噬菌体f2通过植物根系的摄取。

Uptake of bacteriophage f2 through plant roots.

作者信息

Ward R L, Mahler R J

出版信息

Appl Environ Microbiol. 1982 May;43(5):1098-103. doi: 10.1128/aem.43.5.1098-1103.1982.

DOI:10.1128/aem.43.5.1098-1103.1982

PMID:7103476

原文链接:https://pmc.ncbi.nlm.nih.gov/articles/PMC244192/

Abstract

A model system was designed to measure viral uptake through the roots of plants and translocation to distal plant parts. For this study, uptake of bacteriophage f2 was measured in corn and bean plants growing in hydroponic solutions. Few phage were detected in plants with uncut roots. However, when roots of both plant types were cut just before exposure to very high concentrations of phage, the amount of phage uptake was several orders of magnitude greater than with uncut roots, but still was considerably less than that which was theoretically possible. Furthermore, cut roots were rapidly repaired, thus inhibiting uptake, and the amount of uptake in plants with cut roots was proportional to phage exposure levels. Finally, phage were transported to all plant parts examined, but their survival times within each portion of the plants appeared to be of limited duration. All of these factors tend to minimize the possible public health significance associated with viral uptake through the root systems of plants.

摘要

设计了一个模型系统来测量病毒通过植物根系的摄取以及向植物远端部分的转运。在本研究中，测定了水培溶液中生长的玉米和豆类植物对噬菌体f2的摄取。在根系未切割的植物中检测到的噬菌体很少。然而，当两种植物的根系在暴露于非常高浓度的噬菌体之前被切割时，噬菌体摄取量比未切割根系时高出几个数量级，但仍远低于理论上可能的摄取量。此外，切割后的根系会迅速修复，从而抑制摄取，并且有切割根系的植物中的摄取量与噬菌体暴露水平成正比。最后，噬菌体被转运到所有检测的植物部位，但它们在植物各部分内的存活时间似乎有限。所有这些因素都倾向于将与通过植物根系摄取病毒相关的潜在公共卫生意义降至最低。

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