海洋细菌纳氏贝内克氏菌噬菌体的生理学与生态学：盐度

Physiology and ecology of bacteriophages of the marine bacterium Beneckea natriegens: salinity.

作者信息

Zachary A

出版信息

Appl Environ Microbiol. 1976 Mar;31(3):415-22. doi: 10.1128/aem.31.3.415-422.1976.

DOI:10.1128/aem.31.3.415-422.1976

PMID:938035

原文链接:https://pmc.ncbi.nlm.nih.gov/articles/PMC169789/

Abstract

The effects of variation in ionic levels on the stability and replication of two bacteriophages (nt-1 and nt-6) host specific for the marine bacterium Beneckea natriegens were examined. Monovalent cations influenced the adsorption of the nt-1 but not the nt-6 phage; however, one-step growth studies showed that NaCl was required for replication of both phage. The NaCl optimum for nt-1 production was 0.25 M NaCl, the same as the growth optimum for B. natriegens. However, the optimum for nt-6 production was 0.16 M NaCl. These NaCl optima for host and phage are at estuarine rather than oceanic levels. The nt-1 phage was better suited to replicate at NaCl levels typical of higher salinity areas (18-35%) and the nt-6 phage was better suited to replicate at lower salinities (5-18%). The nt phage were more resistant to low NaCl levels than their host bacterium and appeared limited to marine waters by the lower survival salinity of B. natriegens coupled with phage inactivation processes occurring in natural estuarine waters.

摘要

研究了离子水平变化对两种特异性感染海洋细菌纳氏贝内克氏菌（Beneckea natriegens）的噬菌体（nt - 1和nt - 6）稳定性和复制的影响。单价阳离子影响nt - 1噬菌体的吸附，但不影响nt - 6噬菌体；然而，一步生长研究表明，两种噬菌体的复制都需要NaCl。nt - 1噬菌体产生的最佳NaCl浓度为0.25M，与纳氏贝内克氏菌的生长最佳浓度相同。然而，nt - 6噬菌体产生的最佳浓度为0.16M NaCl。宿主和噬菌体的这些最佳NaCl浓度处于河口而非海洋水平。nt - 1噬菌体更适合在盐度较高地区（18 - 35%）的典型NaCl水平下复制，而nt - 6噬菌体更适合在较低盐度（5 - 18%）下复制。nt噬菌体比其宿主细菌对低NaCl水平更具抗性，并且由于纳氏贝内克氏菌较低的生存盐度以及天然河口水中发生的噬菌体失活过程，它们似乎局限于海水中。

https://cdn.ncbi.nlm.nih.gov/pmc/blobs/91bf/169789/11597edb52d4/aem00003-0105-a.jpg

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海洋细菌纳氏贝内克氏菌噬菌体的生理学与生态学：盐度

Physiology and ecology of bacteriophages of the marine bacterium Beneckea natriegens: salinity.

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