Yazan: admin Tarih: Şub 3rd, 2010 | Kategori::
Paraoxanase gene
Turk Kardiyol Dern Ars. 2009;37(7):473-478.
Taşkıran P, Cam SF, Sekuri C, Tüzün N, Alioğlu E, Altıntaş N, Berdeli A.
Department of Medical Biology and Genetics, Medicine Faculty of Celal Bayar University, Manisa, Turkey.
OBJECTIVES: Paraoxonase (PON1) is a high-density lipoprotein (HDL)-associated esterase that hydrolyses lipoperoxides. PON1 serves as a protective factor against oxidative modification of LDL, suggesting that it may play an important role in the prevention of atherosclerotic process. Research has focused on two polymorphisms: leucine (L allele) to methionine (M allele) substitution at codon 55, and glutamine (A allele) to arginine (B allele) substitution at codon 192. STUDY DESIGN: We examined amino acid changes at codon 55 and 192 in the PON1 gene by polymerase chain reaction and using restriction enzymes in 120 patients (92 men, 28 women; mean age 48.2+/-4.3 years) with premature coronary artery disease (CAD) and in 102 healthy subjects (80 men, 22 women; mean age 46.8+/-5.2 years) with no history of CAD and a normal electrocardiogram. RESULTS: Distribution of genotypes in the patient and control groups at codon 55 were 6.7% and 4.9% for MM, 46.7% and 29.4% for LM, 46.7% and 65.7% for LL, respectively. The frequency of genotypes at codon 192 were as follows: 4.2% and 2% for RR, 40% and 35.3% for QR, and 55.8% and 62.8% for QQ, respectively. While the frequency of PON1 55M allele was higher in the CAD group (0.3 vs. 0.2), PON1 192R allele frequency did not differ (p>0.05). There was a significant relationship between the PON1 M/L55 polymorphism and CAD (p=0.017), whereas the R/Q192 polymorphism was not associated with CAD (p=0.445). CONCLUSION: These data suggest that the PON1 M/L55 polymorphism shows a significant relationship with CAD and the Q/R192 polymorphism is not a major risk factor causing susceptibility to CAD in our population.
Exp Biol Med (Maywood). 2009 Jun 22.
Konac E, Dogan I, Onen IH, Yurdakul AS, Ozturk C, Varol A, Ekmekci A.
Gazi University, Faculty of Medicine.
Hypoxia-inducible factor-1 (HIF-1), an important genetic component of angiogenesis, becomes stable as a response to tumor hypoxia and facilitates tumor survival. The polymorphisms of the HIF-1alpha gene may cause changes in the activity of the protein which serves as a transcription factor for many genes in tumorigenesis. In this study, we have investigated the relationship between seven HIF-1alpha polymorphisms [C>T substitution in intron 8 (rs10873142), T418I (rs41508050) in exon 10, P564P (rs41492849), L580L (rs34005929), P582S (rs11549465), A588T (rs11549467) in exon 12 and dinucleotide GT repeat in intron 13 (rs10645014)] among lung cancer patients in the Turkish population. Genomic DNA was isolated from 141 lung cancer cases and 156 controls and subjected to PCR for amplification. Genotyping was carried out with RFLP and DNA sequencing methods. There was no significant difference between lung cancer cases and controls in terms of the distribution of genotyping frequencies of seven HIF-1alpha polymorphisms (P>0.05). No significant relationship was found between the C>T substitution in intron 8 and P582S haplotypes and development of lung cancer. Also, no significant difference was observed between the genotypes and clinopathological characteristics of the cases. These findings showed that polymorphisms of the HIF-1alpha gene did not confer susceptibility to lung cancer.
Yazan: admin Tarih: Tem 12th, 2009 | Kategori::
Gene polymorphisms,
polymorphisms
Clin Exp Rheumatol. 2009 Mar-Apr;27(2):340-3. Links
Turanli ET, Beger T, Erdincler D, Curgunlu A, Karaman S, Karaca E, Dasdemir S, Bolayirli M, Yazici H.Department of Molecular Biology and Genetics, and 2Molecular Biology and Biotechnology Research Center, Istanbul Technical University, Istanbul, Turkey. turanlie@itu.edu.tr
OBJECTIVES: To analyse the most common MEFV (Mediterranean fever gene) mutations and polymorphisms in an elderly population free of chronic inflammatory disease (n=164), and explore possible associations between hsCRP (high sensitive C-reactive protein) and RF (rheumatoid factor) levels with MEFV mutations and polymorphisms. METHODS: An elderly group free of chronic inflammatory disease was chosen among the outpatients of the division of geriatric medicine. Total genomic DNA was isolated from blood, and PCR-RFLP analysis was performed using established protocols. Sera were analyzed for hsCRP and RF levels. RESULTS: The frequencies for 694V (1.8%), 694I (1.8%), 680I (0.6%), 726A (2.1%) and 148Q (5%) alleles were found to be similar to Turkish historic controls, with a carrier frequency of 1/4. Further analyses with rheumatoid factor (RF) levels and mutations revealed a significant association between the presence of the E148Q polymorphism with increased RF levels (>15 mg/dl) (xi2= 7.358, p=0.007, OR=5.41 95% CI 1.41-20.64). CONCLUSIONS: Common MEFV mutations and polymorphisms were similarly represented among the elderly population compared to historic controls. On the other hand, a significant association was found between the presence of E148Q polymorphism and increased RF levels. This suggests that the previously noted increased RF levels in elderly populations may somehow be related to the now described association of RF with MEFV E148Q polymorphism.
Yazan: admin Tarih: Nis 29th, 2009 | Kategori::
Kategorilenmemiş
Neuromolecular Med. 2009 Apr 19.
Department of Medical Biology, Faculty of Medicine, Suleyman Demirel University, 32260 Cunur, Isparta, Turkey, nilufersahin@yahoo.com.
Mutations in the ganglioside-induced differentiation-associated protein 1 gene (GDAP1) cause Charcot-Marie-Tooth type 2 (CMT2), a severe autosomal recessive form of neuropathy associated with axonal phenotypes. It has been screened in this study for the presence of mutations in the coding region of GDAP1, which maps to chromosome 8q21, in a family with CMT2. To date, 29 mutations in the GDAP1 have been reported in patients of different ethnic origins. Here, we report a novel missense mutation (c.836A>G), and two polymorphisms: a silent variant (c.102G>C), and a 5′-splice site mutation (IVS5+24C>T) in GDPA1 gene identified in a five generation Turkish family with autosomal recessive CMT2.
