Familial Mediterranean Fever (FMF) which is frequently present in Mediterranean populations is caused by mutations in the MEFV gene. According to recent data, MEFV mutations are not the only cause of FMF, but these are major genetic determinants which cause FMF. It has also been suggested that there may be a number of other genes causing FMF. The MEFV gene is located at 16p13.3 and encodes a protein, pyrin/marenostrin. More than 70 disease associated mutations and totally 186 mutations and polymorphisms have been defined in affected individuals. We have retrospectively evaluated the molecular test results of 1,201 patients identified as having FMF clinical symptoms referred to the Molecular Genetics Laboratory of the Department of Medical Genetics, Faculty of Medicine, Ege University, Izmir/Turkey over the last 4 years. Patients were tested for 12 common mutations in the MEFV gene using a strip assay method (Innogenetics, Belgium). Out of the 1,201 patients tested (2,402 chromosomes) in the Aegean region in Turkey, 654 (54.45%) did not carry any mutations, among the 547 (45.55%) patients with mutations 246 patients were either homozygous (101) or compound heterozygous (145), 296 carried only one detected mutation, and five patients had three mutations. Allelic frequencies for the four most common mutations in the mutation positive groups were 47.60% (M694V), 16.75% (E148Q), 12.95% (V726A), 11.94% (M680I G/C).The remaining alleles (10.76%) showed rare mutations which were R761H, P369S, A744S, K695R, F479L, M694I. When the frequencies of mutations detected in our group were compared to the frequencies reported in the other regions of Turkey, an increase in V726A mutation frequency was observed. No patient showed a I692del mutation which is sometimes evident in other Mediterranean populations.
Purpose To detect somatic cytogenetic abnormalities and AZF microdeletions in a sample of 187 Turkish infertile men to determine the frequencies and the characteristics of our primary male infertility data in order to perform appropriate genetic counseling. Methods This study included 187 infertile men. Chromosomal studies and screening of AZF deletions was performed by multiplex polymerase chain reaction (PCR) analysis using the Y Chromosome Deletion Detection System.
We report a 6-year-old boy diagnosed as transfusion dependent chronic nonspherocytic hemolytic anemia since 40 days old. Hemoglobin H inclusions were detected with brilliant cresyl blue preparation. His parents were found to be normal on physical examination. His mother had hemoglobin level of 9.34 g/dL, accompanied by typical thalassemic changes of the red cells, and inclusion bodies were also detected with brilliant cresyl blue staining. His father had normal hemoglobin level and borderline red cell indices. Mutation analysis using strip assay capable of detecting 22 mutations within the alpha genes was performed for the proband and the parents which revealed that the case was compound heterozygous for Hb Adana in alpha1 gene and 20.5 kb double gene deletion. The father was found to be heterozygous for Hb Adana alpha1 gene whereas the mother was found to be compound heterozygous for 20.5 kb double gene deletion and 3.7 kb single gene deletion. It is well known that non deletional forms of HbH disease are more severe than the deletional forms. This case represents another example of the nondeletional mutation underlying Hb Adana, which is rarely seen in alpha1 gene, and illustrates the distinctive phenotypes of both the deletional and nondeletional forms of hemoglobin H disease within the same family.
scite is a Brooklyn-based organization that helps researchers better discover and understand research articles through Smart Citations–citations that display the context of the citation and describe whether the article provides supporting or contrasting evidence. scite is used by students and researchers from around the world and is funded in part by the National Science Foundation and the National Institute on Drug Abuse of the National Institutes of Health.