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)

mRNA that encodes the common peptide precursor for the hormones corticotropin and beta-lipotropin was purified from the neurointermediate lobe of bovine pituitaries, and double-stranded cDNA species synthesized from this template were cloned in Escherichia coli X1776 by inserting them into the Pst I endonuclease cleavage site of the pBR322 plasmid using poly(dG)poly(dC) homopolymeric extensions. Certain of the cloned cDNA inserts contain nucleotides corresponding to the complete amino acid sequence of bovine corticotropin and a coding sequence that corresponds to at least the first portion of bovine beta-lipotropin. The nucleotide sequences coding for corticotropin and beta-lipotropin are separated on the cDNA by a 6-base-pair sequence encoding lysine and arginine, indicating that the carboxyl terminus of corticotropin is connected on the precursor peptide with the amino terminus of beta-lipotropin by these two amino acids. In addition, the cloned cDNA insert is characterized by an unusually high C+G nucleotide base content as well as by a number of DNA sequence duplications.
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PMID:Construction of bacterial plasmids that contain the nucleotide sequence for bovine corticotropin-beta-lipotropin precursor. 21 7

DNA isolated from each of the seven arginine transducing phages lambdaargA2cI857susS7, phi80ppc argECBH, phi80argF, phi80argF ilambdacI857, lambdaargF2, lambdaargF23 and lambdaargI valScI857susS7 has been specifically cleaved by the restriction endonucleases EcoRI, SmaI and HindIII. The DNA fragments resulting from single, and in some cases, double endonuclease digests were separated by electrophoresis in agarose and also in polyacrylamide gel. The electrophoretic patterns thus obtained were compared with those produced by digestion of DNA isolated from the corresponding lambda and phi80 parental phages. The majority of cleavage sites produced by the action of these restriction enzymes on arginine transducing DNA have been physically mapped.
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PMID:DNA cleavage of lambda and phi 80 transducing phages carrying the argA, argECBH, argF and argI operons of Escherichia coli K-12 with the restriction endonucleases EcoRI, SmaI and HindIII. 34 44

A detailed physical map depicting the cleavage sites generated by ten different restriction endonucleases was prepared for the argF region of the Escherichia coli K-12 genome carried on a 1650 base pair fragment capable of directing the in vitro synthesis of ornithine transcarbamylase (OTCase; ec 2.1.3.3) under the control of arginine holorepressor. The method employed was originally developed by Smith and Birnstiel (1976), and involved the electrophoretic sizing of partial endonuclease digestion products of DNA radiolabeled at one end. This novel technique proved to be rapid, simple, amenable to the simultaneous mapping of numerous cleavage sites, and provided the essential information for determining the map order of restriction fragments. A facile method which involved magnesium phosphate as the DNA-binding agent was presented for the isolation of DNA fragments. The discovery of a 117 base pair leader sequence in the argF gene is also discussed.
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PMID:Mapping of restriction sites in the argF gene of Escherichia coli by partial endonuclease digestion of end-labeled DNA. 37 4

The sequence-specific endonuclease Bgl I from Bacillus globigii (RUB561) has been purified to homogeneity as determined by denaturing polyacrylamide gel analysis. The active form of the enzyme is a single polypeptide with a molecular weight of 32,000. The enzyme requires Mg2+ in the reaction mixture and displays a broad pH and monovalent cation requirement. Bgl I is not sensitive to sulfhydryl reagents but was affected by reagents that modify lysine and arginine residues. When lysine residues were modified by pyridoxal 5'-phosphate, both binding and catalysis were diminished while modification of arginine residues by 2,3-butanedione inhibited the enzyme activity but had no effect on its binding properties.
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PMID:Sequence-specific endonuclease Bgl I. Modification of lysine and arginine residues of the homogeneous enzyme. 45 53

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

The nucleotide sequence of a double stranded DNA fragment from the gene AB region of bacteriophage S13 DNA has been determined. The fragment was isolated as two adjacent shorter fragments by cleavage of S13 replicative form (RF) DNA with restriction endonuclease III from Hemophilus aegyptius. The strands of the fragments were separated electrophoretically and hydrolyzed with T4 endonuclease IV to yield short oligonucleotides which were then sequenced by partial exonuclease digestion. The complete nucleotide sequence of the restriction fragments was obtained by ordering the inter- and intrastrand overlapping oligonucleotide sequences. The adjacent fragments were 190 nucleotides in length. The sequences included a HindII site, an AluI site and two sequences which may be possible transcription initiation sequences, one with an adjacent sequence homologous to the canonical promoter site sequence T-A-T-Pu-A-T-Pu. Examination of the three possible reading frames for translation of the sequence revealed only one possible complete translation product. The postulated partial sequence of gene A protein has a highly positively charged arginine-rich area which may have importance in DNA binding.
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PMID:The nucleotide sequence of two restriction fragments located in the gene AB region of bacteriophage S13. 90 72

The structure and composition of the core of adenovirus type 2 were analyzed by electron microscopy and biochemical techniques after differential degradation of the virion by heat, by pyridine, or by sarcosyl treatment. In negatively stained preparations purified sarcosyl cores reveal spherical subunits of 21.6-nm diameter in the electron microscope. It is suggested that these subunits are organized as an icosahedron which has its axes of symmetry coincident with those of the viral capsid. The subunits are connected by the viral DNA molecule. The sarcosyl cores contain the viral DNA and predominantly the arginine/alanine-rich core polypeptide VII. When sarcosyl cores are spread on a protein film, tightly coiled particles are observed which gradually unfold giving rise to a rosette-like pattern due to the uncoiling DNA molecule. Completely unfolded DNA molecules are circular. Pyridine cores consist of the viral DNA and polypeptides V and VII. In negatively stained preparations of pyridine cores the subunit arrangement apparent in the sarcosyl cores is masked by an additional shell which is probably formed by polypeptide V. In freeze-cleaved preparations of the adenovirion two fracture planes can be recognized. One fracture plane probably passes between the outer capsid of the virion and polypeptide V exposing a subviral particle which corresponds to the pyridine core. The second fracture plane observed could be located between polypeptide V and the polypeptide VII-DNA complex, thus uncovering a subviral structure which corresponds to the sarcosyl core. In the sarcosyl core polypeptide VII is tightly bound to the viral DNA which is susceptible to digestion with DNase. The restriction endonuclease EcoRI cleaves the viral DNA in the sarcosyl cores into the six specific fragments. These fragments can be resolved on polyacrylamide-agarose gels provided the sarcosyl cores are treated with pronase after incubation with the restriction endonuclease. When pronase digestion is omitted, a complex of the terminal EcoRI fragments adenovirus DNA and protein can be isolated. From this complex the terminal DNA fragments can be liberated after pronase treatment. The complex described is presumably responsible for the circularization of the viral DNA inside the virion. The nature of the protein(s) involved in circle formation has not yet been elucidated.
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PMID:Structure and composition of the adenovirus type 2 core. 115 44

The 6.7 kb EcoRI fragment containing the sorghum chloroplast psaA gene was cloned. The restriction endonuclease map and the nucleotide sequence were determined. The length of the determined nucleotide sequence was 3080 bp, of which the psaA coding sequence was 2253 bp, which encoded a polypeptide of 750 amino acids with a estimated molecular weight of 83000. The homologies of this psaA gene of sorghum with those of maize, rice and spinach were 99.4%, 96.3% and 89.4%, respectively, and the homologies of the deduced polypeptide sequences were 99.3%, 98.0% and 95.7%, respectively. We found that a difference in the profiles of the hydrophobic distribution of P700 apoproteins existed between C4 and C3 plants due to a change occurred at the 493th amino acid (C4 plants: Gly; C3 plants: Arg or Ser).
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PMID:Cloning and nucleotide sequence of chloroplast psaA gene from sorghum. 129 94

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


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