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Tarama Hakkında Basılmış Yayınlarımız
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Urinary Glycosaminoglycan Electrophoresis With Optimized Keratan Sulfate Separation Using Peltier Sy
26.10.2015 in Journal of Inborn Errors of Metabolism &Screening
The purpose of this communication is to indicate a simple and rapid method with a small volume of urine sample to detect urine glycosaminoglycan (GAG) and serve as a screening procedure for mucopolysaccharidoses (MPSs). Total GAG measurement forpatients with MPS disorders is considered to be the first step indiagnosis of those heterogeneous group of lysosomal storage disorders presenting clinical phenotype. In this study, modified 9-dimethylmethylene blue method is used for total GAG measurement. Following GAG quantitation, the procedure described here allows GAG isolation from a very a small volume of urine sample and subjected to high-resolution GAG electrophoresis, which can be easily performed in routine clinical diagnostic laboratories. Glycosaminoglycan precipitation is a modified method based on total GAG concentration in the urine. For optimizedisolation of total GAG for electrophoresis, instead of considering the urine creatinine concentration, 300μg/mL GAG containing urine is considered to be the target concentration for the best precipitation with 1000 μL cetylpyridinium chloride (CPC)/citratebuffer. Glycosaminoglycan concentration-based precipitation of urine with CP Callowsthelaboratorytobeabletoworkwithasmall volume of urine sample by keeping the precipitating ratio with CPC constant for samples that contain GAG less than 300 μg/mL. Based on the effect of cold buffer using low voltage, GAGs high-resolution electrophoresis banding patterns described here enable aclear separation of keratan sulfate from chondroitin sulfate as well as dermatan sulfate (DS1 and DS2) and heparan sulfate. By this procedure, GAG patterns are more clear, easily identified, and provide a guide for the enzyme analysis deficient in the MPS disorders.
Makalenin Devamı için tıklayınız
Mihriban Tijen Tanyalcin, MD, PhD
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OPTIMISATION OF KERATAN SULFATE SEPARATION BY USING PELTIER SYSTEM
2-5 September 2014 in Innsbruck
OPTIMISATION
OF KERATAN SULFATE SEPARATION BY USING PELTIER SYSTEM FOLLOWING AN IMPROVED
RAPID ISOLATION OF URINARY GLYCOSAMINOGLYCANS OFSMALL VOLUME OF URINE SAMPLES AIM :The procedure described here allows GAG
isolation and high resolution GAG
electrophoresis to be easily performed in routine clinical diagnostic
laboratories.
Tanyalcin MT Journal of Inborn Errors
of Metabolism and Screening, 13th
International Symposium on Mucopolysaccharidoses and Related Diseases, Special
Supplement With The Abstracts, page 30 August 2014
Tanyalcin T Journal of Inherited
Metabolic Disease, Volume 37, Supplement 1, pp 335 September 2014
Link için tıklayınız/Click for download
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RAPID ANALYSIS OF L-ARGININOSUCCINIC ACID (ASA) BY USING A SHORT PROGRAM OF TOTAL HOMOCYSTEINE
2-5 September 2014 in Innsbruck
AIM :This study presents a rapid quantification of
ASA by the modified method of total homocysteine program for the Norleucine users as an internal
standard for full - standard amioacid chromatogram on Biochrom 30 aminoacid
analyser.
Tanyalçin T Journal of Inherited Metabolic Disease, Volume 37, Supplement 1, pp 158 September 2014
Link için tıklayınız, Click for download
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Mutations in BTD gene causing biotinidase deficiency: a regional report
Kasım 2014
J Pediatr Endocrinol Metab. 2015 Mar 1;28(3-4):421-4. doi: 10.1515/jpem-2014-0056. Abstract
Biotinidase deficiency is an autosomal recessive inborn error of biotin
metabolism. Children with biotinidase deficiency cannot cleave biocytin
and, therefore, cannot recycle biotin. Untreated individuals become
secondarily biotin deficient, which in turn results in decreased
activities of the biotin-dependent carboxylases and the subsequent
accumulation of toxic metabolites causing clinical symptoms. Biotinidase
deficiency is characterized by neurological, cutaneous manifestations
and metabolic abnormalities. The worldwide incidence of profound
biotinidase deficiency has been estimated at 1:112,271. The human
biotinidase gene is located on chromosome 3p25 and consists of four
exons with a total length of 1629 base pairs. To date, more than 100
mutations in the biotinidase gene known to cause biotinidase deficiency
have been reported. The vast majority of mutations are homozygous or
compound heterozygous. Finding known mutations can be correlated with
the biochemical enzymatic results. This report summarizes the
demographic features of patients identified as biotinidase deficient
from August of 2012 through August of 2013 and mutation analysis results
for 20 cases in the southeast region of Turkey. Link için tıklayınız/Click for download
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Enhanced interpretation of newborn screening results without analyte cutoff values.
2012 Jul
Genet Med. 2012 Jul;14(7):648-55. doi: 10.1038/gim.2012.2. Epub 2012 Feb 16.
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