless, the low maximal level of expression and high basal level characteristic of the former host were unchanged. The simplest explanation of these results is that P. mirabilis contains a protein that mimics the E. coli CRP protein in interacting with the appropriate DNA binding site and thereby stimulating transcription; and that the anomalous regulation of lac in this host is unconnected with the CRP system.
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PMID:Anomalous expression of the E. coli lac operon in Proteus mirabilis. I. Effects of L8 and L8 UV5. 644 Nov 2

The multimer resolution system (mrs) of the broad-host-range plasmid RP4 has been exploited to develop a general method that permits the precise excision of chromosomal segments in a variety of gram-negative bacteria. The procedure is based on the site-specific recombination between two directly repeated 140-bp resolution (res) sequences of RP4 effected by the plasmid-borne resolvase encoded by the parA gene. The efficiency and accuracy of the mrs system to delete portions of chromosomal DNA flanked by res sites was monitored with hybrid mini-Tn5 transposons in which various colored (beta-galactosidase and catechol 2,3 dioxygenase) or luminescent (Vibrio harveyi luciferase) phenotypic markers associated to res sequences were inserted in the chromosome of the target bacteria and exposed in vivo to the product of the parA gene. The high frequencies of marker excision obtained with different configurations of the parA expression system suggested that just a few molecules of the resolvase are required to achieve the site-specific recombination event. Transient expression of parA from a plasmid unable to replicate in the target bacterium was instrumental to effect differential deletions within complex hybrid transposons inserted in the chromosome of Pseudomonas putida. This strategy permits the stable inheritance of heterologous DNA segments virtually devoid of the sequences used initially to select their insertion.
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PMID:Site-specific deletions of chromosomally located DNA segments with the multimer resolution system of broad-host-range plasmid RP4. 779 49

To enhance plasmid segregational stability in bacterial cells, two pairs of independent postsegregational killing loci (genes which induce host killing upon plasmid loss) isolated from plasmids R1, R483, or RP4 (hok+/sok+ pnd+ or hok+/sok+ parDE+) were cloned into a common site of the beta-galactosidase expression vector pMJR1750 (ptac::lacZ+) to form a series of plasmids in which the effect of one or two stability loci on segregational plasmid stability could be discerned. Adding two antisense killer loci (hok+/sok+ pnd+) decreased the specific growth rate by 50% though they were more effective at reducing segregational instability than hok+/sok+ alone. With the ptac promoter induced fully (2.0 mM isopropyl-beta-D-thiogalactopyranoside) and no antibiotic selection pressure, the combination of a proteic killer locus (parDE+) with antisense killer loci (hok+/sok+) had a negligible impact on specific growth rate, maintained high beta-galactosidase expression, and led to a 30 and 190% increase in segregational stability (based on stable generations) as compared to plasmids containing either hok+/sok+ or parDE+ alone, respectively. Use of hok+/sok+ or parDE+ alone with high cloned-gene expression led to ninefold and fourfold increases in the number of stable generations, respectively. Two convenient cloning cassettes have been constructed to facilitate cloning the dual hok+/sok+ parDE+ and hok+/sok+ pnd+ killer systems.
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PMID:Combining the hok/sok, parDE, and pnd postsegregational killer loci to enhance plasmid stability. 914 23

This study describes the construction of several useful cloning vectors which can be conjugated from Escherichia coli into Zymomonas mobilis at high frequency, approaching 10 per donor or recipient. These vectors contain a broad-host-range replicon and mob site from RSF1010, a chloramphenicol acyltransferase gene under the control of an enteric consensus promoter, and a second mob site (originally derived from RP4). The addition of this second mob site appears to be responsible for a 2-order-of-magnitude increase in the efficiency of transfer into Z. mobilis. Such vectors may be useful for other gram-negative bacteria in which conjugation efficiencies are low. These vectors are stably maintained in Z. mobilis with no detectable loss of plasmid after 50 generations in the absence of selective pressure. One of these, pLOI193, contains the tetracycline gene from pBR322 and associated cloning sites for insertional inactivation. Another, pLOI204, contains a Z. mobilis promoter immediately upstream from a BamHI site which can be used for cloning. This promoter has been shown to efficiently drive the expression of beta-galactosidase in both Z. mobilis and E. coli. This promoter fragment from Z. mobilis has been sequenced, and the site for transcriptional initiation in E. coli and Z. mobilis has been identified.
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PMID:Expression Vector for Zymomonas mobilis. 1634 72