In Silico Analysis of the FOXP3 Transcription Factor Associated with T-Cell Oncogenesis

S. Choudhury
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Abstract

Background: The X chromosome encoded FOXP3 gene is a unique regulator of the T-cell differentiation and immunosuppressive function. The nuclear transcription factor FOXP3 gene regulates lineage-specific differentiation in the Treg crucially maintenance of the immune homeostasis. The regulatory T-cell (Treg or CD4+ cells) play a role in the immune response for self-antigens, allergens, and tumours. However, FOXP3 gene function is inconsistent in tumorigenesis such as tumour-suppressive and tumour-promoting. A recent report suggested the FOXP3 gene repress tumorigenesis per effects on proliferation and apoptosis. Objective: My objective was to investigate the FOXP3 gene from the FOX family in between Homo sapiens and Musmusculus. The study of the FOXP3 gene is currently mandatory to explore the molecular mechanisms of the Treg differentiation and immunosuppressive function in a particular organism. Methods: I perform bioinformatics and computational tools and technique to the current knowledge of the FOX family in the mammalian genome. My procedure may be useful for future functional analysis of specific gene family in particular organisms. Results: In this study, I conducted a compressive genome-wide survey of the FOX family in mammals. My findings documented the FOX family play an essential role during development. The functional regulation of the FOXP3 gene exhibits tumour suppressor activity. The specific structure, domain, motifs, phylogeny, gene expression, and chromosome locationanalysis suggested that the FOXP3 gene is a T-cell dependent gene. Conclusion: My analysis data concluded the FOX family plays a crucial role during development. In contrast, the restricted expression of the FOXP3 gene in the T-cell is an immune-privileged. The ultimate function of the FOXP3 gene in tumour cells may represent a novel mechanism in the immune system.
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FOXP3转录因子与t细胞癌变相关的计算机分析
背景:X染色体编码的FOXP3基因是t细胞分化和免疫抑制功能的独特调控因子。核转录因子FOXP3基因在Treg中调控谱系特异性分化,对维持免疫稳态至关重要。调节性t细胞(Treg或CD4+细胞)在自身抗原、过敏原和肿瘤的免疫应答中发挥作用。然而,FOXP3基因在肿瘤发生过程中的功能是不一致的,如抑瘤和促瘤。最近的一项研究表明FOXP3基因通过抑制肿瘤的增殖和凋亡来抑制肿瘤的发生。目的:我的目的是研究在智人和肌肉动物之间的FOXP3基因。FOXP3基因的研究是当前探索特定生物Treg分化和免疫抑制功能的分子机制的必要条件。方法:我运用生物信息学和计算工具和技术对哺乳动物基因组中FOX家族的现有知识进行分析。我的方法可能对未来特定生物中特定基因家族的功能分析有用。结果:在本研究中,我对哺乳动物FOX家族进行了压缩全基因组调查。我的发现证明了FOX家族在发育过程中起着至关重要的作用。FOXP3基因的功能调控表现出肿瘤抑制活性。FOXP3基因的具体结构、结构域、基序、系统发育、基因表达和染色体定位分析表明,FOXP3基因是一个t细胞依赖基因。结论:我的分析数据表明FOX家族在发育过程中起着至关重要的作用。相比之下,FOXP3基因在t细胞中的限制性表达是一种免疫特权。FOXP3基因在肿瘤细胞中的最终功能可能代表了免疫系统中的一种新机制。
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