棕色绒猴(Saguinus fuscicollis)和猕猴(Macaca mulatta)牙齿尺寸的遗传贡献。
Genetic contributions to dental dimensions in brown-mantled tamarins (Saguinus fuscicollis) and rhesus macaques (Macaca mulatta).
机构信息
Department of Pathology and Anatomical Sciences, University of Missouri, Columbia, Missouri.
出版信息
Am J Phys Anthropol. 2019 Feb;168(2):292-302. doi: 10.1002/ajpa.23744. Epub 2018 Dec 3.
OBJECTIVES
The use of dental metrics in phylogenetic reconstructions of fossil primates assumes variation in tooth size is highly heritable. Quantitative genetic studies in humans and baboons have estimated high heritabilities for dental traits, providing a preliminary view of the variability of dental trait heritability in nonhuman primate species. To expand upon this view, the heritabilities and evolvabilities of linear dental dimensions are estimated in brown-mantled tamarins (Saguinus fuscicollis) and rhesus macaques (Macaca mulatta).
MATERIALS AND METHODS
Quantitative genetic analyses were performed on linear dental dimensions collected from 302 brown-mantled tamarins and 364 rhesus macaques. Heritabilities were estimated in SOLAR using pedigrees from each population, and evolvabilities were calculated manually.
RESULTS
Tamarin heritability estimates range from 0.19 to 0.99, and 25 of 26 tamarin estimates are significantly different from zero. Macaque heritability estimates range from 0.08 to 1.00, and 25 out of 28 estimates are significantly different from zero.
DISCUSSION
Dental dimensions are highly heritable in captive brown-mantled tamarins and free-ranging rhesus macaques. The range of heritability estimates in these populations is broadly similar to those of baboons and humans. Evolvability tends to increase with heritability, although evolvability is high relative to heritability in some dimensions. Estimating evolvability helps to contextualize differences in heritability, and the observed relationship between evolvability and heritability in dental dimensions requires further investigation.
目的
在对化石灵长类动物的系统发育重建中使用牙齿度量,假设牙齿大小的变化具有高度的遗传性。人类和狒狒的定量遗传学研究估计了牙齿特征的高遗传性,为非人类灵长类物种的牙齿特征遗传性的可变性提供了初步的看法。为了进一步扩展这一观点,我们在褐帽卷尾猴(Saguinus fuscicollis)和恒河猴(Macaca mulatta)中估计了线性牙齿尺寸的遗传力和进化率。
材料和方法
对 302 只褐帽卷尾猴和 364 只恒河猴的线性牙齿尺寸进行了定量遗传分析。在 SOLAR 中使用每个种群的家谱估计了遗传力,并手动计算了进化率。
结果
卷尾猴的遗传力估计值范围从 0.19 到 0.99,其中 26 个估计值中有 25 个与零显著不同。猕猴的遗传力估计值范围从 0.08 到 1.00,其中 28 个估计值中有 25 个与零显著不同。
讨论
在圈养的褐帽卷尾猴和自由放养的恒河猴中,牙齿尺寸具有高度的遗传性。这些种群的遗传力估计值范围与狒狒和人类的遗传力估计值范围大致相似。进化率往往随遗传力的增加而增加,尽管在某些维度上进化率相对于遗传力较高。估计进化率有助于理解遗传力的差异,并且在牙齿维度中观察到的进化率与遗传力之间的关系需要进一步研究。
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