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dc.contributor.authorBaykal, T
dc.contributor.authorRomstad, A
dc.contributor.authorKalkanoglu, HS
dc.contributor.authorCoskun, T
dc.contributor.authorDemirkol, M
dc.contributor.authorGuttler, F
dc.contributor.authorGuldberg, P
dc.contributor.authorTokatli, A
dc.contributor.authorDursun, A
dc.contributor.authorOzalp, I
dc.date.accessioned2021-03-03T10:00:29Z
dc.date.available2021-03-03T10:00:29Z
dc.date.issued2000
dc.identifier.citationRomstad A., Kalkanoglu H., Coskun T., Demirkol M., Tokatli A., Dursun A., Baykal T., Ozalp I., Guldberg P., Guttler F., "Molecular analysis of 16 Turkish families with DHPR deficiency using denaturing gradient gel electrophoresis (DGGE)", HUMAN GENETICS, cilt.107, sa.6, ss.546-553, 2000
dc.identifier.issn0340-6717
dc.identifier.othervv_1032021
dc.identifier.otherav_201abe7e-b764-4521-a422-89962282e3f0
dc.identifier.urihttp://hdl.handle.net/20.500.12627/26667
dc.identifier.urihttps://doi.org/10.1007/s004390000407
dc.description.abstractDihydropteridine reductase (DHPR) catalyses the conversion of quinonoid dihydrobiopterin (qBH(2)) to tetrahydrobiopterin (BH4), which serves as the obligatory cofactor for the aromatic amino acid hydroxylases, DHPR deficiency, caused by mutations in the QDPR gene, results in hyperphenylalaninemia and deficiency of various neurotransmitters in the central nervous system, with severe neurological symptoms as a consequence. We have studied, at the clinical and molecular levels, 17 patients belonging to 16 Turkish families with DHPR deficiency. The patients were detected at neonatal screening for hyperphenylalaninemia or upon the development of neurological symptoms. To identify the disease causing molecular defects, we developed a sensitive screening method that rapidly scans the entire open reading frame and all splice sites of the QDPR gene. This method combines PCR amplification and "GC-clamping" of each of the seven exonic regions of QDPR, resolution of mutations by denaturing gradient gel electrophoresis (DGGE), and identification of mutations by direct sequence analysis. A total of ten different mutations were identified, of which three are known (G23D, Y150C, R221X) and the remaining are novel (G17R, G18D, W35fs, Q66R, W90X, S97fs and G149R). Six of these mutations are missense variants, two are nonsense mutations, and two are frameshift mutations. All patients had homoallelic genotypes, which allowed the establishment of genotype-phenotype associations. Our findings suggest that DGGE is a fast and efficient method for detection of mutations in the QDPR gene, which may be useful for confirmatory DNA-based diagnosis, genetic counselling and prenatal diagnosis in DHPR deficiency.
dc.language.isoeng
dc.subjectMoleküler Biyoloji ve Genetik
dc.subjectYaşam Bilimleri (LIFE)
dc.subjectTıp
dc.subjectSağlık Bilimleri
dc.subjectDahili Tıp Bilimleri
dc.subjectTıbbi Genetik
dc.subjectYaşam Bilimleri
dc.subjectMoleküler Biyoloji ve Genetik
dc.subjectTemel Bilimler
dc.subjectGENETİK VE HAYAT
dc.titleMolecular analysis of 16 Turkish families with DHPR deficiency using denaturing gradient gel electrophoresis (DGGE)
dc.typeMakale
dc.relation.journalHUMAN GENETICS
dc.contributor.department, ,
dc.identifier.volume107
dc.identifier.issue6
dc.identifier.startpage546
dc.identifier.endpage553
dc.contributor.firstauthorID126911


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