Identification and Characterization of Key Genes Associated with Amelogenesis.

Q1 Dentistry

European Journal of Dentistry Pub Date : 2024-09-19 DOI:10.1055/s-0044-1787958

Tahsinul Haque, Fatema Akhter, Nourelhoda Alim, Abdullah Nabhan, Fawzia Al Kahtani, Abdullah Mohammed Sambawa

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引用次数: 0

Abstract

Objectives: The identification of key genes associated with amelogenesis would be helpful in finding solutions to genetic disorders in oral biology. The study aimed to use in silico analysis to identify the key genes involved in tooth development associated with preameloblasts (PABs) and secretory ameloblasts (SABs).

Material and methods: The data was subjected to quality analysis and uniform manifold approximation and projection analysis. To examine the distribution of the genes and identify important upregulated loci, a p-value histogram, a quantile plot, a mean difference and mean-variance plot, and a volcano plot were generated. Finally, protein-protein interaction and gene enrichment analyses were performed to determine the ontology, relevant biological processes, and molecular functions of selected genes.

Results: A total of 157 genes were found to be significant in the PAB versus SAB comparison. HIST1H31 revealed strong interaction with HIST1H2BM, and EXO1, ASPM, SPC25, and TTK showed strong interactions with one other. The STRING database revealed that NCAPG, CENPU, NUSAP1, HIST1H2BM, and HIST1H31 are involved in biological processes. NCAPG, CENPU, SPC25, ETV5, TTK, ETV1, FAM9A, NUSAP1, HIST1H2BM, and HIST1H31 are involved in cellular components.

Conclusion: The TTK, NUSAP1, CENPU, NCAPG, FAM9A, ASPM, SPC25, and HIST1H31 genes demonstrate functions in cell division. These genes might play a role in ameloblast development. These results will be useful in developing new methods to stimulate ameloblast development, which is essential for tooth regeneration and tissue engineering. However, more research is required to validate the functions of these genes and the genes with which they interact. A wide variety of genetic, epigenetic, and exogenous signaling factors regulate these genes and pathways throughout development and differentiation, cell fate, and behavior.

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与髓鞘形成有关的关键基因的鉴定和特征描述。

目的：确定与釉质形成相关的关键基因将有助于找到解决口腔生物学遗传疾病的方法。本研究旨在利用硅学分析鉴定与成釉细胞（PABs）和分泌性成釉细胞（SABs）相关的牙齿发育的关键基因：对数据进行了质量分析、统一流形近似和投影分析。为了研究基因的分布并确定重要的上调位点，生成了 p 值直方图、量子图、均值差和均值方差图以及火山图。最后，还进行了蛋白质-蛋白质相互作用和基因富集分析，以确定所选基因的本体、相关生物学过程和分子功能：结果：共发现 157 个基因在 PAB 与 SAB 比较中具有显著性。HIST1H31显示与HIST1H2BM有很强的相互作用，EXO1、ASPM、SPC25和TTK显示彼此有很强的相互作用。STRING 数据库显示，NCAPG、CENPU、NUSAP1、HIST1H2BM 和 HIST1H31 参与了生物过程。NCAPG、CENPU、SPC25、ETV5、TTK、ETV1、FAM9A、NUSAP1、HIST1H2BM 和 HIST1H31 参与了细胞成分：结论：TTK、NUSAP1、CENPU、NCAPG、FAM9A、ASPM、SPC25 和 HIST1H31 基因具有细胞分裂功能。这些基因可能在成髓细胞的发育过程中发挥作用。这些结果将有助于开发刺激牙釉质母细胞发育的新方法，而牙釉质母细胞发育对牙齿再生和组织工程至关重要。然而，还需要更多的研究来验证这些基因的功能及其相互作用的基因。在整个发育和分化、细胞命运和行为过程中，有各种各样的遗传、表观遗传和外源信号因子对这些基因和通路进行调控。

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来源期刊

European Journal of Dentistry Dentistry-Dentistry (all)

CiteScore

5.10

自引率

0.00%

发文量

161

期刊介绍： The European Journal of Dentistry is the official journal of the Dental Investigations Society, based in Turkey. It is a double-blinded peer-reviewed, Open Access, multi-disciplinary international journal addressing various aspects of dentistry. The journal''s board consists of eminent investigators in dentistry from across the globe and presents an ideal international composition. The journal encourages its authors to submit original investigations, reviews, and reports addressing various divisions of dentistry including oral pathology, prosthodontics, endodontics, orthodontics etc. It is available both online and in print.