Event

BRIDGE Webinar with Dan Belsky, Assistant Professor at Duke University School of Medicine

Monday, February 12, 2018 11:00to12:30

Genetic Discoveries for Educational Attainment and Social Class Mobility: Analysis in Five Longitudinal Studies

Dan Belsky, Assistant Professor in the Department of Population Health Sciences at Duke University School of Medicine

A summary genetic measure, called a polygenic score, derived from a genome-wide association study (GWAS) of education can modestly predict a person’s educational and economic success. This prediction could signal biological mechanism; education-linked genetics could encode characteristics that help people get ahead in life. Alternatively, prediction could reflect social history; people from well-off families might stay well-off for social reasons, and these families might also look alike genetically. A key test to distinguish biological mechanism from social history is if people with higher education polygenic scores tend to climb the social ladder beyond their parents’ position. Upward mobility would indicate education-linked genetics encode characteristics that foster success. We tested if education-linked polygenic scores predicted social mobility in >20,000 individuals in five longitudinal studies in the USA, Britain, and New Zealand. Participants with higher polygenic scores achieved more education and career success and accumulated more wealth. However, they also tended to come from better-off families. In the key test, participants with higher polygenic scores tended to be upwardly mobile compared to their parents. Moreover, in sibling-difference analysis, the sibling with the higher polygenic score was more upwardly mobile. Thus, education-GWAS discoveries are not mere correlates of privilege; they influence social mobility within a life. Additional analyses revealed that a mother’s polygenic score predicted her child’s attainment over and above the child’s own polygenic score, suggesting parents’ genetics can also affect their children’s attainment through environmental pathways. Education-GWAS discoveries affect socioeconomic attainment through influence on individuals’ social-mobility and their family-of-origin environments. 

About the speaker

Dan Belsky is Assistant Professor in the Department of Population Health Sciences at Duke University School of Medicine and Assistant Research Professor at Duke's Social Science Research Institute. He is a Jacobs Foundation Early Career Research Fellow (2016-2018), and faculty with the Center for Aging and the Study of Human Development, the Duke University Population Research Institute, and the Center for Child and Family Policy. Dan works at the intersection of genetics, the social and behavioral sciences, and public health.  His work brings together discoveries from the cutting edge of genome science and longitudinal data from population-based cohorts to identify mechanisms that cause accelerated health decline in older age. Dan’s work takes a life-span approach that encompasses research on cohorts of children, young and middle-aged adults, and older adults. His goal is is to understand why socioeconomically disadvantaged populations suffer increased morbidity in older age and earlier mortality, and to devise strategies for intervention to mitigate these health inequalities.

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