Variance Components Models for Gene–Environment Interaction in Twin Analysis

Shaun Purcell

doi:10.1375/twin.5.6.554

Abstract

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Gene–environment interaction is likely to be a common and important source of variation for complex behavioral traits. Often conceptualized as the genetic control of sensitivity to the environment, it can be incorporated in variance components twin analyses by partitioning genetic effects into a mean part, which is independent of the environment, and a part that is a linear function of the environment. The model allows for one or more environmental moderator variables (that possibly interact with each other) that may i) be continuous or binary ii) differ between twins within a pair iii) interact with residual environmental as well as genetic effects iv) have nonlinear moderating properties v) show scalar (different magnitudes) or qualitative (different genes) interactions vi) be correlated with genetic effects acting upon the trait, to allow for a test of gene–environment interaction in the presence of gene–envi-ronment correlation. Aspects and applications of a class of models are explored by simulation, in the context of both individual differences twin analysis and, in a companion paper (Purcell & Sham, 2002) sibpair quantitative trait locus linkage analysis. As well as elucidating environmental pathways, consideration of gene–environment interaction in quantitative and molecular studies will potentially direct and enhance gene-mapping efforts.

Crossref Citations

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Jang, Kerry L Stein, Murray B Taylor, Steven Asmundson, Gordon J.G and Livesley, W.John 2003. Exposure to traumatic events and experiences: aetiological relationships with personality function. Psychiatry Research, Vol. 120, Issue. 1, p. 61.

Turkheimer, Eric Haley, Andreana Waldron, Mary D'Onofrio, Brian and Gottesman, Irving I. 2003. Socioeconomic Status Modifies Heritability of IQ in Young Children. Psychological Science, Vol. 14, Issue. 6, p. 623.

Lau, Jennifer Y. F. and Eley, Thalia C. 2004. Gene-environment interactions and correlations in psychiatric disorders. Current Psychiatry Reports, Vol. 6, Issue. 2, p. 119.

McArdle, John J. and Prescott, Carol A. 2005. Mixed-Effects Variance Components Models for Biometric Family Analyses. Behavior Genetics, Vol. 35, Issue. 5, p. 631.

Johnson, Wendy and Krueger, Robert F. 2005. Genetic Effects on Physical Health: Lower at Higher Income Levels. Behavior Genetics, Vol. 35, Issue. 5, p. 579.

Turkheimer, Eric D'Onofrio, Brian M. Maes, Hermine H. and Eaves, Lindon J. 2005. Analysis and Interpretation of Twin Studies Including Measures of the Shared Environment. Child Development, Vol. 76, Issue. 6, p. 1217.

Button, Tanya Maria May Scourfield, Jane Martin, Neilson Purcell, Shaun and McGuffin, Peter 2005. Family Dysfunction Interacts with Genes in the Causation of Antisocial Symptoms. Behavior Genetics, Vol. 35, Issue. 2, p. 115.

E. Moffitt, Terrie 2005. Vol. 55, Issue. , p. 41.

CrossRef

Jacobson, Kristen C. 2005. Encyclopedia of Statistics in Behavioral Science.

Johnson, Wendy and Krueger, Robert F. 2005. Higher Perceived Life Control Decreases Genetic Variance in Physical Health: Evidence From a National Twin Study.. Journal of Personality and Social Psychology, Vol. 88, Issue. 1, p. 165.

Boomsma, Dorret I. Willemsen, Gonneke Dolan, Conor V. Hawkley, Louise C. and Cacioppo, John T. 2005. Genetic and Environmental Contributions to Loneliness in Adults: The Netherlands Twin Register Study. Behavior Genetics, Vol. 35, Issue. 6, p. 745.

Dick, Danielle M. Viken, Richard J. Kaprio, Jaakko Pulkkinen, Lea and Rose, Richard J. 2005. Understanding the Covariation Among Childhood Externalizing Symptoms: Genetic and Environmental Influences on Conduct Disorder, Attention Deficit Hyperactivity Disorder, and Oppositional Defiant Disorder Symptoms. Journal of Abnormal Child Psychology, Vol. 33, Issue. 2, p. 219.

Moffitt, Terrie E. 2005. The New Look of Behavioral Genetics in Developmental Psychopathology: Gene-Environment Interplay in Antisocial Behaviors.. Psychological Bulletin, Vol. 131, Issue. 4, p. 533.

Posthuma, D and Boomsma, D. I. 2005. Mx Scripts Library: Structural Equation Modeling Scripts for Twin and Family Data. Behavior Genetics, Vol. 35, Issue. 4, p. 499.

Kupper, Nina de Geus, Eco J.C. van den Berg, Mireille Kirschbaum, Clemens Boomsma, Dorret I. and Willemsen, Gonneke 2005. Familial influences on basal salivary cortisol in an adult population. Psychoneuroendocrinology, Vol. 30, Issue. 9, p. 857.

Harris, Jennifer R. 2005. Introduction. The Journals of Gerontology: Series B, Vol. 60, Issue. Special_Issue_1, p. 5.

Jang, Kerry L. Woodward, Todd S. Lang, Donna Honer, William G. and Livesley, W John 2005. The Genetic and Environmental Basis of the Relationship Between Schizotypy and Personality. Journal of Nervous & Mental Disease, Vol. 193, Issue. 3, p. 153.

Kremen, William S. Jacobson, Kristen C. Xian, Hong Eisen, Seth A. Waterman, Brian Toomey, Rosemary Neale, Michael C. Tsuang, Ming T. and Lyons, Michael J. 2005. Heritability of Word Recognition in Middle-Aged Men Varies as a Function of Parental Education. Behavior Genetics, Vol. 35, Issue. 4, p. 417.

Eley, Thalia C. and Lau, Jennifer Y.F. 2005. Psychopathology and the Family. p. 3.

Jang, Kerry L. Dick, Danielle M. Wolf, Heike Livesley, W. John and Paris<, Joel 2005. Psychosocial adversity and emotional instability: an application of gene–environment interaction models. European Journal of Personality, Vol. 19, Issue. 4, p. 359.

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Variance Components Models for Gene–Environment Interaction in Twin Analysis

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