High-Resolution Melting Assay to Detect the Mutations That Cause the Y132F and G458S Substitutions at the ERG11 Gene Involved in Azole Resistance in Candida parapsilosis.

IF 4.1 2区医学 Q1 DERMATOLOGY

Mycoses Pub Date : 2024-11-01 DOI:10.1111/myc.13811

Nuria Trevijano-Contador, Elena López-Peralta, Jorge López-López, Alejandra Roldán, Cristina de Armentia, Óscar Zaragoza

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引用次数: 0

Abstract

Background: Candida parapsilosis is a pathogenic yeast that has reduced susceptibility to echinocandins and ranks as the second or third leading cause of candidaemia, depending on the geographical region. This yeast often causes nosocomial infections, which are frequently detected as outbreaks. In recent years, resistance to azoles in C. parapsilosis has increased globally, primarily due to the accumulation of mutations in the ERG11 gene.

Objectives: In this study, we have developed an assay based on real-time PCR and high-resolution melting (HRM) curve analysis to detect two of the most prevalent mutations at ERG11 that confer resistance to fluconazole (Y132F and G458S).

Methods: We designed allele-specific oligonucleotides that selectively bind to either the wild type or mutated sequences and optimised the conditions to ensure amplification of the specific allele, followed by detection via high-resolution melting (HRM) analysis.

Results: The designed oligonucleotides to detect the Erg11^Y132F and Erg11^G458S mutations produced specific amplification of either WT or mutated alleles. We conducted a duplex real-time PCR combining oligonucleotides for the wild-type sequences in one mix, and oligonucleotides for the mutated alleles in another. Following this, we performed an analysis of the HRM curve to identify the amplified allele in each case. This technique was blindly evaluated on a set of 114 C. parapsilosis isolates, all of which were unequivocally identified using our approach.

Conclusion: This technique offers a new method for the early detection of azole resistance mechanism in C. parapsilosis.

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用高分辨率熔融测定法检测导致ERG11基因Y132F和G458S置换的突变，这些突变涉及副丝状念珠菌的唑类抗药性。

背景：副丝状念珠菌是一种致病性酵母菌，对棘白菌素的敏感性降低，根据地理区域的不同，是导致念珠菌血症的第二或第三大原因。这种酵母菌通常会引起院内感染，经常以爆发的形式出现。近年来，全球范围内副丝状酵母菌对唑类抗药性的增加主要是由于 ERG11 基因突变的积累：在这项研究中，我们开发了一种基于实时 PCR 和高分辨率熔解（HRM）曲线分析的检测方法，用于检测 ERG11 基因中对氟康唑产生耐药性的两种最普遍的突变（Y132F 和 G458S）：我们设计了等位基因特异性寡核苷酸，可选择性地与野生型或突变序列结合，并优化了扩增条件以确保特定等位基因的扩增，然后通过高分辨率熔融（HRM）分析进行检测：结果：为检测 Erg11Y132F 和 Erg11G458S 突变而设计的寡核苷酸产生了 WT 或突变等位基因的特异性扩增。我们将野生型序列的寡核苷酸和突变等位基因的寡核苷酸混合在一起，进行了双工实时 PCR。随后，我们对 HRM 曲线进行分析，以确定每个病例中扩增的等位基因。这项技术在一组 114 个副丝状菌分离物上进行了盲法评估，所有这些分离物都使用我们的方法进行了明确鉴定：结论：该技术为早期检测副丝状菌的唑类抗性机制提供了一种新方法。

本文章由计算机程序翻译，如有差异，请以英文原文为准。

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来源期刊

Mycoses 医学-皮肤病学

CiteScore

10.00

自引率

8.20%

发文量

143

审稿时长

6-12 weeks

期刊介绍： The journal Mycoses provides an international forum for original papers in English on the pathogenesis, diagnosis, therapy, prophylaxis, and epidemiology of fungal infectious diseases in humans as well as on the biology of pathogenic fungi. Medical mycology as part of medical microbiology is advancing rapidly. Effective therapeutic strategies are already available in chemotherapy and are being further developed. Their application requires reliable laboratory diagnostic techniques, which, in turn, result from mycological basic research. Opportunistic mycoses vary greatly in their clinical and pathological symptoms, because the underlying disease of a patient at risk decisively determines their symptomatology and progress. The journal Mycoses is therefore of interest to scientists in fundamental mycological research, mycological laboratory diagnosticians and clinicians interested in fungal infections.