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单纯疱疹病毒1型蛋白酶保守组氨酸残基突变所产生的催化活性改变和病毒成熟变化。

Alterations in catalytic activity and virus maturation produced by mutation of the conserved histidine residues of herpes simplex virus type 1 protease.

作者信息

Register R B, Shafer J A

机构信息

Department of Biological Chemistry, Merck Research Laboratories, West Point, Pennsylvania 19486, USA.

出版信息

J Virol. 1997 Nov;71(11):8572-81. doi: 10.1128/JVI.71.11.8572-8581.1997.

Abstract

Mutant herpes simplex virus type 1 (HSV-1) viruses were constructed to characterize the roles of the conserved histidine residues (H61 and H148) of HSV-1 protease in the regulation of catalytic activity and virus maturation. Viruses containing mutations at H61 (H61V-V711, H61Y-V715, and H61A-V730) were unable to grow on Vero cells. These mutant viruses could process neither Pra to N0 nor ICP-35cd to ICP-35ef. Transmission electron microscopy studies of H61A-V730-infected Vero cells indicated that capsid maturation is arrested at a state characterized by the predominance of large symmetrical arrays of B capsids within the nucleus. Two mutations at H148 (in viruses H148A-V712 and H148E-V728) gave rise to mutant viruses that grew with a small-plaque phenotype; one of the viruses, H148E-V728, was particularly attenuated when grown at a low multiplicity of infection. The rate of processing of Pra to N0 in infected Vero cells increased in the order H148A-V712 < H148E-V728 < parental strain HSV-1-V731. The observation that H148A-V712 processes Pra to N0 and ICP-35cd to ICP-35ef, whereas H61A does not, establishes H61 as the catalytically essential conserved His assuming that HSV-1 protease, like other serine proteases, utilizes an active-site histidine residue in catalysis. Two of the mutations at H148 (viruses H148K-V729 and H148Y-V716) produced nonviable viruses. H148K-V729 processed neither Pra to N0 nor ICP-35cd to ICP-35ef, whereas H148Y-V716 processed Pra to N0 but did not process ICP-35cd to ICP-35ef. The range of phenotypes observed with the H148 mutant viruses suggests that residue 148 of the HSV-1 protease is a determinant of virus growth rate and viability because of its effects on the activity of the protease and/or the role of the protease domain in capsid assembly and DNA packaging.

摘要

构建了1型单纯疱疹病毒(HSV-1)突变体,以表征HSV-1蛋白酶保守组氨酸残基(H61和H148)在催化活性调节和病毒成熟中的作用。在H61处含有突变的病毒(H61V-V711、H61Y-V715和H61A-V730)无法在Vero细胞上生长。这些突变病毒既不能将前体蛋白(Pra)加工成N0,也不能将ICP-35cd加工成ICP-35ef。对感染H61A-V730的Vero细胞进行的透射电子显微镜研究表明,衣壳成熟停滞在一种以细胞核内B衣壳的大型对称阵列占主导为特征的状态。H148处的两个突变(在病毒H148A-V712和H148E-V728中)产生了具有小噬斑表型的突变病毒;其中一种病毒H148E-V728在低感染复数下生长时特别减毒。在感染的Vero细胞中,Pra加工成N0的速率按H148A-V712 < H148E-V728 < 亲本菌株HSV-1-V731的顺序增加。H148A-V712能将Pra加工成N0并将ICP-35cd加工成ICP-35ef,而H61A则不能,这一观察结果表明,如果HSV-1蛋白酶与其他丝氨酸蛋白酶一样,在催化过程中利用活性位点组氨酸残基,那么H61就是催化必需的保守组氨酸。H148处的两个突变(病毒H148K-V729和H148Y-V716)产生了无活力的病毒。H148K-V729既不能将Pra加工成N0,也不能将ICP-35cd加工成ICP-35ef,而H148Y-V716能将Pra加工成N0,但不能将ICP-35cd加工成ICP-35ef。用H148突变病毒观察到的一系列表型表明,HSV-1蛋白酶的148位残基因其对蛋白酶活性和/或蛋白酶结构域在衣壳组装和DNA包装中的作用的影响,而成为病毒生长速率和活力的决定因素。

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