AN AUTONOMOUS N-TERMINAL TRANSACTIVATION DOMAIN IN FOS PROTEIN PLAYS A CRUCIAL ROLE IN TRANSFORMATION

被引：36

作者：

JOOSS, KU ^{[1
]}

FUNK, M ^{[1
]}

MULLER, R ^{[1
]}

机构：

[1] UNIV MARBURG,INST MOLEK BIOL & TUMORFORSCH,EMIL MANNKOPFF STR 2,D-35037 MARBURG,GERMANY

来源：

EMBO JOURNAL | 1994年 / 13卷 / 06期

关键词：

FOS ONCOGENE; LEXA FUSION; SACCHAROMYCES-CEREVISIAE; TRANSACTIVATION; TRANSFORMATION;

D O I：

10.1002/j.1460-2075.1994.tb06401.x

中图分类号：

Q5 [生物化学]; Q7 [分子生物学];

学科分类号：

071010 ; 081704 ;

摘要：

To date, three functional domains have been defined in c-Fos and v-Fos proteins and have been shown to play a role in transactivation: the leucine zipper mediating hetero-dimerization, the basic DNA contact site, and a C-terminally located transactivation domain (C-TA) harbouring the HOB1 and HOB2 motifs. While the bZip region, consisting of the leucine zipper and the DNA contact site, is indispensable for transformation, the C-TA domain is not required and is actually altered by internal deletions in the FBR-MuSV. We now show that the N-terminal regions of c-Fos and v-Fos contain a second transactivation domain (N-TA). A functionally crucial motif within the N-TA domain, termed NTM, was pinpointed to a approximately 25 amino acid stretch around positions 60-84 which is highly conserved in FosB. Analysis of LexA fusion proteins showed that the N-TA domains of both c-Fos and FosB function in an autonomous fashion in both fibroblasts and yeast. Most importantly, deletion of the NTM motif impairs the transforming properties of v-Fos. Apart from the bZip region, the N-TA domain is the only functional domain required for transformation by v-Fos, at least when its expression is driven by the strong FBR-MuSV-LTR promoter.

引用

页码：1467 / 1475

页数：9

共 55 条

[11] TRANSCRIPTIONAL ACTIVATION AND REPRESSION BY FOS ARE INDEPENDENT FUNCTIONS - THE C-TERMINUS REPRESSES IMMEDIATE-EARLY GENE-EXPRESSION VIA CARG ELEMENTS [J].

GIUS, D ;

CAO, XM ;

RAUSCHER, FJ ;

COHEN, DR ;

CURRAN, T ;

SUKHATME, VP .

MOLECULAR AND CELLULAR BIOLOGY, 1990, 10 (08) :4243-4255

[12] NUCLEOTIDE-SEQUENCE OF THE LEXA GENE OF ESCHERICHIA-COLI [J].

HORII, T ;

OGAWA, T ;

OGAWA, H .

CELL, 1981, 23 (03) :689-697

[13] STRUCTURE-FUNCTION ANALYSIS OF FOS PROTEIN - A SINGLE AMINO-ACID CHANGE ACTIVATES THE IMMORTALIZING POTENTIAL OF V-FOS [J].

JENUWEIN, T ;

MULLER, R .

CELL, 1987, 48 (04) :647-657

[14] EXTENDED LIFE-SPAN AND TUMORIGENICITY OF NONESTABLISHED MOUSE CONNECTIVE-TISSUE CELLS TRANSFORMED BY THE FOS ONCOGENE OF FBR-MUSV [J].

JENUWEIN, T ;

MULLER, D ;

CURRAN, T ;

MULLER, R .

CELL, 1985, 41 (02) :629-637

[15]

JOOSS K, 1992, ONCOGENE, V7, P1933

[16] THE ROLE OF THE LEUCINE ZIPPER IN THE FOS JUN INTERACTION [J].

KOUZARIDES, T ;

ZIFF, E .

NATURE, 1988, 336 (6200) :646-651

[17]

KOVARY K, 1991, NEW BIOL, V3, P870

[18] TRANSFORMATION BY ACTIVATED RAS OR FOS PREVENTS MYOGENESIS BY INHIBITING EXPRESSION OF MYOD1 [J].

LASSAR, AB ;

THAYER, MJ ;

OVERELL, RW ;

WEINTRAUB, H .

CELL, 1989, 58 (04) :659-667

[19] DNA-BOUND FOS PROTEINS ACTIVATE TRANSCRIPTION IN YEAST [J].

LECH, K ;

ANDERSON, K ;

BRENT, R .

CELL, 1988, 52 (02) :179-184

[20] CASEIN KINASE-II IS A NEGATIVE REGULATOR OF C-JUN DNA-BINDING AND AP-1 ACTIVITY [J].

LIN, AN ;

FROST, J ;

DENG, TL ;

SMEAL, T ;

ALALAWI, N ;

KIKKAWA, U ;

HUNTER, T ;

BRENNER, D ;

KARIN, M .

CELL, 1992, 70 (05) :777-789

← 1 2 3 4 5 6 →