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Faraone-Mennella MR Piccialli G De Luca P Castellano S Giordano A Rigano D De Napoli L Farina B 《Journal of cellular biochemistry》2002,85(1):146-157
The DNA-binding ability of the poly-ADPribose polymerase-like enzyme from the extremely thermophilic archaeon Sulfolobus solfataricus was determined in the presence of genomic DNA or single stranded oligodeoxyribonucleotides. The thermozyme protected homologous DNA against thermal denaturation by lowering the amount of melted DNA and increasing melting temperature. The archaeal protein induced structural changes of the nucleic acid by modifying the dichroic spectra towards a shape typical of condensing DNA. However, enzyme activity was slightly increased by DNA. Competition assays demonstrated that the protein interacted also with heterologous DNA. In order to characterize further the DNA binding properties of the archaeal enzyme, various ss-oligodeoxyribonucleotides of different base composition, lengths (12-mer to 24-mer) and structure (linear and circular) were used for fluorescence titration measurements. Intrinsic fluorescence of the archaeal protein due to tryptophan (excitation at 295 nm) was measured in the presence of each oligomer at 60 degrees C. Changes of tryptophan fluorescence were induced by all compounds in the same range of base number per enzyme molecule, but independently from the structural features of oligonucleotides, although the protein exhibited a slight preference for those adenine-rich and circular. The binding affinities were comparable for all oligomers, with intrinsic association constants of the same order of magnitude (K=10(6) M(-1)) in 0.01 M Na-phosphate buffer, pH 8.0, and accounted for a \"non-specific\" binding protein. Circular dichroism analysis showed that at 60 degrees C the native protein was better organized in a secondary structure than at 20 degrees C. Upon addition of oligonucleotides, enzyme structure was further stabilized and changed towards a beta-conformation. This effect was more marked with the circular oligomer. The analysed oligodeoxyribonucleotides slightly enhanced enzyme activity with the maximal increase of 50% as compared to the control. No activation was observed with the circular oligomer. 相似文献
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Faraone-Mennella MR De Luca P Giordano A Gambacorta A Nicolaus B Farina B 《Journal of cellular biochemistry》2002,85(1):158-166
The poly(ADPribose) polymerase-like thermozyme from the hyperthermophilic archaeon S. solfataricus was found to bind DNA with high affinity and non-specifically. Binding was independent of base composition and length of the nucleic acid, and the protein showed a slight preference for the circular structure. By using pCMV-Neo-Bam plasmid as experimental model, the behaviour of the thermozyme upon binding with either circular or linear plasmid was analyzed. pCMV-Neo-Bam has a single HindIII site that allows to obtain the linear structure after digestion with the restriction enzyme. Intrinsic tryptophan-dependent fluorescence of poly(ADPribose) polymerase-like thermozyme noticeably changed upon addition of either circular or linear plasmid, showing the same binding affinity (K=2 x 10(9) M-1). However, experiments of protection against temperature and DNase I gave evidence that the thermozyme formed more stable complexes with the circular structure than with the linear pCMV-Neo-Bam. Increasing temperature at various DNA/protein ratios had a double effect to reduce the amount of circular DNA undergoing denaturation and to split the melting point towards higher temperatures. Nil or irrelevant effect was observed with the linear form. Similarly, DNase acted preferentially on the linear plasmid/protein complexes, producing an extensive digestion even at high protein/DNA ratios, whereas the circular plasmid was protected by the thermozyme in a dose-dependent manner. The complexes formed by archaeal poly(ADPribose) polymerase (PARPss) with the circular plasmid were visualized by bandshift experiments both with ethidium bromide staining and by labelling the circular plasmid with 32P. The stability of complexes was tested as a function of enzyme concentration and in the presence of a cold competitor and of 0.1% SDS. From the performed experiments, a number of 3-10 base pairs bound per molecule of enzyme was calculated, indicating a high frequency of binding. The presence of circular DNA was also able to increase by 80% the poly(ADPribose)polymerase-like activity, as compared to 25% activation induced by the linear pCMV-Neo-Bam. 相似文献
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M. Rosaria Faraone‐Mennella Filomena De Lucia Natale Gentile Piera Quesada Benedetta Farina 《Journal of cellular biochemistry》2000,76(1):20-29
Rat testis H1 proteins were poly(ADP‐ribosyl)ated in vitro. The modifying product, poly(ADP‐ribose), was found covalently bound to each histone variant at various extents and exhibited distinct structural features (linear and short, rather than branched and long chains). Interest was focused on the somatic H1a, particularly abundant in the testis, as compared with other tissues, and the testis‐specific H1t, which appears only at the pachytene spermatocyte stage of germ cell development. These H1s were modified with poly(ADP‐ribose) by means of two in vitro experimental approaches. In the first system, each variant was incubated with purified rat testis poly(ADP‐ribose)polymerase in the presence of [32P] NAD. In parallel, poly(ADP‐ribosyl)ated H1s were also prepared following incubation of intact rat testis nuclei with [32P] NAD. In both experiments, the poly(ADP‐ribosyl)ated proteins were purified from the native forms by means of phenyl boronic agarose chromatography. The results from both analyses were in agreement and showed qualitative differences with regard to the poly(ADP‐ribose) covalently associated with H1a and H1t. Comparison of the bound polymers clearly indicated that the oligomers associated with H1a were within 10–12 units long, whereas longer chains (≤20 ADP‐R units) were linked to H1t. Individual poly(ADP‐ribosyl)ated H1s were complexed with homologous H1‐depleted oligonucleosomes (0.5–2.5 kbp) in order to measure their ability to condensate chromatin, in comparison with the native ones. Circular dichroism showed that the negative charges of the oligomeric polyanion, although present in limited numbers, highly influenced the DNA‐binding properties of the analyzed H1s. In particular, the poly(ADP‐ribosyl)ated H1a and H1t had opposite effects on the condensation of H1‐depleted oligonucleosomes. J. Cell. Biochem. 76:20–29, 1999. © 1999 Wiley‐Liss, Inc. 相似文献
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H. Thomassin C. Martins de Sa K. Scherrer C. Maniez P. Mandel 《Molecular biology reports》1988,13(1):35-44
Poly(ADP-ribose) polymerase and poly(ADP-ribose) glycohydrolase activities were both investigated in chicken erythroblasts transformed by Avian Erythroblastosis Virus. Respectively 21% and 58% of these activities were found to be present in the post-mitochondrial supernatant (PMS). Fractionation of the PMS on sucrose gradients and poly(A+) mRNA detection by hybridization to [3H] poly(U) show that cytoplasmic poly(ADP-ribose) polymerase is exclusively localized in free mRNP. The glycohydrolase activity sedimented mostly in the 6 S region but 1/3 of the activity was in the free mRNP zone. Seven poly(ADP-ribose) protein acceptors were identified in the PMS in the Mr 21000–120000 range. The Mr 120000 protein corresponds to automodified poly(ADP-ribose) polymerase. A Mr 21000 protein acceptor is abundant in PMS and a Mr 34000 is exclusively associated with ribosomes and ribosomal subunits. The existence of both poly(ADP-ribose) polymerase and glycohydrolase activities in free mRNP argues in favour of a role of poly(ADP-ribosylation) in mRNP metabolism. A possible involvement of this post translational modification in the mechanisms of repression-derepression of mRNA is discussed.Abbreviations ADP-ribose
adenosine (5) diphospho(5)--D ribose
- poly(ADP-ribose)
polymer of ADP-ribose
- mRNP
messenger ribonucleoprotein particles
- PMSF
phenylmethylsulfonyl fluoride
- LDS
lithium dodecyl sulfate
- TCA
trichloroacetic acid 相似文献
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Elena Babiychuk Marc Van Montagu Sergei Kushnir 《The Plant journal : for cell and molecular biology》2001,28(3):245-255
Poly(ADP-ribos)ylation is a reversible protein modification that in higher plants is catalyzed by two structurally different poly(ADP-ribose) polymerases, App and Zap. In vivo imaging of green-fluorescent protein (GPF) fusions showed that both Zap and App were associated with chromatin through the cell cycle progression. The in vivo behaviour of the App-GFP protein fusions can be attributed to the activity of two NASA motifs that mediate protein-protein interactions and nucleic acid binding. Expression of Zap deletion variants revealed that both Zn fingers and helix-turn-helix domains contributed to the association with chromosomes, whereas the localization in the nucleoplasm was mostly determined by the Zn fingers. The results highlight novel properties of protein sequences found in plant poly(ADP-ribose) polymerases and suggest important functions for this class of nuclear enzymes in chromosome dynamics. 相似文献
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Histone shuttling by poly ADP-ribosylation 总被引:5,自引:0,他引:5
Felix R. Althaus Liane Höfferer Hanna E. Kleczkowska Maria Malanga Hanspeter Naegeli Phyllis L. Panzeter Claudio A. Realini 《Molecular and cellular biochemistry》1994,138(1-2):53-59
The enzymes poly(ADP-ribose)polymerase and poly(ADP-ribose) glycohydrolase may cooperate to drive a histone shuttle mechanism in chromatin. The mechanism is triggered by binding of the N-terminal zinc-finger domain of the polymerase to DNA strand breaks, which activates the catalytic activities residing in the C-terminal domain. The polymerase converts into a protein carrying multiple ADP-ribose polymers which displace histones from DNA by specifically targeting the histone tails responsible for DNA condensation. As a result, the domains surrounding DNA strand breaks become accessible to other proteins. Poly(ADP0ribose) glycohydrolase attacks ADP-ribose polymers in a specific order and thereby releases histones for reassociation with DNA. Increasing evidence from different model systems suggests that histone shuttling participates in DNA repairin vivo as a catalyst for nucleosomal unfolding. 相似文献
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《Cell reports》2020,30(12):3989-3995.e4
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Eric Winstall El Bachir Affar Rashmi Shah Sylvie Bourassa A. Ivana Scovassi Guy G. Poirier 《Experimental cell research》1999,246(2):395
Poly(ADP-ribose) glycohydrolase (PARG) is the major enzyme responsible for the catabolism of poly(ADP-ribose), a reversible covalent-modifier of chromosomal proteins. Purification of PARG from many tissues revealed heterogeneity in activity and structure of this enzyme. To investigate PARG structure and localization, we developed a highly sensitive one-dimensional zymogram allowing us to analyze PARG activity in crude extracts of Cos-7, Jurkat, HL-60, and Molt-3 cells. In all extracts, a single PARG activity band corresponding to a protein of about 110 kDa was detected. This 110-kDa PARG activity was found mainly in cytoplasmic rather than in nuclear extracts of Cos-7 cells. 相似文献
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Das Gupta Jaydip Li Qing-Shun Brian Thomson A. Hunt Arthur G. 《Plant molecular biology》1998,37(4):729-734
We have isolated cDNA clones encoding a novel factor (PAP-I) that is a component of a multi-subunit poly(A) polymerase from pea seedlings. The encoded protein, when isolated from appropriately engineered Escherichia coli, was active as a poly(A) polymerase, either with an associated RNA binding cofactor (PAP-III) or with free poly(A) as an RNA substrate. The latter observation indicates that PAP-I is in fact a poly(A) polymerase. PAP-I bore a striking resemblance to an as yet uncharacterized cyanobacterial protein. This observation suggested a possible chloroplast localization for PAP-I. This hypothesis was tested and found to be substantiated; immunoblot analysis identified PAP-I in chloroplast but not nuclear extracts. Our results suggest that PAP-I is a component of the machinery that adds poly(A) to chloroplast RNAs. 相似文献
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Takashi Hirayama 《Plant signaling & behavior》2014,9(10)
Poly(A) status is the major determinant of mRNA stability, even in endosymbiotic organelles. Poly(A) specific ribonuclease (PARN) is distributed widely among eukaryotes and has been shown to regulate the poly(A) status of cytoplasmic mRNA in various organisms. Surprisingly, our recent study revealed that PARN also directly regulates poly(A) status of mitochondrial mRNA in Arabidopsis. In this addendum, we discuss whether this mitochondrial function of PARN is common in plants and why PARN has been assigned such a unique function. 相似文献
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The last decade has radically renewed our understanding of higher order chromatin folding in the eukaryotic nucleus. As a result, most current models are in support of a mostly hierarchical and relatively stable folding of chromosomes dividing chromosomal territories into A‐ (active) and B‐ (inactive) compartments, which are then further partitioned into topologically associating domains (TADs), each of which is made up from multiple loops stabilized mainly by the CTCF and cohesin chromatin‐binding complexes. Nonetheless, the structure‐to‐function relationship of eukaryotic genomes is still not well understood. Here, we focus on recent work highlighting the biophysical and regulatory forces that contribute to the spatial organization of genomes, and we propose that the various conformations that chromatin assumes are not so much the result of a linear hierarchy, but rather of both converging and conflicting dynamic forces that act on it. 相似文献
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雄激素能上调大鼠前列腺中垂体肿瘤转化基因1(PTTG1)的表达,在前列腺癌标本中,发现PTTG1的表达明显高于正常组织.因此,用雄激素依赖的前列腺癌细胞LNCaP来研究雄激素调控PTTG1表达的分子机制.在LNCaP细胞中,通过雄激素刺激后,PTTG1的表达明显升高.根据序列分析以及5-缺失体实验(deletion)和突变实验(mutation),发现PTTG1的启动子上游-950到-933的序列上有1个雄激素受体反应元件(ARE),染色体免疫共沉淀实验(CHIP)也证实了雄激素能促进雄激素受体与PTTG1启动子上ARE结合,从而在转录水平调控PTTG1的表达. 相似文献
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Jean Lagueux Girish M. Shah Luc Ménard Hélène Thomassin Caroline Duchaine Christoph Hengartner Guy G. Poirier 《Molecular and cellular biochemistry》1994,138(1-2):45-52
Poly(ADP-ribose) catabolism is a complex situation involving many proteins and DNA. We have developed anin vitro turnover system where poly(ADP-ribose) metabolism is monitored in presence of different relative amounts of two principal enzymes poly(ADP-ribose) transferase and poly(ADP-ribose) glycohydrolase along with other proteins and DNA. Our current results reviewed here show that the quality of polymer, i.e. chain length and complexity, as well as preference for the nuclear substrate varies depending upon the availability of poly(ADP-ribose) glycohydrolase. These results are interpreted in the light of the recent data implicating poly(ADP-ribose) metabolism in DNA-repair. (Mol Cell Biochem 138: 45–52 1994) 相似文献