EC:3.1.30.2 - FACTA Search

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)

Deficiency of alpha 1-antitrypsin (alpha 1AT), a plasma serine protease inhibitor, increases the risk of precocious pulmonary emphysema. Patients with alpha 1AT deficiency in Japan are extremely rare and no Z type alpha 1AT deficiency, which is one of the most frequent genetic disorders among Caucasians, are reported in Japan at the level of gene analysis. It is not yet clear why Z type alpha 1AT is rare among Japanese. When Ala213(GCG)-Val213(GTG) mutation in the alpha 1AT gene was examined by restriction endonuclease BstPI, all of 156 Japanese samples were Val213(GTG) in contrast to the finding that 30% of U.S. Caucasians are Ala213(GCG), indicating that alpha 1AT genes among Japanese were diverted from M1(Val213) variant and are different from M1(Ala213) variant, from which Z variant was likely diverted. This may explain why Z type alpha 1AT deficiency is not found among Japanese. A new alpha 1AT deficient variant, Siiyama (Ser53(TCC)-Phe53(TTC)), was found in a 39-year-old male with pulmonary emphysema (Seyama K, et al, J Biol Chem, 266, 12627, 1991). Interestingly, 6 out of 10 families with alpha 1AT deficiency in Japan shared the identical substitution as Siiyama. This indicates that although Caucasian type Z alpha 1AT deficiency is not found, Siiyama variant may be relatively common in Japan and even in other oriental countries because of the historical migration of people.
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PMID:[Alpha 1-antitrypsin genes in patients with alpha 1AT deficiency in Japan: mutational analysis and allelic background]. 143 14

The Mmineral springs alpha 1-antitrypsin (alpha 1AT) allele, causing alpha 1AT deficiency and emphysema, is unique among the alpha 1AT-deficiency alleles in that it was observed in a black family, whereas most mutations causing alpha 1AT deficiency are confined to Caucasian populations of European descent. Immobilized pH gradient analysis of serum demonstrated that alpha 1AT Mmineral springs migrated cathodal to the normal M2 allele. Evaluation of Mmineral springs alpha 1AT as an inhibitor of neutrophil elastase, its natural substrate, demonstrated markedly lower than normal function. Characterization of the alpha 1AT Mmineral springs gene demonstrated that it differed from the common normal M1(Ala213) allele by a single-base substitution causing the amino acid substitution Gly-67 (GGG)----Glu-67 (GAG). Capitalizing on the fact that this mutation creates a polymorphism for the restriction endonuclease AvaII, family analysis demonstrated that the Mmineral springs alpha 1AT allele was transmitted in an autosomal-codominant fashion. Evaluation of genomic DNA showed that the index case was homozygous for the alpha 1AT Mmineral springs allele. Cytoplasmic blot analysis of blood monocytes of the Mmineral springs homozygote demonstrated levels of alpha 1AT mRNA transcripts comparable to those in cells of a normal M1 (Val213) homozygote control. Evaluation of in vitro translation of Mmineral springs alpha 1AT mRNA transcripts demonstrated a normal capacity to direct the translation of alpha 1AT. Evaluation of secretion of alpha 1AT by the blood monocytes by pulse-chase labeling with [35S]methionine, however, demonstrated less secretion by the Mmineral springs cells than normal cells. To characterize the posttranslational events causing the alpha 1AT-secretory defect associated with the alpha 1AT Mmineral springs gene, retroviral gene transfer was used to establish polyclonal populations of murine fibroblasts containing either a normal human M1 alpha 1AT cDNA or an Mmineral springs alpha 1AT cDNA and expressing comparable levels of human alpha 1AT mRNA transcripts. Pulse-chase labeling of these cells with [35S]methionine demonstrated less secretion of human alpha 1AT from the Mmineral springs cells than from the M1 cells, and evaluation of cell lysates also demonstrated lower amounts of intracellular human alpha 1AT in the Mmineral springs cells than in the normal M1 control cells. Thus, the Gly-67 --> Glu mutation that characterizes Mmineral springs causes reduced alpha 1AT secretion on the basis of aberrant posttranslational alpha 1AT biosynthesis by a mechanism distinct from that associated with the alpha 1AT Z allele, whereby intracellular aggregation of the mutant protein is etiologic of the alpha 1AT-secretory defect. Furthermore, for the alpha 1AT protein that does reach the circulation, this mutation markedly affects the ability of the molecule to inhibit neutrophil elastase; i.e., the alpha 1AT Mmineral springs allele predisposes to emphysema on the basis of serum apha 1AT deficiency coupled with alpha AT dysfunction.
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PMID:Molecular basis of alpha 1-antitrypsin deficiency and emphysema associated with the alpha 1-antitrypsin Mmineral springs allele. 196 87

A simple, rapid, nonradioactive method has been developed to facilitate the direct detection of point mutations that cause genetic disease. The method operates on the basis of the specific amplification of a target allele by the polymerase chain reaction with extension primers designed such that their 3' end is placed at the mutation site. When this base is complementary to that of the specific allele, the DNA segment is amplified; when it is not complementary, the polymerase chain reaction cannot proceed. When alpha 1-antitrypsin (alpha 1AT) deficiency was used as a model, the technique of allele-specific amplification was capable of selective detection of five different mutations that cause the alpha 1AT deficiency state, including three different naturally occurring single-base substitution mutations (alleles Z, S, and Nullbellingham), an insertion mutation (Nullmattawa), and a deletion mutation (Nullgranite falls). Double-blind evaluation of 47 samples of genomic DNA demonstrated 100% accuracy of the method. The technique of allele-specific amplification is rapid, simple, and does not require the existence of a convenient restriction endonuclease site or the use of radioactive materials, and thus should have broad applicability for the detection of known genetic diseases in a highly sensitive and specific fashion.
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PMID:Rapid, nonradioactive detection of mutations in the human genome by allele-specific amplification. 278 25

Restriction fragment length polymorphism (RFLP) in the alpha 1-antitrypsin gene region was studied in relation to chronic obstructive airway disease (COAD) and pneumoconiosis. Genomic DNA of 122 studied subjects was digested with Hind III restriction endonuclease and hybridized with the alpha 1-antitrypsin gene probe. In eight patients with COAD an unusual 10-kb restriction fragment was found hybridizing with the probe. Three of 70 patients were homozygotes for this variant allele and 5 were heterozygotes, showing the presence of two fragments, 2.7 kb and 10 kb. The presence of 10-kb restriction fragment seems to be related to the early development of COAD in studied subjects and therefore might be used as a genetic marker of the disease.
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PMID:Alpha 1-antitrypsin gene polymorphism related to respiratory system disease. 288 93

The normal M2 variant of alpha 1-antitrypsin (alpha 1AT) was cloned from a genomic DNA library of an individual homozygous for this allele. Sequencing of all coding exons of the M2 gene revealed it was identical to the common M1(Val213) gene except for two bases (M1(Val213) CGT Arg101, M2 CAT His101; M1(Val213) GAA Glu376 M2 GAC Asp376). Analysis of the sequence of the M1(Val213) and M2 genes around residue 101 revealed the M1 Arg101----M2 His101 caused a loss of the cutting site for the restriction endonuclease RsaI. Using this enzyme, as well as 19-mer oligonucleotides probes centered at residues 101 and 376, evaluation of genomic DNA from 22 M1 alleles and 14 M2 alleles revealed that residue 101 was Arg in all M1 alleles and His in all M2 alleles, while residue 376 was Glu in all M1 alleles and Asp in all M2 alleles. Despite the differences in sequence at two amino acids, the M1(Val213) and M2 proteins function similarly as assessed by quantification of the association rate constant of each for their natural substrate neutrophil elastase. In the context that there are two mutations separating the M1(Val213) and M2 alleles, it is likely that there is another alpha 1AT variant that was an intermediate in the evolution of these genes.
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PMID:Characterization of the gene and protein of the common alpha 1-antitrypsin normal M2 allele. 290 Dec 26

The "deficiency" group of alpha 1-antitrypsin (alpha 1AT) alleles is characterized by alpha 1AT genes that code for alpha 1AT present in serum but in amounts insufficient to protect the lower respiratory tract from progressive destruction by its burden of neutrophil elastase. Mprocida, a rare alpha 1AT allele associated with alpha 1AT serum levels less than 10 mg/dl (normal 150-350 mg/dl), codes for an alpha 1AT molecule that focuses on immobilized pH gradient isoelectric gels slightly cathodal to the common normal M1 (Val213) protein. On a per molecule basis, Mprocida has a mildly reduced function as an inhibitor, with an association rate constant for human neutrophil elastase of 7.0 +/- 0.1 x 10(6) M-1 s-1 (normal M1 (Val213) 9.3 +/- 0.8 x 10(6), p less than 0.01). The Mprocida molecule behaves normally in vivo with a half-life similar to normal M1 alpha 1AT molecules. Restriction endonuclease mapping demonstrates that the cloned Mprocida gene was grossly intact. Sequencing of all the exons, exon-intron junctions, and the major promoter region demonstrated Mprocida to be identical to the M1 (Val213) gene except for a single base substitution in exon II coding for amino acid 41 of the mature protein (M1 (Val213) Leu41 CTG----Mprocida Pro41 CCG). Usefully, the coding sequence of the alpha 1AT residues 40-41 is recognized by the restriction endonuclease PvuII so that using a probe corresponding to this region of exon II, the Mprocida mutation can be rapidly identified by Southern analysis. Evaluation of the crystallographic structure of alpha 1AT suggests the Leu41 to Pro41 mutation may disrupt alpha-helix A in the region of Pro21-Ser45, suggesting the possibility that the alpha 1AT Mprocida molecule is unstable and degraded intracellularly prior to secretion.
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PMID:Characterization of the gene and protein of the alpha 1-antitrypsin "deficiency" allele Mprocida. 326 17

This study reports the entire nucleotide sequence of the protein coding region sequence of the alpha 1-antitrypsin (alpha 1AT) Z gene, a common form of the alpha 1AT gene associated with serum alpha 1AT deficiency. In addition to Glu342 to Lys342 mutation in exon V which has been previously identified by peptide analysis, another point mutation (GTG to GCG in exon III) in the gene sequence predicts a second amino acid substitution (Val213 to Ala213) in the Z protein. This Val213 to Ala213 mutation was confirmed to be a general finding in Z type alpha 1AT gene by evaluating genomic DNA from 40 Z haplotypes using synthetic oligonucleotide gene probes directed toward the mutated exon III sequences in the Z gene. Furthermore, the exon III Val213 to Ala213 mutation eliminates a BstEII restriction endonuclease site in the alpha 1AT Z gene, allowing rapid identification of this Val213 to Ala213 substitution at the genomic DNA level. Surprisingly, when genomic DNA samples from individuals thought to be homozygous for the M1 gene (the most common alpha 1AT normal haplotype) were evaluated with BstEII, 23% of the M1 haplotypes were BstEII site negative, thus identifying a new form of M1 (i.e. M1(Ala213], likely identical to M1 but with an isoelectric focusing "silent" amino acid substitution (Val213 to Ala213). Although the relative importance of the newly identified exon III Val213 to Ala213 mutation to the pathogenesis of the abnormalities associated with the Z gene is not known, it is likely that M1(Ala213) gene represents a common "normal" polymorphism of the alpha 1AT gene that served as an evolutionary intermediate between the M1(Val213) and Z genes.
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PMID:Identification of a second mutation in the protein-coding sequence of the Z type alpha 1-antitrypsin gene. 349 Oct 72