EC:3.1.30.2 - FACTA Search

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Query: EC:3.1.30.2 (endonuclease)
18,621 document(s) hit in 31,850,051 MEDLINE articles (0.00 seconds)

A recombinant plasmid, designated pUC1002, was constructed by ligation of a HindIII restriction endonuclease fragment of Escherichia coli chromosomal DNA to vector plasmid pMB9. Strains carrying this plasmid were selected by transformation of an E. coli strain bearing the xyl-7 mutation to a xylose-positive (Xyl+) phenotype. Strains containing pUC1002 produced coordinately elevated levels of D-xylose isomerase and D-xylulose kinase. Under appropriate conditions, the isomerase also efficiently catalyzed the conversion of D-glucose to D-fructose.
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PMID:Amplification of D-xylose and D-glucose isomerase activities in Escherichia coli by gene cloning. 634 93

Three genes (mglA, mglB, and mglC) required for active transport of substrate by the methylgalactoside permease were identified in a hybrid ColE1-DNA plasmid isolated from a clone (pLC3-14) of the Clarke-Carbon bank of Escherichia coli genes. A 4.6-kilobase DNA fragment obtained from pLC3-14 was cloned into the plasmid vector pBR322. The presence of the three mgl genes in the resultant plasmid, pMG3, was verified by genetic complementation and biochemical analysis of mgl mutants transformed with pMG3 DNA. Derivatives of pMG3 containing deletions in each mgl gene were constructed; restriction endonuclease mapping and functional analysis of these plasmids allowed us to physically locate the mgl genes within the inserted plasmid DNA and also to identify a heretofore unknown protein component of the transport system. Expression of these plasmids in vivo resulted in the specific synthesis of three major proteins of apparent molecular weight of 19,000, 36,000, and 52,000. The 36,000-dalton protein is the galactose-binding protein previously identified as the mglB product. The 19,000-dalton protein maybe the product of mglD, a regulatory gene mapping outside of the mgl gene cluster. The 52,000-dalton protein is a new permease component which we have identified here as the mglA product based on the observation that pMG6, a plasmid with a 0.6-kilobase mglA deletion, failed to encode for this protein but produced a truncated polypeptide showing a reduction in molecular weight comparable to the extent of the deletion. In bacteria bearing an mglA+, B-, C+ plasmid (Pmg4), the 52,000-dalton protein is located to a large extent (73%) in the membrane fraction.
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PMID:Identification of the mglA gene product in the beta-methylgalactoside transport system of Escherichia coli using plasmid DNA deletions generated in vitro. 680 87

Cloning by limit dilution of an isolate of Leishmania tropica (LRC-L137) that is infective for mice resulted in 7 stable clones, only one of which was infective in BALB/c mice. Three of the non-infective clones that were examined for survival in BALB/c macrophages in vitro seemed to be killed more readily, suggesting failure to establish in macrophages as the basis for non-infectivity in vivo. Promastigotes from three non-infective clones and one infective clone were biosynthetically labelled or surface radioiodinated, and the detergent lysates were analyzed by 2-dimensional gel electrophoresis. The pattern of the radiolabelled cytoplasmic and membrane proteins of promastigotes from all L. tropica clones was similar, with minor differences. All clones as well as the uncloned population bound to the same extent to a series of lectins with galactose and N-acetylgalactosamine as specificities. They also bound in a solid-phase radioimmunoassay to 9 monoclonal antibodies raised against the uncloned L. tropica (LRC-L137). The genetic characterization of four L. tropica clones was attempted by analysis of their isolated kinetoplast DNA. The clones from two schizodemes since they possess kinetoplast DNAs which exhibit similar restriction endonuclease fingerprints and show extensive DNA sequence homology, suggesting that the four clones are closely related and that the non-infective variants may be derived from the infective presumptive parental clone L137-7-121. Further characterization of the clones of L. tropica should allow a better understanding of the genetic basis of parasite virulence in cutaneous leishmaniasis.
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PMID:Isolation and characterization of infective and non-infective clones of Leishmania tropica. 685 10

Repair of a site-specific double-strand DNA break (DSB) resulted in increased reversion frequency for a nearby allele. Site-specific DSBs were introduced into the genome of Saccharomyces cerevisiae by the endonuclease encoded by the HO gene. Expression of the HO gene from a galactose-inducible promoter allowed efficient DNA cleavage at a single site in large populations of cells. To determine whether the DNA synthesis associated with repair of DSBs has a higher error rate than that associated with genome duplication, HO-induced DSBs were generated 0.3 kb from revertible alleles of trp1. The reversion rate of the trp1 alleles was approximately 100-fold higher among cells that had experienced an HO cut than among uninduced cells. The reverted allele was found predominantly on the chromosome that experienced the DNA cleavage.
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PMID:DNA synthesis errors associated with double-strand-break repair. 767 95

We screened members of a new genus of grass-associated diazotrophs (Azoarcus spp.) for the presence of cellulolytic enzymes. Out of five Azoarcus strains representing different species, only in the endorhizosphere isolate BH72, which is also capable of invading grass roots, was significant endoglucanase activity, in addition to beta-glucosidase and cellobiohydrolase activity, present. Reducing sugars were readily released from medium-viscosity carboxymethylcellulose (CMC), but neither CMC, cellulose filter strips, Avicel, cellobiose, nor D-glucose served as the sole carbon source for growth of Azoarcus spp. Clones from a plasmid library of strain BH72 expressed all three enzymes in Escherichia coli, apparently not from their own promoter. According to restriction endonuclease mapping and subclone analysis, beta-glucosidase and cellobiohydrolase activities were localized on a single 2.6-kb fragment not physically linked to a 1.45-kb fragment from which endoglucanase (egl) was expressed. Two isoenzymes of endoglucanase probably resulting from proteolytic cleavage had pI values of 6.4 and 6.1 and an apparent molecular mass of approximately 36 kDa. Cellobiohydrolase and beta-glucosidase activity were conferred by one enzyme 41 kDa in size with a pI of 5.4, which we classified as an unspecific exoglycanase (exg) according to substrate utilization and specificity mapping; hydrolysis of various oligomeric substrates differentiated it from endoglucanase, which degraded substituted soluble cellulose derivatives but not microcrystalline cellulose. Both enzymes were not excreted but were associated with the surface of Azoarcus cells. Both activities were only slightly influenced by the presence of CMC or D-glucose in the growth medium but were enhanced by ethanol. egl was located on a large transcript approximately 15 kb in size, which was detectable only in cells grown under microaerobic conditions on N2. Surface-bound exo- and endoglucanases with some unusual regulatory features, detected in this study in a strain which is unable to metabolize cellulose or sugars, might assist Azoarcus sp. strain BH72 in infection of grass roots.
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PMID:Cloning, expression in Escherichia coli, and characterization of cellulolytic enzymes of Azoarcus sp., a root-invading diazotroph. 769 55

The adeno-associated virus (AAV) Rep78 protein is required for many aspects of AAV's life cycle including its DNA replication and the regulation of its gene expression. Because of increasing utilization of AAV as a gene therapy vector and its possible use as an anti-cancer/anti-viral agent, the complete characterization of its Rep78 regulatory protein is important. In order to study various functional aspects of Rep78, we have cloned and expressed the Rep78 gene in Escherichia coli using an inducible expression plasmid. The entire Rep78 open reading frame (nt 321 to 2185) was cloned into the LacZ inducible expression vector pMALc2. Upon induction of the Ptac promoter with isopropyl thio-beta-D-galactopyranoside (IPTG), Rep78 is produced as a fusion protein with maltose binding protein (MBP). This recombinant MBP-Rep78 protein displayed all the biochemical activities which are described for the wild type protein including binding to the AAV terminal repeats (TR), endonuclease activity, and helicase activity. Furthermore, for the first time, ATP binding by Rep78 is demonstrated.
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PMID:Cloning, expression and purification of full length Rep78 of adeno-associated virus as a fusion protein with maltose binding protein in Escherichia coli. 769 27

Actinobacillus actinomycetemcomitans is an important pathogen in the etiology of severe periodontitis. For epidemiological studies on the prevalence of certain pathogenic clones and transmission of this bacterium, adequate typing methods are necessary. The purpose of this study was to compare six different typing methods for A. actinomycetemcomitans. Five reference strains and 27 fresh clinical isolates from periodontitis patients were used. Serotyping showed 12 serotype a strains, 13 type b strains, 6 type c strains, and 1 nontypeable strain. Biotyping on the basis of the fermentation of mannose, mannitol, and xylose resulted in six biotypes. Antibiogram typing was evaluated by measuring the inhibition zones of seven antibiotics in agar diffusion tests. With this method eight main types which could be further differentiated into 15 subtypes were found. Sodium dodecyl sulfate-polyacrylamide gel electrophoresis patterns of outer membrane proteins were similar among all isolates tested. Restriction endonuclease analysis (REA) of whole chromosomal DNA resulted in five main types. These five main types were further differentiated into 24 subtypes on the basis of DNA fragment differences in the high-molecular-weight region. Hybridization of DNA fragments with ribosomal DNA (ribotyping) resulted in 22 to 24 different types, depending on the restriction endonuclease used. Ribotype patterns were easy to interpret and provided an univocal distinction between different strains compared with REA results. When applied to epidemiologically related isolates, all methods were able to discriminate two clonal types among five isolates from five children from one family. We conclude that serotyping, biotyping, and outer membrane patterns were reproducible but had a low discriminatory potential. REA and ribotyping were reproducible and gave the highest number of distinct types. When the DNA typing methodis were compared, all strains tested could be distinguished. These findings confirm the heterogeneity found within the species A. actinomycetemcomitans.
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PMID:Comparison of six typing methods for Actinobacillus actinomycetemcomitans. 785 70

In Saccharomyces cerevisiae, a large number of genes in the RAD52 epistasis group has been implicated in the repair of chromosomal double-strand breaks and in both mitotic and meiotic homologous recombination. While most of these genes are essential for yeast mating-type (MAT) gene switching, neither RAD50 nor XRS2 is required to complete this specialized mitotic gene conversion process. Using a galactose-inducible HO endonuclease gene to initiate MAT switching, we have examined the effect of null mutations of RAD50 and of XRS2 on intermediate steps of this recombination event. Both rad50 and xrs2 mutants exhibit a marked delay in the completion of switching. Both mutations reduce the extent of 5'-to-3' degradation from the end of the HO-created double-strand break. The steps of initial strand invasion and new DNA synthesis are delayed by approximately 30 min in mutant cells. However, later events are still further delayed, suggesting that XRS2 and RAD50 affect more than one step in the process. In the rad50 xrs2 double mutant, the completion of MAT switching is delayed more than in either single mutant, without reducing the overall efficiency of the process. The XRS2 gene encodes an 854-amino-acid protein with no obvious similarity to the Rad50 protein or to any other protein in the database. Overexpression of RAD50 does not complement the defects in xrs2 or vice versa.
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PMID:Mutations in XRS2 and RAD50 delay but do not prevent mating-type switching in Saccharomyces cerevisiae. 816 89

Homothallic switching of yeast mating type (MAT) genes is a highly efficient gene conversion process initiated by a double-strand break. The use of a galactose-inducible HO endonuclease gene has made it possible to analyze the synchronous progression of molecular intermediates during recombination. When MATa switches to MAT alpha, a 3' single-stranded end of HO-cleaved MAT DNA invades the homologous donor, HML alpha, and initiates copying of new DNA sequences. These early steps of recombination can be detected by PCR amplification. When recombination is initiated in a strain carrying the MATa-stk T-->A base pair substitution mutation located 8 bp to the right of the HO endonuclease cleavage site, the stk mutation is frequently included in heteroduplex DNA formed between MAT and HML and undergoes mismatch correction. We have followed the kinetics of mismatch repair of the stk mutation by determining the DNA sequence of the PCR-amplified early intermediates of recombination. Mismatch correction of heteroduplex DNA is quite rapid (t1/2 = 6-10 min) compared to the 60 min required to complete repair of the double-strand break. Mismatch repair occurs soon after the 3'-ended MAT-stk strand invades HML and forms heteroduplex DNA. Moreover, nearly all the correction events are restorations, in which the invading MAT-stk strand is corrected to the genotype of the resident HML donor. This rapid restoration ensures that the net result will be a gene conversion at the MAT locus. Rapid and preferential mismatch repair of heteroduplex DNA has important implications in understanding meiotic recombination.
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PMID:Rapid kinetics of mismatch repair of heteroduplex DNA that is formed during recombination in yeast. 847 81

Human chromosomal DNA contains many repeats which might provide opportunities for DNA repair. We have examined the consequences of a single double-strand break (DSB) within a 360-kb dispensable yeast artificial chromosome (YAC) containing human DNA (YAC12). An Alu-URA3-YZ sequence was targeted to several Alu sites within the YAC in strains of the yeast Saccharomyces cerevisiae; the strains contained a galactose-inducible HO endonuclease that cut the YAC at the YZ site. The presence of a DSB in most YACs led to deletion of the URA3 cassette, with retention of the telomeric markers, through recombination between surrounding Alus. For two YACs, the DSBs were not repaired and there was a G2 delay associated with the persistent DSBs. The presence of persistent DSBs resulted in cell death even though the YACs were dispensable. Among the survivors of the persistent DSBs, most had lost the YAC. By a pullback procedure, cell death was observed to begin at least 6 h after induction of a break. For YACs in which the DSB was rapidly repaired, the breaks did not cause cell cycle delay or lead to cell death. These results are consistent with our previous conclusion that a persistent DSB in a plasmid (YZ-CEN) also caused lethality (C. B. Bennett, A. L. Lewis, K. K. Baldwin, and M. A. Resnick, Proc. Natl. Acad. Sci. USA 90:5613-5617, 1993). However, a break in the YZ-CEN plasmid did not induce lethality in the strain (CBY) background used in the present study. The differences in survival levels appear to be due to the rapid degradation of the plasmid in the CBY strain. We, therefore, propose that for a DSB to cause cell cycle delay and death by means other than the loss of essential genetic material, it must remain unrepaired and be long-lived.
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PMID:A double-strand break within a yeast artificial chromosome (YAC) containing human DNA can result in YAC loss, deletion or cell lethality. 875 42

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