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1.
鸟氨酸脱羧酶抗酶I(ornithine decarboxylase antizyme 1,OAZ1)是调节细胞内多胺含量的重要因子,参与细胞生长与分化、胚胎发育、基因表达调控等重要生理过程,也是抗肿瘤治疗的潜在分子靶点。简要综述鸟氨酸脱羧酶抗酶I在结构与功能,及其调控多胺代谢机制方面的研究进展。 相似文献
2.
Antizyme (Az) is a highly conserved key regulatory protein bearing a major role in regulating polyamine levels in the cell. It has the ability to bind and inhibit ornithine decarboxylase (ODC), targeting it for degradation. Az inhibitor (AzI) impairs the activity of Az. In this study, we mapped the binding sites of ODC and AzI on Az using Ala scan mutagenesis and generated models of the two complexes by constrained computational docking. In order to scan a large number of mutants in a short time, we developed a workflow combining high-throughput mutagenesis, small-scale parallel partial purification of His-tagged proteins and their immobilization on a tris-nitrilotriacetic-acid-coated surface plasmon resonance chip. This combination of techniques resulted in a significant reduction in time for production and measurement of large numbers of mutant proteins. The data-driven docking results suggest that both proteins occupy the same binding site on Az, with Az binding within a large groove in AzI and ODC. However, single-mutant data provide information concerning the location of the binding sites only, not on their relative orientations. Therefore, we generated a large number of double-mutant cycles between residues on Az and ODC and used the resulting interaction energies to restrict docking. The model of the complex is well defined and accounts for the mutant data generated here, and previously determined biochemical data for this system. Insights on the structure and function of the complexes, as well as general aspects of the method, are discussed. 相似文献
3.
Hiroshi Torii Tsuneo Asano Norichika Matsumoto Koichi Kato Susumu Tsushima Atsushi Kakinuma 《Bioscience, biotechnology, and biochemistry》2013,77(6):1431-1433
The highest inhibition rate of conidial germination of Pyricularia oryzae was shown by extracts of rice plant leaves inoculated by a pathogen after treatment with probenazole, a rice blast controlling agent. Four anti-conidial germination substances were isolated from these extracts. Substances A, C and D inhibited the germination of the conidia at concentrations between 100 and 200 mcg/ml, and substance B caused morphological changes in the germination tubes of the conidia with a little inhibition of germination. These substances were differentiated from momilactone A, B and the degraded or metabolized products of probenazole. Besides anti-conidial germination activity, they showed antimicrobial activities against several kinds of phytopathogenic bacteria of fungi on agar plates by diffusion method. 相似文献
4.
Bruno Ramos-Molina Ana LambertosAndrés J. López-Contreras Rafael Peñafiel 《Biochimica et Biophysica Acta (BBA)/General Subjects》2013
Background
Ornithine decarboxylase (ODC), the key enzyme in the polyamine biosynthetic pathway, is highly regulated by antizymes (AZs), small proteins that bind and inhibit ODC and increase its proteasomal degradation. Early studies delimited the putative AZ-binding element (AZBE) to the region 117-140 of ODC. The aim of the present work was to study the importance of certain residues of the region 110-142 that includes the AZBE region for the interaction between ODC and AZ1 and the ODC functionality.Methods
Computational analysis of the protein sequences of the extended AZBE site of ODC and ODC paralogues from different eukaryotes was used to search for conserved residues. The influence of these residues on ODC functionality was studied by site directed mutagenesis, followed by different biochemical techniques.Results
The results revealed that: a) there are five conserved residues in ODC and its paralogues: K115, A123, E138, L139 and K141; b) among these, L139 is the most critical one for the interaction with AZs, since its substitution decreases the affinity of the mutant protein towards AZs; c) all these conserved residues, with the exception of A123, are critical for ODC activity; d) substitutions of K115, E138 or L139 diminish the formation of ODC homodimers.Conclusions
These results reveal that four of the invariant residues of the AZBE region are strongly related to ODC functionality.General significance
This work helps to understand the interaction between ODC and AZ1, and describes various new residues involved in ODC activity, a key enzyme for cell growth and proliferation. 相似文献5.
6.
Ornithine decarboxylase (ODC), a homodimeric enzyme with a rate-limiting function in polyamine biosynthesis, is subject to a feedback control involving its selective proteolysis. Targeting of ODC monomers to the proteasome is mediated by ODC antizyme (OAZ), the expression of which is induced by high levels of polyamines. Here, we report our analysis of the N-terminal degron in Saccharomyces cerevisiae ODC and the mechanism of its antizyme-dependent targeting. This ∼ 45-residue domain of ODC [termed ODC degradation signal (ODS)] is essential for degradation of ODC. Extensive mutagenesis indicated that it is not a specific sequence within ODS that is important but, rather, its unstructured nature. Consistent with this conclusion, ODS could be functionally replaced by an unrelated unstructured domain. We show that increasing the distance of ODS to the rest of the ODC protein reduced the dependence on Oaz1 for targeting, indicating that exposure of ODS is critical for its function. Disruption of ODC dimers by introducing interface mutations, in contrast, was insufficient for targeting. Binding of Oaz1 to ODC monomers is thus required to activate ODS. Fusion of ODS to the N terminus of Ura3 was sufficient to convert it into a ubiquitin-independent substrate of the proteasome. By contrast, ODS failed to destabilize maltose-binding protein or dihydrofolate reductase, indicating that this degron only operates in an appropriate structural context that enables rapid unfolding. 相似文献
7.
Polyamines regulate their synthesis by inducing expression and blocking degradation of ODC antizyme 总被引:8,自引:0,他引:8
Polyamines are essential organic cations with multiple cellular functions. Their synthesis is controlled by a feedback regulation whose main target is ornithine decarboxylase (ODC), the rate-limiting enzyme in polyamine biosynthesis. In mammals, ODC has been shown to be inhibited and targeted for ubiquitin-independent degradation by ODC antizyme (AZ). The synthesis of mammalian AZ was reported to involve a polyamine-induced ribosomal frameshifting mechanism. High levels of polyamine therefore inhibit new synthesis of polyamines by inducing ODC degradation. We identified a previously unrecognized sequence in the genome of Saccharomyces cerevisiae encoding an orthologue of mammalian AZ. We show that synthesis of yeast AZ (Oaz1) involves polyamine-regulated frameshifting as well. Degradation of yeast ODC by the proteasome depends on Oaz1. Using this novel model system for polyamine regulation, we discovered another level of its control. Oaz1 itself is subject to ubiquitin-mediated proteolysis by the proteasome. Degradation of Oaz1, however, is inhibited by polyamines. We propose a model, in which polyamines inhibit their ODC-mediated biosynthesis by two mechanisms, the control of Oaz1 synthesis and inhibition of its degradation. 相似文献
8.
Gametogenetin (Ggn) is a testicular germ cell-specific gene specifically expressed from late pachytene spermatocytes through round spermatids. The function of gametogenetin protein 1 (GGN1) remains unknown. Here, we used the yeast two-hybrid approach to look for more GGN1 interacting proteins. We found that gametogenetin binding protein 1 (GGNBP1), gametogenetin binding protein 2 (GGNBP2) and ornithine decarboxylase antizyme 3 (OAZ3) were potential GGN1 interaction partners. We determined the regions mediating the interactions and further showed the interactions between the proteins in mammalian cells by colocalization and coimmunoprecipitation experiments. Our work suggested that GGN1, GGNBP1, GGNBP2 and OAZ3 could be involved in a common process associated with spermatogenesis. 相似文献
9.
10.
Martina M. Yordanova Cheng Wu Dmitry E. Andreev Matthew S. Sachs John F. Atkins 《The Journal of biological chemistry》2015,290(29):17863-17878
The protein antizyme is a negative regulator of cellular polyamine concentrations from yeast to mammals. Synthesis of functional antizyme requires programmed +1 ribosomal frameshifting at the 3′ end of the first of two partially overlapping ORFs. The frameshift is the sensor and effector in an autoregulatory circuit. Except for Saccharomyces cerevisiae antizyme mRNA, the frameshift site alone only supports low levels of frameshifting. The high levels usually observed depend on the presence of cis-acting stimulatory elements located 5′ and 3′ of the frameshift site. Antizyme genes from different evolutionary branches have evolved different stimulatory elements. Prior and new multiple alignments of fungal antizyme mRNA sequences from the Agaricomycetes class of Basidiomycota show a distinct pattern of conservation 5′ of the frameshift site consistent with a function at the amino acid level. As shown here when tested in Schizosaccharomyces pombe and mammalian HEK293T cells, the 5′ part of this conserved sequence acts at the nascent peptide level to stimulate the frameshifting, without involving stalling detectable by toe-printing. However, the peptide is only part of the signal. The 3′ part of the stimulator functions largely independently and acts at least mostly at the nucleotide level. When polyamine levels were varied, the stimulatory effect was seen to be especially responsive in the endogenous polyamine concentration range, and this effect may be more general. A conserved RNA secondary structure 3′ of the frameshift site has weaker stimulatory and polyamine sensitizing effects on frameshifting. 相似文献