利用基因组挖掘技术识别多重复序列,开发用于检测沙眼衣原体的高灵敏度分子诊断测定。

Open research Africa Pub Date : 2024-05-09 eCollection Date: 2024-01-01 DOI:10.12688/openresafrica.14316.2
Clement Shiluli, Shwetha Kamath, Bernard N Kanoi, Racheal Kimani, Michael Maina, Harrison Waweru, Moses Kamita, Ibrahim Ndirangu, Hussein M Abkallo, Bernard Oduor, Nicole Pamme, Joshua Dupaty, Catherine M Klapperich, Srinivasa Raju Lolabattu, Jesse Gitaka
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引用次数: 0

摘要

沙眼衣原体(C. trachomatis)是一种常见的性传播感染(STI)。据世界卫生组织报告,2019 年感染人数约为 1.31 亿。大多数感染者没有症状,病例仍未被发现。沙眼衣原体感染的漏诊很可能导致妇女和儿童出现可预防的不良健康后果。因此,迫切需要开发高效的诊断方法。在这项研究中,我们采用了基因组挖掘方法来识别分布在沙眼衣原体基因组中的相同多重复序列(IMRS),从而设计出针对基因组区域的引物对。基因组 DNA 经 10 倍序列稀释(100pg/μL 至 1×10 -3pg/μL)后用作 PCR 反应的 DNA 模板。作为对比试验,还使用 16S rRNA 引物进行了金标准 PCR,并在琼脂糖凝胶上对产物进行了分辨。新型检测方法沙眼衣原体 IMRS-PCR 的分析灵敏度为 4.31 pg/µL,与 16S rRNA PCR(9.5 fg/µL)相比灵敏度更高。我们的实验数据表明,横向流动和等温检测沙眼衣原体 DNA 的成功开发可用于野外环境。在微型等温微流控平台和片上实验室诊断设备中实现这一概念的潜力巨大,可用于可靠的护理点检测。
本文章由计算机程序翻译,如有差异,请以英文原文为准。
Multi-repeat sequences identification using genome mining techniques for developing highly sensitive molecular diagnostic assay for the detection of Chlamydia trachomatis.

Chlamydia trachomatis ( C. trachomatis) is a common sexually transmitted infection (STI). In 2019, the World Health Organization reported about 131 million infections. The majority of infected patients are asymptomatic with cases remaining undetected. It is likely that missed C. trachomatis infections contribute to preventable adverse health outcomes in women and children. Consequently, there is an urgent need of developing efficient diagnostic methods. In this study, genome-mining approaches to identify identical multi-repeat sequences (IMRS) distributed throughout the C. trachomatis genome were used to design a primer pair that would target regions in the genome. Genomic DNA was 10-fold serially diluted (100pg/μL to 1×10 -3pg/μL) and used as DNA template for PCR reactions. The gold standard PCR using 16S rRNA primers was also run as a comparative test, and products were resolved on agarose gel. The novel assay, C. trachomatis IMRS-PCR, had an analytical sensitivity of 4.31 pg/µL, representing better sensitivity compared with 16S rRNA PCR (9.5 fg/µL). Our experimental data demonstrate the successful development of lateral flow and isothermal assays for detecting C. trachomatis DNA with potential use in field settings. There is a potential to implement this concept in miniaturized, isothermal, microfluidic platforms, and laboratory-on-a-chip diagnostic devices for reliable point-of-care testing.

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