Gene/Protein
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Drug
Enzyme
Compound
Pivot Concepts:
Gene/Protein
Disease
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Drug
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Target Concepts:
Gene/Protein
Disease
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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)
Familial hypercholesterolemia
(FH) is an autosomal dominant disorder caused by mutations in the low density lipoprotein (LDL) receptor gene. Currently, diagnosis of heterozygous FH relies on clinical phenotype; however, the use of clinical criteria for the diagnosis of heterozygous FH does not always permit unequivocable diagnosis of the disease. Molecular diagnosis of FH is clinically valuable especially in regions where founder mutations exist or where polygenic hypercholesterolemia is prevalent. In this paper we report the identification of a novel mutation, a cytosine to guanine substitution, at codon 152 in exon 4 of the LDL receptor gene in a Nova Scotian family clinically diagnosed with heterozygous FH. The mutation creates a recognition sequence for the restriction
endonuclease
BsrI, and can be readily detected by BsrI restriction analysis of a 160 bp amplicon spanning the mutation. This analysis was used to show that the mutation segregated with the disease in this family and is the probable cause of FH in this kindred.
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PMID:A novel mutation in Exon 4 of the low density lipoprotein receptor gene resulting in heterozygous familial hypercholesterolemia associated with decreased ligand binding. 954 26
Familial hypercholesterolaemia
(FH) is an inherited autosomal codominant disorder caused by many different mutations in the low-density lipoprotein receptor (LDLR) gene. The one described most frequently in patients with FH from England, arises from a G-->A transition at the first nucleotide of codon 80, resulting in the substitution of lysine for glutamic acid at residue 80 of the mature protein, FH E80K. We describe a simple method to detect this mutation in genomic DNA using the polymerase chain reaction (PCR). A 69 base pair (bp) fragment of exon 3 of the LDLR gene is amplified using a mutagenic upstream PCR primer. This substitutes a T for an A residue in the amplified product, 2 bp upstream from the mutant site, generating a restriction site for the
endonuclease
Taq I, in normal, but not in mutant DNA. Following digestion of amplified DNA with Taq I, normal but not mutant DNA is cut into two fragments of 29 and 40 bp, which are readily identified by polyacrylamide gel electrophoresis. Using this method, 410 patients with clinically diagnosed FH, attending lipid clinics in Edinburgh (72), Newport (158), Walsall (30) and Southampton (150), were screened for the mutation. Five individuals tested positive as heterozygotes, one from Edinburgh, three from Newport and one from Southampton. This finding was confirmed by DNA sequence analysis. We conclude that FH due to this mutation occurs in individuals throughout Great Britain and that it can be detected accurately using this simple technique. DNA from these and other individuals previously identified to be heterozygous for FH E80K, was then studied using PCR of highly informative microsatellite markers flanking the LDLR gene. Sixteen of 17 apparently unrelated individuals heterozygous for FH E80K also were heterozygous for an identical size (239 nucleotide) allele, of polymorphic microsatellite D19S394, located approximately 250 kb away from the LDLR gene. This supports the hypothesis that FH E80K in these 16 individuals arose from a single ancestor less than 1000 years ago.
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PMID:Simplified detection of a mutation causing familial hypercholesterolaemia throughout Britain: evidence for an origin in a common distant ancestor. 954 93
Several environmental and genetic factors are associated with high levels of cholesterol. Hypercholesterolemia is the main phenotype of Familial Defective Apolipoprotein B and
Familial Hypercholesterolemia
that are caused by mutations at the apolipoprotein (apo) B and LDL receptor genes, respectively. Identification of the specific genetic alteration associated with hypercholesterolemia is an important issue in clinical diagnosis of high risk for CAD. Apo B gene mutations and polymorphisms are usually screened by SSCP, DGGE, and heteroduplex, which must be confirmed by DNA sequencing or by direct detection using PCR techniques. In this study, we have optimized a PCR-RFLP procedure for identification of 3500Q and 3531 mutations and MspI polymorphism at the apo B gene. The technique can be performed in a single reaction, using the restriction
endonuclease
MspI for simultaneous detection of 3500Q mutation and MspI polymorphism, and NsiI for detection of 3531 mutation. The procedure was validated by analysis of control DNA samples from individuals carrying these mutations. Screening of 186 Brazilian hypercholesterolemic individuals showed that the frequency of the M-allele (7.8%) of MspI polymorphism was similar to that found in other individuals with CAD. However, neither 3500Q nor 3531 mutations were detected in this group. In conclusion, this procedure is simple and rapid, being easily introduced in clinical laboratories for direct detection of the more frequent mutations at the apo B gene associated with hypercholesterolemia.
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PMID:Rapid detection of 3500Q and 3531 mutations and MspI polymorphism in exon 26 at the apolipoprotein B gene. 1117 Feb 32
