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

In the Escherichia coli lysogen HfrH73 described by Shimada et al. (1973), none of the enzymes coded for by the leucine operon is synthesized due to an insertion of phage lambda into cistron leuA. The orientation of lambda in the chromosome is ara leuDCB lambda JAN leuA. After heat induction of the lysogen, plaque-forming transducing phages of two types are formed at low frequency. One type (e.g., lambda pleu9) transduces leuD, leuC, and leuB strains to prototrophy. The other type (e.g., lambda pleu 13) transduces leuA strains to prototrophy. lambda pleu 13 forms lysogens at low frequency (about 0.2%) by integration into the leucine operon. These lysogens are unstable, segregating phage-sensitive clones at high frequency (about 1%). Phages carrying different portions of the leucine operon were formed by aberrant excision after heat induction of strain CV437 (leuA371 lambda pleu13). A phage carrying the entire leucine operon (lambda K2) was constructed by a cross between lambda pleu9 and lambda pleu13. An analysis of leucine-forming enzyme levels in strains lysogenized with lambdaK2 indicated that leuO and leuP are present and functional in lambda K2. leu-specific messenger ribonucleic acid from E. coli hybridizes to the heavy (r) strand of lambdaK2. The leucine operon of lambda G4 pleuABCD (an S7 derivative of lambda K2) exists intact on a 7.3 x 10(6)-dalton fragment (lambdaG4EcoRI-B) generated by cleavage with endonuclease EcoRI. Heteroduplexes formed between lambda G4 and lambda show a 5.4 x 10(6)-dalton piece of bacterial deoxyribonucleic acid (DNA) replacing a 4.5 x 10(6)-dalton piece of lambda DNA starting at 0.46 fractional unit on the map of lambda. Fragment lambda G4EcoRI-B has about 0.6 x 10(6) daltons of lambda DNA from the b2 region at one end and about 1.4 x 10(6) daltons of lambda DNA from the int region at the other end.
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PMID:Isolation and characterization of lambda pleu bacteriophages. 32 Jan 78

The mitochondrial DNA segments of two independently isolated rho- clones of S. cerevisiae carrying a genetic marker for a threonine tRNA have been characterized by restriction endonuclease analysis and DNA sequencing. The DNA sequences of the two segments have been used to deduce the primary and secondary structures of the tRNA. The threonine tRNA is unusual in having a leucine anticodon (3'-GAU-5'). Despite the anomalous anticodon, the tRNA is proposed to function in mitochondrial protein synthesis. One of the rho- clones contains an additional coding sequence that has been identified as a valine tRNA genes have been located on the wild-type physical map and determined to be transcribed from two different strands.
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PMID:Assembly of the mitochondrial membrane system: sequences of yeast mitochondrial valine and an unusual threonine tRNA gene. 38 33

The leucine genes of Bacillus subtilis have been cloned directly from the chromosomal DNA into Escherichia coli leuB cells by selection for the Leu+ phenotype using RSF2124 as a vector plasmid. The hybrid plasmid designated RSF2124-B.leu contained a 4.2 megadalton fragment derived from B. subtilis DNA, including the leu genes. The fragment had one site susceptible to EcoRI* and another site susceptible to BamNI endonuclease. Among the three fragments produced by EcoRI* and BamNI endonucleases, the 1.2 megadalton fragment had the ability to transform B. subtilis leuA, leuB and leuC auxotrophs to leu+. However, B. subtilis ilvB and ilvc auxotrophs were not rescued even by the whole 4.2 megadalton fragment present in the hybrid plasmid. beta-Isopropylmalate dehydrogenase (leuB gene product) activity found in E. coli cells containing the hybrid plasmid was about 60% of that in E. coli wild type cells, despite the high copy number (7.8) of the plasmid per chromosome observed.
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PMID:Cloning of Bacillus subtilis leucina A, B and C genes with Escherichia coli plasmids and expression of the leuC gene in E. coli. 41 24

A cloned library of large, random embryonic human DNA fragments was constructed and screened for beta-globin sequences using the cloned human beta-globin cDNA plasmid pJW102 (Wilson et al., 1978) as a hybridization probe. Two independent clones were obtained and then characterized by restriction endonuclease cleavage analysis, hybridization experiments and partial DNA sequencing. Each of the clones carries both the adult delta- and beta-globin genes. The two genes are separated by approximately 5.4 kilobases (kb) of DNA and their orientation with respect to the direction of transcription is 5'-delta--beta-3'. Both the delta- and beta-globin genes contain a large noncoding intervening sequence (950 and 900 bp, respectively) located between the codons for amino acids 104 (arginine) and 105 (leucine). Although the location of the large intervening sequence within the coding regions of the two genes is identical, the two noncoding sequences bear little sequence homology. A second, smaller intervening sequence similar to that found in other mammalian beta-globin genes was detected near the 5' end of the human beta-globin gene. The two independently isolated beta-globin clones differ from each other by the presence of a Pst I restriction enzyme cleavage site within the large intervening sequence of the delta-globin gene of one of the clones. This suggests that the human DNA carried in the two clones was derived from two homologous chromosomes which were heterozygous for the Pst I restriction enzyme recognition sequence.
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PMID:The isolation and characterization of linked delta- and beta-globin genes from a cloned library of human DNA. 72 96

Escherichia coli DNA with molecular weight of 20 - 10(6) daltons was digested by restriction endonuclease EcoR1, and the transforming activity of resctricts was studied. The transforming activity of restricts for two markers (Leu and Arg) was 2-5 fold increased, for two other markers (Thr and His) was not changed, and for one marker (Pro) was completely absent. The molecular weight of E. coli DNA restricts was 7,5-10(6) daltons. An increase and a decrease of the transforming activity for different markers appeared to be the result of two effects: 1) more efficient uptake of low molecular weight DNA into the cell and 2) the inactivation of markers as a result of location close to EcoR1 induced break.
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PMID:[Transforming activity of Escherichia coli DNA fragments obtained following endonucleolytic splitting by EcoRI restrictase]. 79 31

Using a poly(dA-dT) "connector" method, a population of annealed hybrid circular DNAs was constructed in vitro; each hybrid DNA circle containing one full-length molecule of poly(dT)-tailed DNA from E1 colicinogenic factor (Col E1) fragmented by EcoRI endonuclease annealed to any one of a collection of poly(dA)-tailed linear DNA fragments of the entire E. coli genome. This annealed, but unligated, hybrid DNA was used to transform several different auxotrophic mutants of E. coli, and by direct selection, bacterial clones were isolated which contained specific hybrid plasmids. In this manner, bacterial strains containing Col E1 hybrid plasmids carrying the entire tryptophan operon or the arabinsoe and leucine operons were isolated. The methods described should allow the molecular cloning of any portion of the E. coli genome by selection from a pool of DNA molecules containing at least several hundred different hybrids representing the entire bacterial genome.
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PMID:Biochemical construction and selection of hybrid plasmids containing specific segments of the Escherichia coli genome. 110 81

Von Willebrand disease (vWD) type IIA is characterized by decreased ristocetin-induced platelet aggregation, and by the absence from plasma of high molecular weight multimers of von Willebrand factor (vWF). Most mutations causing vWD type IIA are clustered within the A2 domain of the mature vWF subunit that is encoded by exon 28. Using the polymerase chain reaction (PCR), the entire exon 28 from patients with vWD type IIA and normal controls was amplified and sequenced. Three missense mutations were detected that result in the amino acid substitutions were detected that result in the amino acid substitutions Arg(834)----Trp, Gly(742)----Glu, and Ser(743)----Leu. The first mutation occurred independently in three unrelated families; each of the latter mutations was found in one family. By restriction endonuclease analysis and allele-specific oligonucleotide (ASO) hybridization the mutations were confirmed in affected family members and excluded in unaffected members and 50 normal controls. The apparently high frequency of identical independent mutations among patients with vWD type IIA suggests that a precise diagnosis may be possible in a majority of patients using relatively simple recombinant DNA screening assays.
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PMID:Characterization of three mutations causing von Willebrand disease type IIA in five unrelated families. 132 33

It has been proposed that yeast and Xenopus splicing endonucleases initially recognize features in the mature tRNA domain common to all tRNA species and that the sequence and structure of the intron are only minor determinants of splice-site selection. In accordance with this postulation, we show that yeast endonuclease splices heterologous pre-tRNA(Tyr) species from vertebrates and plants which differ in their mature domains and intron secondary structures. In contrast, wheat germ splicing endonuclease displays a pronounced preference for homologous pre-tRNA species; an extensive study of heterologous substrates revealed that neither yeast pre-tRNA species specific for leucine, serine, phenylalanine and tyrosine nor human and Xenopus pre-tRNA(Tyr) species were spliced. In order to identify the elements essential for pre-tRNA splicing in plants, we constructed chimeric genes coding for tRNA precursors with a plant intron secondary structure and with mature tRNA(Tyr) domains from yeast and Xenopus, respectively. The chimeric pre-tRNA comprising the mature tRNA(Tyr) domain from Xenopus was spliced efficiently in wheat germ extract, whereas the chimeric construct containing the mature tRNA(Tyr) domain from yeast was not spliced at all. These data indicate that intron secondary structure contributes to the specificity of plant splicing endonuclease and that unique features of the mature tRNA domain play a dominant role in enzyme-substrate recognition. We further investigated the influence of specific nucleotides in the mature domain on splicing by generating a number of mutated pre-tRNA species. Our results suggest that nucleotides located in the D stem, i.e. in the center of the pre-tRNA molecule, are recognition points for plant splicing endonuclease.
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PMID:Intron excision from tRNA precursors by plant splicing endonuclease requires unique features of the mature tRNA domain. 133 59

Bacteriophage lambda terminase is a multifunctional enzyme composed of two subunits which are the products of the phage-encoded Nu1 and A genes. The enzyme catalyzes the endonucleolytic cleavage of lambda DNA at a site known as cosN and mediates packaging of the phage DNA into empty heads. This work describes the characterization of mutations within the A gene which lead to the loss of terminase endonuclease activity without affecting the ability of the enzyme to package monomeric mature (cut) lambda DNA. The residues changed by these mutations lie in two distinct regions within the carboxy half of the A protein. One of these regions has sequence homology with a conserved region of DNA polymerases. The other region resembles the "leucine zipper" DNA binding domain (bZIP) found in eukaryotic transcription factors in that both a basic region and leucine heptad-repeat are present. This terminase domain may be involved in the recognition and/or cleavage of cosN.
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PMID:Mutations abolishing the endonuclease activity of bacteriophage lambda terminase lie in two distinct regions of the A gene, one of which may encode a "leucine zipper" DNA-binding domain. 153 52

Introns have generally been assumed to be passive in the transfer RNA splicing reaction. Experiments have now been done showing that the endonuclease is able to cut a precursor provided that a base in the single-stranded loop of the intron can pair with the base of the 5' exon situated at the position that immediately follows the anticodon stem (position 33 in the yeast tRNA isoacceptor pre-tRNA(Leu)3, position 32 in yeast pre-tRNA(Phe)). The elucidation of the role of the intron reveals that in addition to the conserved bases, there are positions in the mature domain which, although not necessarily occupied by the same base in all pre-tRNA's, nevertheless have a fundamental role in the splicing reaction. These positions are termed cardinal positions.
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PMID:Participation of the intron in the reaction catalyzed by the Xenopus tRNA splicing endonuclease. 154 87


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