Cognitive Polygenic Index is Associated with Occupational Complexity over and above Brain Morphometry.

IF 2.6 4区医学 Q2 BEHAVIORAL SCIENCES Behavior Genetics Pub Date : 2024-09-01 Epub Date: 2024-08-20 DOI:10.1007/s10519-024-10194-x

A Tsapanou, N Mourtzi, Y Gu, D W Belsky, S Barral, C Habeck, Yaakov Stern

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Abstract

Although the impact of occupation on cognitive skills has been extensively studied, there is limited research examining if genetically predicted cognitive score may influence occupation. We examined the association between Cognitive Polygenic Index (PGI) and occupation, including the role of brain measures. Participants were recruited for the Reference Ability Neural Network and the Cognitive Reserve studies. Occupational complexity ratings for Data, People, or Things came from the Dictionary of Occupational Titles. A previously-created Cognitive PGI and linear regression models were used for the analyses. Age, sex, education, and the first 20 genetic Principal Components (PCs) of the sample were covariates. Total cortical thickness and total gray matter volume were further covariates. We included 168 white-ethnicity participants, 20-80 years old. After initial adjustment, higher Cognitive PGI was associated with higher Data complexity (B=-0.526, SE = 0.227, Beta= -0.526 p = 0.022, R² = 0.259) (lower score implies higher complexity). Associations for People or Things were not significant. After adding brain measures, association for Data remained significant (B=-0.496, SE: 0.245, Beta= -0.422, p = 0.045, R² = 0.254). Similarly, for a further, fully-adjusted analysis including all the three occupational complexity measures (B=-0.568, SE = 0.237, Beta= -0.483, p = 0.018, R² = 0.327). Cognitive genes were associated with occupational complexity over and above brain morphometry. Working with Data occupational complexity probably acquires higher cognitive status, which can be significantly genetically predetermined.

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认知多基因指数与职业复杂性的关系超过了脑形态测量。

虽然职业对认知技能的影响已被广泛研究，但关于基因预测的认知分数是否会影响职业的研究却很有限。我们研究了认知多基因指数（PGI）与职业之间的关联，包括大脑测量的作用。参考能力神经网络和认知储备研究招募了参与者。数据、人或事物的职业复杂性评级来自《职业名称词典》（Dictionary of Occupational Titles）。分析中使用了之前创建的认知 PGI 和线性回归模型。年龄、性别、教育程度和样本的前 20 个遗传主成分（PC）是协变量。皮层总厚度和灰质总体积也是协变量。我们纳入了 168 名 20-80 岁的白人参与者。经过初步调整后，认知 PGI 越高，数据复杂度越高（B=-0.526，SE = 0.227，Beta= -0.526 p = 0.022，R2 = 0.259）（分数越低，复杂度越高）。人或物的相关性不显著。在加入大脑测量后，数据的相关性仍然显著（B=-0.496，SE：0.245，Beta=-0.422，p=0.045，R2=0.254）。同样，对包括所有三个职业复杂性测量指标在内的进一步完全调整分析也是如此（B=-0.568，SE=0.237，Beta=-0.483，p=0.018，R2=0.327）。认知基因与职业复杂性的相关性超过了大脑形态测量。工作数据职业复杂性可能会获得更高的认知状态，而这在很大程度上是由基因预先决定的。

本文章由计算机程序翻译，如有差异，请以英文原文为准。

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来源期刊

Behavior Genetics 生物-行为科学

CiteScore

4.90

自引率

7.70%

发文量

审稿时长

6-12 weeks

期刊介绍： Behavior Genetics - the leading journal concerned with the genetic analysis of complex traits - is published in cooperation with the Behavior Genetics Association. This timely journal disseminates the most current original research on the inheritance and evolution of behavioral characteristics in man and other species. Contributions from eminent international researchers focus on both the application of various genetic perspectives to the study of behavioral characteristics and the influence of behavioral differences on the genetic structure of populations.