A single-point mutation in HCF causes temperature-sensitive cell-cycle arrest and disrupts VP16 function

被引：130

作者：

Goto, H

Motomura, S

Wilson, AC

Freiman, RN

Nakabeppu, Y

Fukushima, K

Fujishima, M

Herr, W

Nishimoto, T

机构：

[1] KYUSHU UNIV,GRAD SCH MED SCI,DEPT MOL BIOL,HIGASHI KU,FUKUOKA 812,JAPAN

[2] KYUSHU UNIV,GRAD SCH MED SCI,DEPT INTERNAL MED 2,HIGASHI KU,FUKUOKA 812,JAPAN

[3] KYUSHU UNIV,GRAD SCH MED SCI,DEPT INTERNAL MED 3,HIGASHI KU,FUKUOKA 812,JAPAN

[4] KYUSHU UNIV,GRAD SCH MED SCI,DEPT BIOCHEM,MED INST BIOREGULAT,HIGASHI KU,FUKUOKA 812,JAPAN

[5] COLD SPRING HARBOR LAB,COLD SPRING HARBOR,NY 11724

[6] SUNY STONY BROOK,GRAD PROGRAM GENET,STONY BROOK,NY 11794

来源：

GENES & DEVELOPMENT | 1997年 / 11卷 / 06期

关键词：

tsBN67; HCF protein; VP1G function; G(0)/G(1) cell cycle arrest; transcription;

D O I：

10.1101/gad.11.6.726

中图分类号：

Q2 [细胞生物学];

学科分类号：

071009 ; 090102 ;

摘要：

The temperature-sensitive BHK21 hamster cell line tsBN67 ceases to proliferate at the nonpermissive temperature after a lag of one to a few cell divisions, and the arrested cells display a gene expression pattern similar to that of serum-starved cells. The temperature-sensitive phenotype is reversible and results from a single missense mutation-proline to serine at position 134-in HCF, a cellular protein that, together with the viral protein VP16, activates transcription of herpes simplex virus (HSV) immediate-early genes. The tsBN67 HCE mutation also prevents VP16 activation of transcription at the nonpermissive temperature. The finding that the same point mutation in HCE disrupts both VP16 function and the cell cycle suggests that HCE plays a role in cell-cycle progression. in addition to VP16-dependent transcription.

引用

页码：726 / 737

页数：12

共 38 条

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