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Chromosome Haplogroups (chromosome + haplogroup)

Distribution by Scientific Domains

Medical Sciences	100%

Selected Abstracts

Y chromosome haplogroups: A correlation with testicular dysgenesis syndrome?

APMIS, Issue 1 2003
KEN McELREAVEY
Testicular dysgenesis syndrome encompasses low sperm quality, hypospadias, cryptorchidism and testicular cancer. Epidemiological studies and genetic data from familial cases suggest that testicular dysgenesis syndrome has a common etiology. The Y chromosome is known to encode genes that are involved in germ cell development or maintenance. We have therefore investigated if different classes of Y chromosomes in the general population (Y chromosome haplogroups) are associated with aspects of the testicular dysgenesis syndrome. We defined the Y chromosome haplogroups in individuals from different European counties who presented with either (i) oligo- or azoospermia associated with a Y chromosome microdeletion, (ii) unexplained reduced sperm counts (<20×106/ml) or (iii) testicular cancer. We failed to find Y chromosome haplotype associations with either microdeletion formation or testicular cancer. However, in a study of the Danish population, we found that a specific Y chromosome haplogroup (hg26) is significantly overrepresented in men with unexplained reduced sperm counts compared with a Danish control population. The factors encoded by genes on this class of Y chromosome may be particularly susceptible to environmental influences that cause testicular dysgenesis syndrome. Our current data highlight the need for further analyses of clinically well-defined patient groups from a wide range of ethnic and geographic origins. [source]

Lack of association between the incidence of testicular germ cell tumors and Y-chromosome haplogroups in the Japanese population

INTERNATIONAL JOURNAL OF UROLOGY, Issue 9 2006
ASHRAF A EWIS
Background: Despite being relatively uncommon, testicular germ cell tumors (TGCT) are the most common malignant disease in young men. Epidemiological studies concerning patients with testicular cancer indicate that the most of them have poor semen quality or testicular dysgenesis. However, many studies have shown that the Y chromosome harbors many candidate genes responsible for spermatogenesis process and development and maintenance of the germ cells. The Y chromosome is thought to have a relationship with the formation and progression of TGCT. Materials and methods: To verify this relationship, we investigated if there is any correlation between the Y chromosome structural variations presented as different haplogroups and the occurrence of TGCT in the Japanese population. Using combined haplogroups based on typing of three Y chromosome polymorphic binary markers, we analyzed 68 TGCT derived from Japanese patients together with randomly selected 104 unrelated healthy Japanese matched male controls who were confirmed as residents of the same geographic area. Results: Our findings showed a lack of association between the incidence of TGCT and the different Y- chromosome haplogroups in Japanese population. Conclusion: We concluded that there are no significant variations in males from different Y chromosome lineages regarding their susceptibility or resistance for developing TGCT. The previously hypothesized role of the Y chromosome in the development of TGCT is still uncertain and needs further verification. [source]