Exome analysis reveals species divergence in TYR and identifies species genetic markers in five endemic Macaca species on Sulawesi Island.

IF 2.3 Q2 ECOLOGY

BMC ecology and evolution Pub Date : 2025-07-03 DOI:10.1186/s12862-025-02407-6

Xiaochan Yan, Nami Arakawa, Kanthi Arum Widayati, Laurentia Henrieta Permita Sari Purba, Fahri Fahri, Bambang Suryobroto, Yohey Terai, Hiroo Imai

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Abstract

Background: One of the greatest challenges for evolutionary biologists is explaining the vast diversity observed in nature. On Sulawesi Island, macaque species (genus Macaca) have rapidly diverged from their common ancestor, displaying remarkable variability in body morphology and coat color. Despite low overall genetic variation among these macaques, limited hybridization occurs between neighboring species, possibly due to genomic divergence or local adaptations that act as barriers to interbreeding. This study aims to investigate highly divergent regions that might contribute to the distinct genetic and phenotypic characteristics differentiating the five Sulawesi macaque species. Additionally, it explores how these genetic differences influence biological functions, and identifies species-specific genetic markers for species identification and conservation.

Results: Using whole exome sequencing of 46 individuals, approximately 550 highly divergent genes were identified across four pairwise species comparisons. Gene Ontology (GO) analysis revealed that these genes were enriched in critical biological processes, including cell adhesion, pigmentation, signal transduction, and stress responses. Among these, pigmentation-associated genes, such as TYR and LRIT3, exhibited highly divergent single nucleotide polymorphisms (SNPs). Missense mutations in TYR (D132N) and LRIT3 (S394P, Y363D) were likely linked to the dark coat colors of Macaca nigra and Macaca nigrescens, highlighting their contribution to species-specific traits. Furthermore, hundreds of fixed SNPs were identified as potential species-specific markers for species discrimination, providing valuable resource for distinguishing Sulawesi macaque species.

Conclusions: This study provides critical insights into the genetic mechanisms underlying species divergence and coat color variation in Sulawesi macaques. Highly divergent genomic regions between neighboring species likely contribute to species divergence and reinforce reproductive isolation. Enriched GO terms and pathways suggest that genetic divergence impacts key biological processes, including pigmentation, signal transduction, cell adhesion, and stress responses. Specifically, divergence in pigmentation-related genes such as TYR may play a role in interspecies differences in coat color, facilitating local adaptation, mate selection, and species identification. Additionally, the identification of species-specific genetic markers holds significant potential for conservation efforts, such as monitoring populations at risk of hybridization or genetic introgression. These findings advance our understanding of the genetic diversity in this unique primate group.

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外显子组分析揭示了苏拉威西岛5个猕猴特有物种TYR的物种差异，并确定了物种遗传标记。

背景：进化生物学家面临的最大挑战之一是解释自然界中观察到的巨大多样性。在苏拉威西岛，猕猴种类（猕猴属）迅速从它们共同的祖先分化出来，在身体形态和皮毛颜色上表现出显著的差异。尽管这些猕猴的总体遗传变异较低，但邻近物种之间的杂交有限，可能是由于基因组差异或局部适应成为杂交的障碍。本研究的目的是研究高度分化的区域，这些区域可能有助于区分五种苏拉威西猕猴的独特遗传和表型特征。此外，它还探讨了这些遗传差异如何影响生物功能，并确定了物种特异性遗传标记，用于物种鉴定和保护。结果：利用46个个体的全外显子组测序，在四个成对的物种比较中鉴定出大约550个高度分化的基因。基因本体（GO）分析显示，这些基因在关键的生物过程中富集，包括细胞粘附、色素沉着、信号转导和应激反应。其中，色素相关基因，如TYR和LRIT3，表现出高度分化的单核苷酸多态性（snp）。TYR （D132N）和LRIT3 （S394P, Y363D）的错义突变可能与黑猕猴和黑猕猴的深色毛色有关，突出了它们对物种特异性性状的贡献。此外，数百个固定snp被鉴定为潜在的物种特异性标记，为苏拉威西猕猴物种区分提供了宝贵的资源。结论：本研究为苏拉威西猕猴物种分化和毛色变异的遗传机制提供了重要见解。邻近物种之间高度分化的基因组区域可能导致物种分化并加强生殖隔离。丰富的氧化石墨烯术语和途径表明，遗传差异影响关键的生物过程，包括色素沉着、信号转导、细胞粘附和应激反应。具体而言，色素相关基因（如TYR）的分化可能在种间毛色差异中发挥作用，促进局部适应、配偶选择和物种鉴定。此外，物种特异性遗传标记的鉴定对保护工作具有重要的潜力，例如监测处于杂交或遗传渗入风险的种群。这些发现促进了我们对这一独特灵长类群体遗传多样性的理解。

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BMC ecology and evolution

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