Kozloff L M, Lute M
J Virol. 1981 Dec;40(3):645-56. doi: 10.1128/JVI.40.3.645-656.1981.
We investigated the role of the T4D bacteriophage gene 28 product in folate metabolism in infected Escherichia coli cells by using antifolate drugs and a newly devised assay for folyl polyglutamate cleavage activity. Preincubation of host E. coli cells with various sulfa drugs inhibited phage production by decreasing the burst size when the phage particles produced an altered gene 28 product (i.e., after infection under permissive conditions with T4D 28(ts) or T4D am28). In addition, we found that another folate analog, pyrimethamine, also inhibited T4D 28(ts) production and T4D 28am production, but this analog did not inhibit wild-type T4D production. A temperature-resistant revertant of T4D 28(ts) was not sensitive to either sulfa drugs or pyrimethamine. We developed an assay to measure the enzymatic cleavage of folyl polyglutamates. The high-molecular-weight folyl polyglutamate substrate was isolated from E. coli B cells infected with T4D am28 in the presence of labeled glutamic acid and was characterized as a folate compound containing 12 to 14 labeled glutamate residues. Extracts of uninfected bacteria liberated glutamate residues from this substrate with a pH optimum of 8.4 to 8.5. Extracts of bacteriophage T4D-infected E. coli B cells exhibited an additional new folyl polyglutamate cleavage activity with a pH optimum of about 6.4 to 6.5, which was clearly distinguished from the preexisting activity in the uninfected host cells. This new activity was induced in E. coli B cells by infection with wild-type T4D and T4D amber mutants 29(-), 26(-), 27(-), 51(-), and 10(-), but it was not induced under nonpermissive conditions by T4D am28 or by T4D 28(ts). Mutations in gene 28 affected the properties of the induced cleavage enzyme. Wild-type T4D-induced cleavage activity was not inhibited by pyrimethamine, whereas the T4D 28(ts) activity induced at a permissive temperature was inhibited by this folate analog. Folyl polyglutamate cleavage activity characteristic of the activity induced in host cells by wild-type T4D or by T4D gene 28 mutants was also found in highly purified preparations of these phage ghost particles. The T4D-induced cleavage activity could be inhibited by antiserum prepared against highly purified phage baseplates. We concluded that T4D infection induced the formation of a new folyl polyglutamate cleavage enzyme and that this enzyme was coded for by T4D gene 28. Furthermore, since this gene product was a baseplate tail plug component which had both its antigenic sites and its catalytic sites exposed on the phage particle, it was apparent that this enzyme formed part of the distal surface of the phage baseplate central tail plug.
我们通过使用抗叶酸药物和一种新设计的用于检测叶酰聚谷氨酸裂解活性的测定方法,研究了T4D噬菌体基因28产物在感染的大肠杆菌细胞叶酸代谢中的作用。当噬菌体颗粒产生改变的基因28产物时(即在允许条件下用T4D 28(ts)或T4D am28感染后),用各种磺胺药物对宿主大肠杆菌细胞进行预孵育会通过减小爆发量来抑制噬菌体产生。此外,我们发现另一种叶酸类似物乙胺嘧啶也抑制T4D 28(ts)的产生和T4D 28am的产生,但这种类似物不抑制野生型T4D的产生。T4D 28(ts)的一个温度抗性回复突变体对磺胺药物或乙胺嘧啶均不敏感。我们开发了一种测定方法来测量叶酰聚谷氨酸的酶促裂解。高分子量的叶酰聚谷氨酸底物是在存在标记谷氨酸的情况下,从感染了T4D am28的大肠杆菌B细胞中分离出来的,并被鉴定为一种含有12至14个标记谷氨酸残基的叶酸化合物。未感染细菌的提取物从该底物上释放谷氨酸残基,最适pH为8.4至8.5。噬菌体T4D感染的大肠杆菌B细胞提取物表现出一种新的叶酰聚谷氨酸裂解活性,最适pH约为6.4至6.5,这与未感染宿主细胞中预先存在的活性明显不同。这种新活性在大肠杆菌B细胞中由野生型T4D以及T4D琥珀突变体29(-)、26(-)、27(-)、51(-)和10(-)感染诱导产生,但在非允许条件下,T4D am28或T4D 28(ts)不会诱导产生。基因28中的突变影响了诱导裂解酶的特性。野生型T4D诱导的裂解活性不受乙胺嘧啶抑制,而在允许温度下诱导的T4D 28(ts)活性则受这种叶酸类似物抑制。在这些噬菌体空壳颗粒的高度纯化制剂中也发现了野生型T4D或T4D基因28突变体在宿主细胞中诱导产生的叶酰聚谷氨酸裂解活性特征。T4D诱导的裂解活性可被针对高度纯化噬菌体基板制备的抗血清抑制。我们得出结论,T4D感染诱导形成了一种新的叶酰聚谷氨酸裂解酶,且该酶由T4D基因28编码。此外,由于该基因产物是基板尾栓组件,其抗原位点和催化位点都暴露在噬菌体颗粒上,显然这种酶构成了噬菌体基板中央尾栓远端表面的一部分。
