Genome-Wide Polygenic Scores Predict Reading Performance Throughout the School Years

Saskia Selzam; Philip S. Dale; Richard K. Wagner; John C. DeFries; Martin Cederlöf; Paul F. O’Reilly; Eva Krapohl; Robert Plomin

doi:10.1080/10888438.2017.1299152

Genome-Wide Polygenic Scores Predict Reading Performance Throughout the School Years

Saskia Selzam
, Philip S. Dale
, Richard K. Wagner
, John C. DeFries
, Martin Cederlöf
, Paul F. O’Reilly
, Eva Krapohl
, Robert Plomin

Research output: Contribution to journal › Article › peer-review

34 Scopus citations

Abstract

It is now possible to create individual-specific genetic scores, called genome-wide polygenic scores (GPS). We used a GPS for years of education (EduYears) to predict reading performance assessed at UK National Curriculum Key Stages 1 (age 7), 2 (age 12) and 3 (age 14) and on reading tests administered at ages 7 and 12 in a UK sample of 5,825 unrelated individuals. EduYears GPS accounts for up to 5% of the variance in reading performance at age 14. GPS predictions remained significant after accounting for general cognitive ability and family socioeconomic status. Reading performance of children in the lowest and highest 12.5% of the EduYears GPS distribution differed by a mean growth in reading ability of approximately two school years. It seems certain that polygenic scores will be used to predict strengths and weaknesses in education.

Original language	English
Pages (from-to)	334-349
Number of pages	16
Journal	Scientific Studies of Reading
Volume	21
Issue number	4
DOIs	https://doi.org/10.1080/10888438.2017.1299152
State	Published - 4 Jul 2017
Externally published	Yes

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10.1080/10888438.2017.1299152

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title = "Genome-Wide Polygenic Scores Predict Reading Performance Throughout the School Years",

abstract = "It is now possible to create individual-specific genetic scores, called genome-wide polygenic scores (GPS). We used a GPS for years of education (EduYears) to predict reading performance assessed at UK National Curriculum Key Stages 1 (age 7), 2 (age 12) and 3 (age 14) and on reading tests administered at ages 7 and 12 in a UK sample of 5,825 unrelated individuals. EduYears GPS accounts for up to 5\% of the variance in reading performance at age 14. GPS predictions remained significant after accounting for general cognitive ability and family socioeconomic status. Reading performance of children in the lowest and highest 12.5\% of the EduYears GPS distribution differed by a mean growth in reading ability of approximately two school years. It seems certain that polygenic scores will be used to predict strengths and weaknesses in education.",

author = "Saskia Selzam and Dale, \{Philip S.\} and Wagner, \{Richard K.\} and DeFries, \{John C.\} and Martin Cederl{\"o}f and O{\textquoteright}Reilly, \{Paul F.\} and Eva Krapohl and Robert Plomin",

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AU - Selzam, Saskia

AU - Dale, Philip S.

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AU - DeFries, John C.

AU - Cederlöf, Martin

AU - O’Reilly, Paul F.

AU - Krapohl, Eva

AU - Plomin, Robert

N1 - Publisher Copyright: © 2017, Published with license by Taylor & Francis Group, LLC © 2017 Saskia Selzam, Philip S. Dale, Richard K. Wagner, John C. DeFries, Martin Cederlöf, Paul F. O’Reilly, Eva Krapohl, and Robert Plomin.

PY - 2017/7/4

Y1 - 2017/7/4

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AB - It is now possible to create individual-specific genetic scores, called genome-wide polygenic scores (GPS). We used a GPS for years of education (EduYears) to predict reading performance assessed at UK National Curriculum Key Stages 1 (age 7), 2 (age 12) and 3 (age 14) and on reading tests administered at ages 7 and 12 in a UK sample of 5,825 unrelated individuals. EduYears GPS accounts for up to 5% of the variance in reading performance at age 14. GPS predictions remained significant after accounting for general cognitive ability and family socioeconomic status. Reading performance of children in the lowest and highest 12.5% of the EduYears GPS distribution differed by a mean growth in reading ability of approximately two school years. It seems certain that polygenic scores will be used to predict strengths and weaknesses in education.

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JO - Scientific Studies of Reading

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Genome-Wide Polygenic Scores Predict Reading Performance Throughout the School Years

Abstract

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