从贝类中回收肠道病毒的改进方法和测试策略。

Improved method and test strategy for recovery of enteric viruses from shellfish.

作者信息

Metcalf T G, Moulton E, Eckerson D

出版信息

Appl Environ Microbiol. 1980 Jan;39(1):141-52. doi: 10.1128/aem.39.1.141-152.1980.

DOI:10.1128/aem.39.1.141-152.1980

PMID:6243902

原文链接:https://pmc.ncbi.nlm.nih.gov/articles/PMC291297/

Abstract

An improved recovery method and testing strategy were devised for recovery of low numbers of enteric viruses from each of three commercially important shellfish species. Effective recovery of virus depended as much upon details of the test strategy adopted for use of the improved method with each species as on the method itself. The most important test details involved sample composition, pool size, and method of use of cell cultures. Recovery sensitivity measured permitted detection of 25 to 3 plaque-forming units of enteroviruses and 100 to 27 plaque-forming units of reovirus through their recovery in cell culture, with effectivenesses averaging 64 and 46%, respectively. Test samples prepared by the improved recovery method were virtually cytotoxicity free. Optimal recovery of virus on 45-cm2 cell culture monolayers was obtained with 1-ml inocula adsorbed for 2 h. The most effective recovery of virus from shellfish samples was made by a sequential adsorption procedure which allowed equal exposure of an entire sample to each of two or more cell cultures. Removal of nonviral contaminants from test samples by antibiotic treatment was preferable to the use of ether or membrane filtration procedures.

摘要

针对从三种具有商业重要性的贝类中回收少量肠道病毒，设计了一种改进的回收方法和检测策略。病毒的有效回收不仅取决于改进方法本身，还很大程度上取决于针对每种贝类使用该方法所采用的检测策略细节。最重要的检测细节包括样品组成、混合样本大小以及细胞培养的使用方法。通过在细胞培养中回收肠道病毒，测得的回收灵敏度允许检测到25至3个空斑形成单位，呼肠孤病毒为100至27个空斑形成单位，有效性平均分别为64%和46%。用改进的回收方法制备的测试样品几乎无细胞毒性。用1毫升接种物吸附2小时，可在45平方厘米的细胞培养单层上实现病毒的最佳回收。从贝类样品中最有效地回收病毒是通过连续吸附程序进行的，该程序允许整个样品与两种或更多种细胞培养物中的每一种进行同等接触。通过抗生素处理从测试样品中去除非病毒污染物比使用乙醚或膜过滤程序更可取。

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J Infect Dis. 1965 Feb;115:68-76. doi: 10.1093/infdis/115.1.68.

Morphologic characteristics of plaques produced on monkey kidney monolayer cultures by enteric viruses (poliomyelitis, Coxsackie, and echo groups.肠道病毒（脊髓灰质炎病毒、柯萨奇病毒和埃可病毒群）在猴肾单层培养物上产生的噬斑的形态学特征

J Immunol. 1957 Feb;78(2):128-35.

BGM, a continuous cell line more sensitive than primary rhesus and African green kidney cells for the recovery of viruses from water.BGM是一种连续细胞系，在从水中分离病毒方面比恒河猴原代肾细胞和非洲绿猴肾细胞更敏感。

Health Lab Sci. 1974 Oct;11(4):275-82.

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