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B Amati  T D Littlewood  G I Evan    H Land 《The EMBO journal》1993,12(13):5083-5087
The c-Myc protein (Myc) is involved in cellular transformation and mitogenesis, but is also a potent inducer of programmed cell death, or apoptosis. Whether these apparently opposite functions are mediated through common or distinct molecular mechanisms remains unclear. Myc and its partner protein, Max, dimerize and bind DNA in vitro and in vivo through basic/helix-loop-helix/leucine zipper motifs (bHLH-LZ). By using complementary leucine zipper mutants (termed MycEG and MaxEG), which dimerize efficiently with each other but not with their wild-type partners, we demonstrate that both cell cycle progression and apoptosis in nontransformed rodent fibroblasts are induced by Myc-Max dimers. MycEG or MaxEG alone are inactive, but co-expression restores ability to prevent withdrawal from the cell cycle and to induce cell death upon removal of growth factors. Thus, Myc can control two alternative cell fates through dimerization with a single partner, Max.  相似文献   

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Recent studies centered on the c-Myc basic/helix-loop-helix/leucine zipper (B/HLH/LZ) motifs have led to the identification of a DNA recognition sequence for c-Myc and the isolation of a novel protein that forms a DNA-binding complex with c-Myc in vitro. These advances may make it possible to address directly the long-standing question of c-Myc function in vivo.  相似文献   

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DNA-binding domain of human c-Myc produced in Escherichia coli.   总被引:7,自引:6,他引:1       下载免费PDF全文
We have identified the domain of the human c-myc protein (c-Myc) produced in Escherichia coli that is responsible for the ability of the protein to bind sequence-nonspecific DNA. Using analysis of binding of DNA by proteins transferred to nitrocellulose, DNA-cellulose chromatography, and a nitrocellulose filter binding assay, we examined the binding properties of c-Myc peptides generated by cyanogen bromide cleavage, of mutant c-Myc, and of proteins that fuse portions of c-Myc to staphylococcal protein A. The results of these analyses indicated that c-Myc amino acids 265 to 318 were responsible for DNA binding and that other regions of the protein (including a highly conserved basic region and a region containing the leucine zipper motif) were not required. Some mutant c-Mycs that did not bind DNA maintained rat embryo cell-cotransforming activity, which indicated that the c-Myc property of in vitro DNA binding was not essential for this activity. These mutants, however, were unable to transform established rat fibroblasts (Rat-1a cells) that were susceptible to transformation by wild-type c-Myc, although this lack of activity may not have been due to their inability to bind DNA.  相似文献   

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c-Myc功能及其下游靶点   总被引:5,自引:0,他引:5  
c-Myc是一个在进化上较为保守的,具有b/HLH/LZ结构的转录调节因子,它可以与Max形成异源二聚体通过结合于启动子区的E盒结构对基因进行转录激活调控,也可以通过其他方式对基因进行正负调节,参与调控了细胞的增殖、分化、生长、凋亡、细胞周期进程、细胞内生物大分子的代谢以及细胞的恶性转化。近期,研究者通过采用微阵列芯片、生物信息学技术、染色质免疫沉淀(ChIP)、基因表达系列分析(SAGE)等高通量研究的新技术对c-Myc下游靶点进行研究,这对于揭示c-Myc结构与功能之间的关系具有重要的生物学意义。  相似文献   

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Mitosin/CENP-F as a negative regulator of activating transcription factor-4   总被引:6,自引:0,他引:6  
Zhou X  Wang R  Fan L  Li Y  Ma L  Yang Z  Yu W  Jing N  Zhu X 《The Journal of biological chemistry》2005,280(14):13973-13977
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Nitric oxide (NO) and nitrovasodilators induce vascular smooth muscle cell relaxation in part by cGMP-dependent protein kinase (cGK)-mediated activation of myosin phosphatase, which dephosphorylates myosin light chains. We recently found that cGMP-dependent protein kinase 1alpha binds directly to the myosin-binding subunit (MBS) of myosin phosphatase via the leucine/isoleucine zipper of cGK. We have now studied the role of the leucine zipper domain of MBS in dimerization with cGK and the leucine/isoleucine zipper and leucine zipper domains of both proteins in homodimerization. Mutagenesis of the MBS leucine zipper domain disrupts cGKIalpha-MBS dimerization. Mutagenesis of the MBS leucine zipper eliminates MBS homodimerization, while similar disruption of the cGKIalpha leucine/isoleucine zipper does not prevent formation of cGK dimers. The MBS leucine zipper domain is phosphorylated by cGK, but this does not have any apparent effect on heterodimer formation between the two proteins. MBS LZ mutants that are unable to bind cGK were poor substrates for cGK. These data support the theory that the MBS leucine zipper domain is necessary and sufficient to mediate both MBS homodimerization and binding of the protein to cGK. In contrast, the leucine/isoleucine zipper of cGK is required for binding to MBS, but not for cGK homodimerization. These data support that the MBS and cGK leucine zipper domains mediate the interaction between these two proteins. The contribution of these domains to both homodimerization and their specific interaction with each other suggest that additional regulatory mechanisms involving these domains may exist.  相似文献   

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We have previously reported that synthetic peptides representing the leucine zipper domain (DP107) and a second putative helical domain (DP178) of human immunodeficiency virus type 1 (HIV-1) gp41 exhibit potent anti-HIV activity. In this study we have used soluble recombinant forms of gp41 to provide evidence that the DP178 peptide and the DP178 region of gp41 associate with a distal site on the gp41 transmembrane protein whose interactive structure is influenced by the leucine zipper (DP107) motif. We also observed that a single coiled-coil-disrupting mutation in the leucine zipper domain transformed the recombinant gp41 protein from an inactive to an active inhibitor of HIV-1 fusion and infectivity, which may be related to that finding. We speculate that this transformation results from liberation of the potent DP178-related sequence from a molecular clasp with a leucine zipper, DP107, determinant. The results are discussed in the context of two distinct conformations for the gp41 molecule and possible involvement of these two domains in structural transitions associated with HIV-1-mediated fusion. The results are also interpreted to suggest that the anti-HIV activity of the various gp41 derivatives (peptides and recombinant proteins) may be due to their ability to form complexes with viral gp41 and interfere with its fusogenic processes.  相似文献   

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DNA binding activities of c-Myc purified from eukaryotic cells.   总被引:1,自引:0,他引:1  
c-Myc is a nuclear phosphoprotein which contains both a leucine zipper and a helix-loop-helix dimerization motif. These are adjacent to a basic region believed to make specific contacts with DNA upon dimerization. We report the purification of full-length c-Myc to near homogeneity from two independent eukaryotic systems: the baculovirus overexpression system using an insect cell host, and Chinese hamster ovary cells containing heat-inducible c-myc genes. The DNA binding capabilities of these preparations were characterized. Both preparations contain two distinct activities that bind specifically to sequences with a core of CACGTG. The Myc protein is solely responsible for one of these binding activities. Specific sequences that bound to c-Myc were selected from a large pool of random DNA sequence. Sequencing of individual binding sites selected by this procedure yielded a 12-base consensus, PuACCACGTGCTC, for c-Myc binding. Both protein preparations additionally demonstrated a distinct complex, containing both c-Myc and a copurifying 26-29-kDa protein, that bound to DNA with higher affinity than Myc alone. Selection of specific DNA sequences by this complex revealed a consensus binding site similar to the 12-base consensus described above. These data demonstrate that c-Myc isolated from eukaryotic cells is capable of sequence-specific DNA binding and further refine the optimal sequence for c-Myc binding. These protein preparations should prove useful in further characterizing the biochemical properties of c-Myc.  相似文献   

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