畸形精子症的遗传洞察:AURKC、SPATA16和SUN5中UTR变异的综合计算研究

DNA Pub Date : 2023-10-26 DOI:10.3390/dna3040013
Maria-Anna Kyrgiafini, Zissis Mamuris
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引用次数: 0

摘要

畸形精子症是一种影响精子形态的复杂男性生育障碍,与AURKC、SPATA16和SUN5基因缺陷有关。然而,这些基因中大量的snp需要优先进行综合分析。本研究的重点是这些基因中经常被忽视的非翻译区(UTR)变异,旨在评估它们与畸形精子症的关系并对它们进行优先排序。我们采用了多步骤筛选过程,包括功能意义评估(RegulomeDB, 3DSNP v2.0, SNPinfo (FuncPred)),使用GTEx评估基因在睾丸组织中的表达影响,以及评估miRNA结合位点效应(PolymiRTS Database 3.0, miRNASNP v3)。此外,我们使用SNPnexus来评估它们的保存及其与疾病的关联。在AURKC中,我们鉴定出6个UTR snp (rs11084490、rss58264281、rs35582299、rss533889458、rs2361127、rs55710619),其中2个影响睾丸中的基因表达,其他影响29个mirna的结合位点或位于转录因子结合位点。根据先前的研究,其中三个snp也被发现与生精失败有关,这表明在畸形精子症中也有潜在的调节作用。对于SPATA16,两个3 ' UTR变体rs146640459和rs148085657被优先考虑,后者影响miRNA结合位点。在SUN5中,三个3 ' UTR变体(rs1485087675, rs762026146, rs1478197315)影响miRNA结合位点。值得注意的是,上述变异均未在保守区发现。我们的发现揭示了这些snp在畸形精子症中的潜在调控作用,为该领域未来的研究方向奠定了基础。
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Genetic Insights into Teratozoospermia: A Comprehensive Computational Study of UTR Variants in AURKC, SPATA16, and SUN5
Teratozoospermia, a complex male fertility disorder affecting sperm morphology, has been linked to AURKC, SPATA16, and SUN5 gene defects. However, the sheer volume of SNPs in these genes necessitates prioritization for comprehensive analysis. This study focuses on the often-overlooked untranslated region (UTR) variants in these genes, aiming to assess their association with teratozoospermia and prioritize them. We employed a multi-step filtering process, including functional significance assessment (RegulomeDB, 3DSNP v2.0, SNPinfo (FuncPred)), evaluation of gene expression impacts in testis tissue using GTEx, and assessment of miRNA binding site effects (PolymiRTS Database 3.0, miRNASNP v3). Additionally, we used SNPnexus to evaluate their conservation and association with diseases. In AURKC, we identified six UTR SNPs (rs11084490, rs58264281, rs35582299, rs533889458, rs2361127, rs55710619), two of which influenced gene expression in testis, while others affected the binding sites of 29 miRNAs or were located in transcription-factor binding sites. Three of these SNPs were also found to be associated with spermatogenic failure according to previous studies indicating a potential regulatory role in teratozoospermia, too. For SPATA16, two 3′ UTR variants, rs146640459 and rs148085657, were prioritized, with the latter impacting miRNA binding sites. In SUN5, three 3′ UTR variants (rs1485087675, rs762026146, rs1478197315) affected miRNA binding sites. It should be noted that none of the above variants was identified in a conserved region. Our findings shed light on the potential regulatory roles of these SNPs in teratozoospermia and lay the foundation for future research directions in this area.
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