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We began analyzing https://link.springer.com/article/10.1007/s00439-006-0202-5, but it redirected us to https://link.springer.com/article/10.1007/s00439-006-0202-5. The analysis below is for the second page.

Title[redir]:
Regional distribution of mutations of the ATP7B gene in patients with Wilson disease: impact on genetic testing | Human Genetics
Description:
Wilson disease is an autosomal recessive inherited disorder of copper metabolism. The Wilson disease gene codes for a copper transporting P-type ATPase (ATP7B). Molecular genetic analysis reveals at least 300 distinct mutations. While most reported mutations occur in single families, a few are more common. The most common mutation in patients from Central, Eastern, and Northern Europe is the point mutation H1069Q (exon 14). About 50–80% of Wilson disease (WD) patients from these countries carry at least one allele with this mutation with an allele frequency ranging between 30 and 70%. Other common mutations in Central and Eastern Europe are located on exon 8 (2299insC, G710S), exon 15 (3400delC) and exon 13 (R969Q). The allele frequency of these mutations is lower than 10%. In Mediterranean countries there is a wide range of mutations, the frequency of each of them varies considerably from country to country. In Sardinia, a unique deletion in the 5′ UTR (−441/−427 del) is very frequent. In mainland Spain the missense mutation M645R in exon 6 is particularly common. Data from non-European countries are scarce. Most data from Asia are from Far Eastern areas (China, South Korea and Japan) where the R778L missense mutation in exon 8 is found with an allele frequency of 14–49%. In summary, given the constant improvement of analytic tools genetic testing will become an integral part for the diagnosis of WD. Knowledge of the differences in the worldwide distribution of particular mutations will help to design shortcuts for genetic diagnosis of WD.

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Keywords {🔍}

disease, article, google, scholar, wilson, cas, pubmed, mutations, gene, patients, atpb, genet, mutation, wilsons, analysis, ferenci, hum, genetic, clin, copper, molecular, med, clinical, identification, loudianos, atpase, common, exon, frequency, mutat, correlation, dessi, population, privacy, cookies, content, data, search, human, genetics, diagnosis, spectrum, study, genotypephenotype, characterization, lovicu, publish, allele, mediterranean, access,

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n-terminal metal-binding sites month download article/chapter human copper-transporting atpase copper transporting atpase full article pdf privacy choices/manage cookies n-terminal domain copper-induced conformational copper metabolism early clinical manifestation nucleotide-binding domain regional distribution human wilson protein missense mutation m645r r778l missense mutation rna splicing mutation related subjects 5th international symposium 8th international meeting dna strip technology mutation analysis approach wilson disease gene menkes disease gene genetics point mutation h1069q conditions privacy policy article ferenci european economic area comprehensive clinical hepatology phenotype–genotype correlations genotype–phenotype correlations saudi-specific mutations dna linkage analysis accepting optional cookies hui ethnic patients check access technical university delft distinct functional properties structure/function predictions instant access genotype-phenotype correlation genotype–phenotype correlation genotype/phenotype correlation sardinian population—evidence peter ferenci reported mutations occur article log main content log phenotype-genotype analysis east german patients

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         description:Wilson disease is an autosomal recessive inherited disorder of copper metabolism. The Wilson disease gene codes for a copper transporting P-type ATPase (ATP7B). Molecular genetic analysis reveals at least 300 distinct mutations. While most reported mutations occur in single families, a few are more common. The most common mutation in patients from Central, Eastern, and Northern Europe is the point mutation H1069Q (exon 14). About 50–80% of Wilson disease (WD) patients from these countries carry at least one allele with this mutation with an allele frequency ranging between 30 and 70%. Other common mutations in Central and Eastern Europe are located on exon 8 (2299insC, G710S), exon 15 (3400delC) and exon 13 (R969Q). The allele frequency of these mutations is lower than 10%. In Mediterranean countries there is a wide range of mutations, the frequency of each of them varies considerably from country to country. In Sardinia, a unique deletion in the 5′ UTR (−441/−427 del) is very frequent. In mainland Spain the missense mutation M645R in exon 6 is particularly common. Data from non-European countries are scarce. Most data from Asia are from Far Eastern areas (China, South Korea and Japan) where the R778L missense mutation in exon 8 is found with an allele frequency of 14–49%. In summary, given the constant improvement of analytic tools genetic testing will become an integral part for the diagnosis of WD. Knowledge of the differences in the worldwide distribution of particular mutations will help to design shortcuts for genetic diagnosis of WD.
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      headline:Regional distribution of mutations of the ATP7B gene in patients with Wilson disease: impact on genetic testing
      description:Wilson disease is an autosomal recessive inherited disorder of copper metabolism. The Wilson disease gene codes for a copper transporting P-type ATPase (ATP7B). Molecular genetic analysis reveals at least 300 distinct mutations. While most reported mutations occur in single families, a few are more common. The most common mutation in patients from Central, Eastern, and Northern Europe is the point mutation H1069Q (exon 14). About 50–80% of Wilson disease (WD) patients from these countries carry at least one allele with this mutation with an allele frequency ranging between 30 and 70%. Other common mutations in Central and Eastern Europe are located on exon 8 (2299insC, G710S), exon 15 (3400delC) and exon 13 (R969Q). The allele frequency of these mutations is lower than 10%. In Mediterranean countries there is a wide range of mutations, the frequency of each of them varies considerably from country to country. In Sardinia, a unique deletion in the 5′ UTR (−441/−427 del) is very frequent. In mainland Spain the missense mutation M645R in exon 6 is particularly common. Data from non-European countries are scarce. Most data from Asia are from Far Eastern areas (China, South Korea and Japan) where the R778L missense mutation in exon 8 is found with an allele frequency of 14–49%. In summary, given the constant improvement of analytic tools genetic testing will become an integral part for the diagnosis of WD. Knowledge of the differences in the worldwide distribution of particular mutations will help to design shortcuts for genetic diagnosis of WD.
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