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)

Polymerase chain reaction (PCR)-based diagnosis was carried out in 62 patients (57 probands) with Duchenne or Becker muscular dystrophy (DMD or BMD) and 226 members in 57 families. The PCR studies were also performed for carrier detection in 57 mothers and 58 sisters, and prenatal diagnosis of 4 fetuses at risk of DMD. The PCR with 7 sets of primers, which amplify 7 different exon-sequences of the dystrophin gene, detected gene deletion of at least one exon in 49% of the probands. The PCR with the other 4 primer sets, which amplify 3 intragenic loci, and subsequent endonuclease digestion detected in 84% of the mothers a heterozygous pattern in at least one such locus/segment. Using the same primer sets, carrier detection was successful in 5 sisters of familial DMD cases, while recombination between the ERT87 and the 3' end intragenic loci was observed in 11% of family members studied. Prenatal diagnosis was made in all the 4 fetuses; two males were affected, one male fetus non-affected, and the remaining one female fetus a carrier. Thus, the PCR study and the primers used in the present study are useful and convincing for rapid diagnosis of DMD and/or BMD.
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PMID:Gene-deletion and carrier detections, and prenatal diagnosis of Duchenne muscular dystrophy by analysis of the dystrophin gene amplified by polymerase chain reaction. 181 Oct 98

Construction of recombinant adenovirus, which contain human microdystrophin, and then transfection into mesenchymal cells( MSCs) of mdx mice were done, and genetically-corrected isogenic MSCs were acquired; the MSCs transplantation into the mdx mice was then done to treat the Duchenne muscular dystrophy( DMD). Microdystrophin cDNA was obtained from recombinant plasmid pBSK-MICRO digested with restrictive endonuclease Not I ; the production was inserted directionally into pShuttle-CMV. The plasmid of pShuttle-CMV-MICRO was digested by Pme I , the fragment containing microdystrophin was reclaimed and transfected into E. coli BJ5183 with plasmid pAdeasy-1. After screening by selected media, the extracted plasmid of positive bacteria was transfected into HEK293 cells with liposome and was identified by observing the CPE of cells and by the PCR method. Finally, MSCs of mdx mice were infected with the culture media containing recombinant adenovirus, and the expression of microdystrophin was detected by RT-PCR and immunocytochemistry. Recombinant adenovirus including microdystrophin was constructed successfully and the titer of recombinant adenovirus was about 5.58 x 10(12) vp/mL. The recombinant adenovirus could infect MSC of mdx mice and microdystrophin could be expressed in the MSC of mdx mice. Recombinant adenovirus including microdystrophin was constructed successfully, and the microdystrophin was expressed in the MSC of mdx mice. This lays the foundation for the further study of microdystrophin as a target gene to correct the dystrophin-defected MSC for stem cell transplantation to cure DMD.
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PMID:[Construction of recombinant adenovirus including microdystrophin and expression in the mesenchymal cells of mdx mice]. 1736 84

Many human diseases are caused by small alterations in the genes and in the majority of cases sophisticated protocols are required for their detection. In this study we estimated the efficacy of an enzymatic protocol, which using a new mismatch-specific DNA plant endonuclease from celery (CEL family) recognizes and cleaves mismatched alleles between mutant and normal PCR products. The protocol was standardized on a variety of known mutations, in 11 patients with cystic fibrosis (CF), Fabry's disease (FD), steroid 21-hydroxylase deficiency (21-HD) and Duchenne/Becker muscular dystrophy (DMD/BMD). The method does not require special equipment, labeling or standardization for every PCR product, since conditions of heteroduplex formation and enzyme digestion are universal for all products. The results showed that the method is rapid, effective, safe, reliable, and very simple, as the mutations are visualized on agarose or nusieve/agarose gels. The protocol was furthermore evaluated in three DMD patients with the detection of three alterations which after sequencing, were characterized as disease causative mutations. The proposed assay, which was applied for the first time in a variety of monogenic disorders, indicates that point mutation identification is feasible in any conventional molecular lab even for cases, where other techniques have failed.
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PMID:Screening human genes for small alterations performing an enzymatic cleavage mismatched analysis (ECMA) protocol. 1795 67

Many human diseases are caused by small alterations in the genes and in the majority of cases sophisticated protocols are required for their detection. In this study we estimated the efficacy of an enzymatic protocol, which using a new mismatch-specific DNA plant endonuclease from celery (CEL family) recognizes and cleaves mismatched alleles between mutant and normal PCR products. The protocol was standardized on a variety of known mutations, in 11 patients with cystic fibrosis (CF), Fabry's disease (FD), steroid 21-hydroxylase deficiency (21-HD), and Duchenne/Becker muscular dystrophy (DMD/BMD). The method does not require special equipment, labeling or standardization for every PCR product, since conditions of heteroduplex formation and enzyme digestion are universal for all products. The results showed that the method is rapid, effective, safe, reliable, and very simple, as the mutations are visualized on agarose or nusieve/agarose gels. The protocol was furthermore evaluated in three DMD patients with the detection of three alterations, which after sequencing, were characterized as disease causative mutations. The proposed assay, which was applied for the first time in a variety of monogenic disorders, indicates that point mutation identification is feasible in any conventional molecular lab even for cases where other techniques have failed.
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PMID:Screening human genes for small alterations performing an enzymatic cleavage mismatched analysis (ECMA) protocol. 2393 97

Designer nucleases are broadly applied to induce site-specific DNA double-strand breaks (DSB) in genomic DNA. These are repaired by nonhomologous end joining leading to insertions or deletions (in/dels) at the respective DNA-locus. To detect in/del mutations, the heteroduplex based T7-endonuclease I -assay is widely used. However, it only provides semi-quantitative evidence regarding the number of mutated alleles. Here we compared T7-endonuclease I- and heteroduplex mobility assays, with a quantitative polymerase chain reaction mutation detection method. A zinc finger nuclease pair specific for the human adeno-associated virus integration site 1 (AAVS1), a transcription activator-like effector nuclease pair specific for the human DMD gene, and a zinc finger nuclease- and a transcription activator-like effector nuclease pair specific for the human CCR5 gene were explored. We found that the heteroduplex mobility assays and T7-endonuclease I - assays detected mutations but the relative number of mutated cells/alleles can only be estimated. In contrast, the quantitative polymerase chain reaction based method provided quantitative results which allow calculating mutation and homologous recombination rates in different eukaryotic cell types including human peripheral blood mononuclear cells. In conclusion, our quantitative polymerase chain reaction based mutation detection method expands the array of methods for in/del mutation detection and facilitates quantification of introduced in/del mutations for a genomic locus containing a mixture of mutated and unmutated DNA.
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PMID:Quantification of designer nuclease induced mutation rates: a direct comparison of different methods. 2741 95