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141.
The DNA binding domain of estrogen receptor alpha is required for high-affinity nuclear interaction induced by estradiol 总被引:1,自引:0,他引:1
Estrogen receptor alpha (ER) is a member of the nuclear hormone receptor family, which upon binding estrogen shows increased apparent affinity for nuclear components (tight nuclear binding). The nuclear components that mediate this tight nuclear binding have been proposed to include both ER-DNA interactions and ER-protein interactions. In this paper, we demonstrate that tight nuclear binding of ER upon estrogen occupation requires ER-DNA interactions. Hormone-bound ER can be extracted from the nucleus in low-salt buffer using various polyanions, which mimic the phosphate backbone of DNA. The importance of specific ER-DNA interactions in mediating tight nuclear binding is also supported by the 380-fold lower concentration of the ERE oligonucleotide necessary to extract estrogen-occupied ER from the nucleus compared to the polyanions. We also demonstrate that estrogen-induced tight nuclear binding requires both the nuclear localization domain and the DNA binding domain of ER. Finally, enzymatic degradation of nuclear DNA allows us to recover 45% of tight nuclear-bound ER. We further demonstrate that ER-AIB1 interaction is not required for estrogen-induced tight nuclear binding. Taken together, we propose a model in which tight nuclear binding of the estrogen-occupied ER is predominantly mediated by ER-DNA interactions. The effects of estrogen binding on altering DNA binding in whole cells are proposed to occur through estrogen-induced changes in ER-chaperone protein interactions, which alter the DNA accessibility of ER but do not directly change the affinity of the ER for DNA, which is similar for both unoccupied and occupied ER. 相似文献
142.
143.
Maskell L Blanche EA Colucci MA Whatmore JL Moody CJ 《Bioorganic & medicinal chemistry letters》2007,17(6):1575-1578
Potential prodrugs of inhibitors of VEGF-induced angiogenesis have been investigated. The prodrug systems studied were the 4-nitrobenzyl, 2-nitrophenylacetyl and 3-methyl-3-(3,6-dimethylbenzo-1,4-quinon-2-yl)butanoyl groups, readily attached to acidic OH or NH groups in drug molecules, and released upon bioreductive activation. The anti-angiogenic compounds studied were the pyrrolylmethylidenyl oxindole SU5416 (semaxanib) and its novel 6-hydroxy derivative. The potentially pro-anti-angiogenic compounds were assayed for their ability to block VEGF-induced angiogenesis in HUVECS in comparison to the free agents. 相似文献
144.
145.
Ribosome biogenesis is a major conserved cellular pathway that requires both ribosomal proteins and many preribosomal factors. Most of the pre-60S factors are recycled into the nucleus; some of them shuttle between the nucleus and the cytoplasm while a few others, like Rei1, are strictly cytoplasmic and are mostly involved in the dissociation/recycling of the pre-60S shuttling factors. Here, we investigated the role of the Jjj1 Hsp40 chaperone in ribosome biogenesis. The absence of Jjj1 leads to a cold sensitive phenotype, a defect in the relative amount of the large ribosomal subunit with the appearance of halfmers, and to cytoplasmic accumulation of shuttling factors such as Arx1 and Alb1, which stay bound to the pre-60S particles. Jjj1 is, thus, a novel pre-60S factor involved in the last cytoplasmic steps of the large ribosomal subunit biogenesis. We report the biochemical association of Jjj1 and Rei1 to similar pre-60S complexes, their two-hybrid interactions, and their functional links. Altogether, these results indicate that Rei1 and Jjj1 share many common features. However, while the functions of Jjj1 and Rei1 partially overlap, we could distinguish specific role of the two proteins in Arx1/Alb1 and Tif6 recycling. We propose that Jjj1 is preferentially required for the release of Arx1 and Alb1 shuttling factors from the cytoplasmic pre-60S particles while Rei1 is preferentially involved in their recycling. 相似文献
146.
147.
Camier S Ma E Leroy C Pruvost A Toledano M Marsolier-Kergoat MC 《Free radical biology & medicine》2007,42(7):1008-1016
Thioredoxins and/or glutaredoxins assist ribonucleotide reductase, and other such enzymes that require disulfide bond reduction during their catalytic cycle. In Saccharomyces cerevisiae, the presence of either pathway is essential but which of these pathways operates in ribonucleotide reductase reduction and how this function contributes to the pathways' essential nature have not been definitively established. We have identified two in vivo redox forms of the S. cerevisiae ribonucleotide reductase R1 subunit, which correspond to catalytically reduced or oxidized enzymes. Cells lacking thioredoxins, which exhibit an elongated S phase, accumulate R1 in its oxidized form and also contain significantly decreased deoxyribonucleotide levels during the S phase. Overexpressing R1 in these cells increases both the amount of the R1 reduced form and the concentrations of deoxyribonucleotides and accelerates DNA replication. These results establish thioredoxins as the major RNR reducing system in yeast and indicate that impaired RNR reduction accounts for the S phase defects of thioredoxin-deficient cells. 相似文献
148.
High sensitivity of human centrin 2 toward radiolytical oxidation: C-terminal tyrosinyl residue as the main target 总被引:1,自引:0,他引:1
Blouquit Y Duchambon P Brun E Marco S Rusconi F Sicard-Roselli C 《Free radical biology & medicine》2007,43(2):216-228
Centrins are calcium-binding proteins that play a significant role in the maintenance of the centrosomal organization, mainly in the continuity between centrosome and microtubular network. Recent data showed that centrosome duplication abnormalities, like overduplication for example, could be due to hydrogen peroxide, suggesting an important impact of oxidative stress. To challenge this hypothesis, we performed one-electron oxidation experiments with human centrin 2, starting from azide radicals. Our results first revealed several intermolecular cross-links generating dimers, tetramers, hexamers, and higher molecular mass species. Dimers result from covalent bond linking the C-terminal tyrosines of each monomer. Second, the methionyl residue at position 19 was oxidized on the monomeric centrin. Further, electron microscopy experiments on centrin 2 showed a preexisting hexameric organization that was stabilized by covalent bonds as a result of irradiation. Overall, these results show that centrin 2 is highly sensitive to ionizing radiation, which could have important consequences on its biological functions. 相似文献
149.
Effects of nutrients and warming on Planktothrix dynamics and diversity: a palaeolimnological view based on sedimentary DNA and RNA
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Olga Savichtcheva Didier Debroas Marie Elodie Perga Fabien Arnaud Clément Villar Emilie Lyautey Amy Kirkham Cécile Chardon Benjamin Alric Isabelle Domaizon 《Freshwater Biology》2015,60(1):31-49