典型的噬菌体有存储它们病毒DNA的空心头部和带有尖端的隧道式尾巴,此尖端表面有它们的目标细菌的分子。
Typical phages have hollow heads that store their viral DNA and tunnel tails with tips that bind to specific molecules on the surface of their target bacteria.
在这里,称为噬菌体的使细菌感染的病毒,被设计成这样,即每一种病毒表面都涂了一层独特的随机的肽。
Here viruses that infect bacteria, called phage, are engineered such that each virus has on its surface coat a unique random peptide.
噬菌体是一种攻击并吞食细菌的病毒。
他设计一种病毒,也就是噬菌体,用来破坏生物膜,攻破细菌抵抗抗生素的防御体系。
He engineered a type of virus, known as a phage, to destroy biofilms and sabotage their defenses against antibiotics.
这一发现意味着virophages(噬病毒体)会通过他们寄生的病毒交换基因,类似于噬菌体通过他们寄生的细菌交换基因。
That discovery implies that virophages may transfer genes between the viruses they infect similar to the way bacteriophages transfer genes between bacteria.
噬菌体(亦称噬体):一类传染细菌的复合病毒。
(or phage) : Any of a group of usually complex viruses that infect Bacteria.
噬菌体:感染细菌的病毒。
a canthamoeba是噬菌体的一种。噬菌体是一类专门感染细菌的病毒。
Acanthamoeba is a bacteriophage, a class of virus that infects bacteria.
噬菌体:感染细菌的病毒。
噬菌体是一种特殊的病毒,它只会感染和杀死细菌,不会感染人类或其它动物。
Phages are a special kind of virus because they only infect and kill bacteria. They don't infect humans or other animals.
他们发现,有了这些新增噬菌体病毒,肺细胞可以更好地防止被细菌入侵。
They found that the lung cells were better protected from bacteria than those without the added phage virus.
噬菌体(亦称噬体):一类传染细菌的复合病毒。
Bacteriophage (or phage) : Any of a group of usually complex viruses that infect bacteria.
有一种称为噬菌体的病毒可以感染细菌。
Bacteria may be infected with viruses called bacteriophages.
原噬菌体抗菌体的潜在形体,在这种形体中病毒基因和细菌染色体结合,而对细菌细胞不能造成。
The latent form of a bacteriophage in which the viral genes are incorporated into the bacterial chromosomes without causing disruption of the bacterial cell.
这本书描述的基本生物学和噬菌体,病毒细菌感染的应用程序。
This book describes the fundamental biology and applications of the bacteriophages, viruses that infect bacteria.
以大肠杆菌和MS - 2噬菌体为细菌和病毒的替代指标,考察了浊度及颗粒物分布对紫外线灭活大肠杆菌和MS - 2噬菌体的影响。
E. coli and MS-2 coliphage were selected for ultraviolet disinfection experiment, the effect of turbidity and particulate distribution on inactivation of E. coli and MS-2 coliphage was evaluated.
以大肠杆菌和MS - 2噬菌体为细菌和病毒的替代指标,考察了浊度及颗粒物分布对紫外线灭活大肠杆菌和MS - 2噬菌体的影响。
E. coli and MS-2 coliphage were selected for ultraviolet disinfection experiment, the effect of turbidity and particulate distribution on inactivation of E. coli and MS-2 coliphage was evaluated.
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