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Substantial Genetic Contribution (substantial + genetic_contribution)

Distribution by Scientific Domains
Medical Sciences75%

Selected Abstracts

Depression and obesity: do shared genes explain the relationship?

DEPRESSION AND ANXIETY, Issue 9 2010
Niloofar Afari Ph.D.
Abstract Background: Studies have found a modest association between depression and obesity, especially in women. Given the substantial genetic contribution to both depression and obesity, we sought to determine whether shared genetic influences are responsible for the association between these two conditions. Methods: Data were obtained from 712 monozygotic and 281 dizygotic female twin pairs who are members of the community-based University of Washington Twin Registry. The presence of depression was determined by self-report of doctor-diagnosed depression. Obesity was defined as body mass index of ,30,kg/m2, based on self-reported height and weight. Generalized estimating regression models were used to assess the age-adjusted association between depression and obesity. Univariate and bivariate structural equation models estimated the components of variance attributable to genetic and environmental influences. Results: We found a modest phenotypic association between depression and obesity (odds ratio=1.6, 95% confidence interval=1.2,2.1). Additive genetic effects contributed substantially to depression (57%) and obesity (81%). The best-fitting bivariate model indicated that 12% of the genetic component of depression is shared with obesity. Conclusions: The association between depression and obesity in women may be in part due to shared genetic risk for both conditions. Future studies should examine the genetic, environmental, social, and cultural mechanisms underlying the relationship between this association. Depression and Anxiety, 2010. © 2010 Wiley-Liss, Inc. [source]

The University of California, San Francisco Family Alcoholism Study.

ALCOHOLISM, Issue 10 2004

Background: The University of California, San Francisco (UCSF) Family Alcoholism Study is a project designed to identify genetic loci that influence susceptibility to alcohol dependence and related phenotypes. Evidence supports a substantial genetic contribution to alcoholism susceptibility. However, the genetic epidemiology of alcoholism is complex, and its clinical manifestation is heterogeneous, making phenotype definition and demonstration of linkage difficult. Despite these challenges, some progress has been made toward identifying genes. Methods: The UCSF Family Alcoholism Study used a small family design, focusing primarily on sibling pairs and parent-child trios for linkage and association studies. Alcoholism-related phenotypes were assessed through interview and self-report questionnaires, with a focus on unidimensional and subphenotypical traits. Data-driven approaches to determining the most promising phenotypes for genetic analysis are being used. Both genome-wide scan and candidate gene approaches were used. Results: The study enrolled 2154 individuals from 970 families from December 1995 through January 2003. Test-retest and interrater reliability for clinical data are very good, and power estimates suggest that this study will have adequate power by linkage analysis to detect loci with moderate effects. Design, methods, and sample demographics of the UCSF Family Study are presented, along with intrafamilial correlations for primary diagnostic phenotypes. Conclusions: Plans for genetic analysis, novel approaches to phenotype refinement, and the implications of ascertainment bias for heritability estimates are discussed. [source]

2243: Update on inherited ocular developmental disease

ACTA OPHTHALMOLOGICA, Issue 2010
GCM BLACK
Purpose To provide an overview of progress in understanding of the genetics of developmental ocular disease. Methods A systematic review, including case presentations, to illustrate insights into genes underlying developmental ocular disorders: Results Studies suggest that, in developed countries, between a third and a half of the diagnoses underlying childhood blind or partial-sighted registration are genetic while a number of other ,non-genetic' conditions also have a substantial genetic contribution. Such a figure is likely to be an underestimate. Although most of these conditions are rare, many of the issues regarding diagnosis and counselling apply to the group as a whole and it is therefore possible to consider a common approach to many aspects of their clinical management. An important challenge, for example, is to improve genetic counselling for patients affected by, and at risk of, disorders that may be caused by a genetic change in one of many possible genes, which typifies many inherited conditions associated with blindness (developmental ocular disorders, early-onset retinal dystrophies, congenital cataract). Most diagnostic genetic testing currently being undertaken focuses on single genes; this will be illustrated for ocular conditions such as retinoblastoma, Norrie disease and microphthalmia. However future prospects will focus upon use of new higher throughput technologies (e.g Microarray technologies). Conclusion The recent identification of genes underlying, for example, anophthalmia/microphthalmia spectrum (e.g. VSX2, SOX2, BCOR), anterior segment dysgenesis (e.g. PITX2, FOXC1, FOXE3) and early,onset retinal disorders (e.g. ADVIRC, RPE65) has shed light on the pathways and processes underlying a range of the biological processes underlying ocular development. [source]

Brief communication: Familial resemblance in digit ratio (2D:4D)

AMERICAN JOURNAL OF PHYSICAL ANTHROPOLOGY, Issue 2 2009
Martin Voracek
Abstract Familial resemblance in the second-to-fourth digit ratio (2D:4D), a proxy for prenatal androgen action, was studied in 1,260 individuals from 235 Austrian families. In agreement with findings from twin studies of 2D:4D, heritability estimates based on parent,child and full-sib dyad similarity indicated substantial genetic contributions to trait expression (57% for right hand, 48% for left hand 2D:4D). Because twin studies have found nonadditive genetic as well as shared environmental effects on 2D:4D to be negligible or nil, these family-based estimates in all likelihood reflect the narrow-sense (additive genetic) heritability of the trait. Directional (right-minus-left) asymmetry in 2D:4D was only weakly heritable (6%). The pattern of same-sex and different-sex parent,child and full-sib correlations yielded no evidence for X-linked inheritance. This is surprising, considering evidence for associations of male 2D:4D with sensitivity to testosterone (functional variants of the X-linked androgen receptor gene). 2D:4D was particularly strongly heritable through male lines (father,son and brother,brother correlations), thus raising the possibility that Y-linked genes (such as the sex-determining region SRY) might influence 2D:4D expression. Am J Phys Anthropol, 2009. © 2009 Wiley-Liss, Inc. [source]