Otosclerosis is an early-middle adult life genetic disease affecting bone remodelling in the ear. Current knowledge of otosclerosis as an inherited disease dates to the mid-19th century, and we report here an attempt to understand the genetics of otosclerosis and detect its heterogeneity. The analysis was conducted on 151 otosclerotic families. The results of our study indicate that while heredity plays an important role in the manifestation of the disease a substantial portion of otosclerotic cases could arise due to non-genetic causes.
The polymorphisms of constitutive heterochromatin regions, present on chromosomes 1, 9, 16 and Y, are inherited in a Mendelian fashion. The C-band heteromorphism has been reported to be associated with various types of cancer. Heterochromatin is considered to play a role in protecting genome against the mutagens. Changes in the quantity and proportion of the different types of satellite DNA might increase the genetic susceptibility in people with heterochromatic variations, which in turn cause chromosome instability and predispose the individual to cancer. We report a case of bilateral retinoblastoma with complete absence of pericentromeric heterochromatin on one of the chromosomes number 9. A similar deficiency of pericentromeric heterochromatin on chromosome number 9 and 16 has been reported in a phenotypically normal individual and a Down syndrome case, respectively. This deficiency was found to be inherited from the father in all the three cases. Complete absence of pericentromeric heterochromatin of chromosome 9 is not being reported in association with cancer syndromes. Further studies are necessary to understand the role of this factor in normals and in those with cancer susceptibility, specially with retinoblastoma and the paternal origin of this deficiency.
The year 2001 witnessed the sequencing of 90% of the euchromatic region in the human genome but the ultimate goal to delineate the positions of all genes is yet to be achieved. Fluorescence In Situ Hybridization (FISH) is one of the methods for localizing genes on chromosomes. In the present study, diagnostic utility of single-, dual-, and multicolor FISH was evaluated for prenatal diagnosis, cancer genetics, and screening of various congenital anomalies (sex chromosomal and autosomal). Centromeric probes for chromosomes X and Y were used for screening minor aneuploid cell lines (XXY, XO, and XXX) in the cases of primary amenorrhea and suspected Klinefelter syndrome. The cases with ambiguous genitalia were analyzed using a probe specific for the sex-determining region (SRY). Suspected cases of Down syndrome were subjected to FISH using probe specific for chromosome 21. FISH was also used to study gene alterations in retinoblastoma and myeloid leukemias. Prenatal diagnosis was done to screen for aneuploidies of chromosomes 13, 18, 21, X, and Y using FISH on uncultured cells from amniotic fluid and chorionic villi sampling. The screening for common aneuploidies was extended to abortuses from spontaneous abortions. Using FISH, low-level mosaicism could be identified in some cases of primary amenorrhea and suspected Klinefelter syndrome. Submicroscopic gene rearrangements could be detected using FISH in cases of ambiguous genitalia and cancers. Further interphase FISH could provide results within 24 hours. To conclude, FISH adds to the diagnostic utility of routine cytogenetics and its use on interphase nuclei overcomes the difficulty of conventional cytogenetics, thereby reducing the time between sampling and diagnosis to 24 hr.
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