DNA Microarray for Rapid Detection and Identification of Food and Water Borne Bacteria: From Dry to Wet Lab.

Q3 Immunology and Microbiology
Open Microbiology Journal Pub Date : 2017-11-30 eCollection Date: 2017-01-01 DOI:10.2174/1874285801711010330
Reza Ranjbar, Payam Behzadi, Ali Najafi, Raheleh Roudi
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引用次数: 34

Abstract

Background: A rapid, accurate, flexible and reliable diagnostic method may significantly decrease the costs of diagnosis and treatment. Designing an appropriate microarray chip reduces noises and probable biases in the final result.

Objective: The aim of this study was to design and construct a DNA Microarray Chip for a rapid detection and identification of 10 important bacterial agents.

Method: In the present survey, 10 unique genomic regions relating to 10 pathogenic bacterial agents including Escherichia coli (E.coli), Shigella boydii, Sh.dysenteriae, Sh.flexneri, Sh.sonnei, Salmonella typhi, S.typhimurium, Brucella sp., Legionella pneumophila, and Vibrio cholera were selected for designing specific long oligo microarray probes. For this reason, the in-silico operations including utilization of the NCBI RefSeq database, Servers of PanSeq and Gview, AlleleID 7.7 and Oligo Analyzer 3.1 was done. On the other hand, the in-vitro part of the study comprised stages of robotic microarray chip probe spotting, bacterial DNAs extraction and DNA labeling, hybridization and microarray chip scanning. In wet lab section, different tools and apparatus such as Nexterion® Slide E, Qarraymini spotter, NimbleGen kit, TrayMixTM S4, and Innoscan 710 were used.

Results: A DNA microarray chip including 10 long oligo microarray probes was designed and constructed for detection and identification of 10 pathogenic bacteria.

Conclusion: The DNA microarray chip was capable to identify all 10 bacterial agents tested simultaneously. The presence of a professional bioinformatician as a probe designer is needed to design appropriate multifunctional microarray probes to increase the accuracy of the outcomes.

Abstract Image

用于快速检测和鉴定食物和水传播细菌的DNA微阵列:从干到湿实验室。
背景:一种快速、准确、灵活、可靠的诊断方法可以显著降低诊治成本。设计一个合适的微阵列芯片可以减少最终结果中的噪声和可能的偏差。目的:设计和构建一种DNA微阵列芯片,用于快速检测和鉴定10种重要的细菌制剂。方法:选取大肠杆菌、博氏志贺氏菌、痢疾杆菌、福氏杆菌、索内氏杆菌、伤寒沙门菌、鼠伤寒沙门氏菌、布鲁氏菌、嗜肺军团菌、霍乱弧菌等10种病原菌相关的10个独特基因组区域,设计特异性长寡核苷酸芯片探针。为此,利用NCBI RefSeq数据库、PanSeq和Gview服务器、AlleleID 7.7和Oligo Analyzer 3.1进行了芯片操作。另一方面,研究的体外部分包括机器人微阵列芯片探针定位、细菌DNA提取和DNA标记、杂交和微阵列芯片扫描等阶段。在湿实验室部分,使用不同的工具和设备,如Nexterion®Slide E, Qarraymini spotter, NimbleGen kit, TrayMixTM S4和Innoscan 710。结果:设计并构建了包含10个长寡核苷酸微阵列探针的DNA芯片,用于10种致病菌的检测和鉴定。结论:该芯片能同时对10种细菌进行鉴定。需要专业的生物信息学家作为探针设计师来设计合适的多功能微阵列探针,以提高结果的准确性。
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
Open Microbiology Journal
Open Microbiology Journal Immunology and Microbiology-Immunology and Microbiology (all)
CiteScore
1.80
自引率
0.00%
发文量
24
期刊介绍: The Open Microbiology Journal is a peer-reviewed open access journal which publishes research articles, reviews/mini-reviews, case studies, guest edited thematic issues and short communications/letters covering theoretical and practical aspects of Microbial systematics, evolutionary microbiology, immunology, virology, parasitology , bacteriology, mycology, phycology, protozoology, microbial ecology, molecular biology, microbial physiology, biochemistry, microbial pathogenesis, host-microbe interaction, systems microbiology, synthetic microbiology, bioinformatics. The Open Microbiology Journal , a peer-reviewed journal, is an important and reliable source of current information on developments in the field. The emphasis will be on publishing quality papers rapidly and freely available to researchers worldwide.
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