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通过基于纳米孔的宏基因组测序直接从临床尿液中鉴定细菌病原体和抗菌药物耐药性。

Identification of bacterial pathogens and antimicrobial resistance directly from clinical urines by nanopore-based metagenomic sequencing.

作者信息

Schmidt K, Mwaigwisya S, Crossman L C, Doumith M, Munroe D, Pires C, Khan A M, Woodford N, Saunders N J, Wain J, O'Grady J, Livermore D M

机构信息

Norwich Medical School, University of East Anglia, Norwich, UK.

SequenceAnalysis.co.uk, Norwich Research Park, Norwich, UK.

出版信息

J Antimicrob Chemother. 2017 Jan;72(1):104-114. doi: 10.1093/jac/dkw397. Epub 2016 Sep 25.

DOI:10.1093/jac/dkw397

PMID:27667325

Abstract

OBJECTIVES

The introduction of metagenomic sequencing to diagnostic microbiology has been hampered by slowness, cost and complexity. We explored whether MinION nanopore sequencing could accelerate diagnosis and resistance profiling, using complicated urinary tract infections as an exemplar.

METHODS

Bacterial DNA was enriched from clinical urines (n = 10) and from healthy urines 'spiked' with multiresistant Escherichia coli (n = 5), then sequenced by MinION. Sequences were analysed using external databases and bioinformatic pipelines or, ultimately, using integrated real-time analysis applications. Results were compared with Illumina data and resistance phenotypes.

RESULTS

MinION correctly identified pathogens without culture and, among 55 acquired resistance genes detected in the cultivated bacteria by Illumina sequencing, 51 were found by MinION sequencing directly from the urines; with three of the four failures in an early run with low genome coverage. Resistance-conferring mutations and allelic variants were not reliably identified.

CONCLUSIONS

MinION sequencing comprehensively identified pathogens and acquired resistance genes from urine in a timeframe similar to PCR (4 h from sample to result). Bioinformatic pipeline optimization is needed to better detect resistances conferred by point mutations. Metagenomic-sequencing-based diagnosis will enable clinicians to adjust antimicrobial therapy before the second dose of a typical (i.e. every 8 h) antibiotic.

摘要

目的

宏基因组测序应用于诊断微生物学一直受到速度慢、成本高和操作复杂的限制。我们以复杂的尿路感染为例，探讨了MinION纳米孔测序是否能加速诊断和耐药性分析。

方法

从临床尿液（n = 10）和接种多重耐药大肠杆菌的健康尿液（n = 5）中富集细菌DNA，然后用MinION进行测序。使用外部数据库和生物信息学流程分析序列，或者最终使用集成实时分析应用程序进行分析。将结果与Illumina数据和耐药表型进行比较。

结果

MinION无需培养就能正确识别病原体，在Illumina测序检测到的培养细菌中的55个获得性耐药基因中，MinION直接从尿液中测序发现了51个；在早期一次低基因组覆盖率的运行中，四个未检测到的基因中有三个出现这种情况。赋予耐药性的突变和等位基因变体未能得到可靠识别。

结论

MinION测序能在与PCR相似的时间范围内（从样本到结果4小时）全面识别尿液中的病原体和获得性耐药基因。需要优化生物信息学流程，以更好地检测点突变赋予的耐药性。基于宏基因组测序的诊断将使临床医生能够在给予典型（即每8小时一次）抗生素的第二剂之前调整抗菌治疗。

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通过基于纳米孔的宏基因组测序直接从临床尿液中鉴定细菌病原体和抗菌药物耐药性。

Identification of bacterial pathogens and antimicrobial resistance directly from clinical urines by nanopore-based metagenomic sequencing.

作者信息

机构信息

出版信息

OBJECTIVES

METHODS

RESULTS

CONCLUSIONS

目的

方法

结果

结论

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