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Structure and function of archaeal RNA polymerases 总被引:2,自引:0,他引:2
Werner F 《Molecular microbiology》2007,65(6):1395-1404
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Conserved eukaryotic histone-fold residues substituted into an archaeal histone increase DNA affinity but reduce complex flexibility
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Although the archaeal and eukaryotic nucleosome core histones evolved from a common ancestor, conserved lysine residues are present at DNA-binding locations in all four eukaryotic histones that are not present in the archaeal histones. Introduction of lysine residues at the corresponding locations into an archaeal histone, HMfB, generated a variant with increased affinity for DNA that formed more compact complexes with DNA. However, these complexes no longer facilitated the circularization of short DNA molecules and had lost the flexibility to wrap DNA alternatively in either a negative or positive supercoil. 相似文献
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染色质重塑复合体(chromatin remodeling complexes)通过具有ATPase活性的亚基水解ATP释放能量,通过改变核小体"构象"(包括核小体重定位、核小体滑动和核小体替换等)而改变DNA的"可及性"(accessibility),进而影响特定的生理、生化过程。染色质重塑复合体最早在酵母中发现,生化分析表明其至少含有13个亚基。目前植物染色质重塑复合体的组成还未完全解析,但通过对其酵母同源亚基(染色质重塑因子)的研究可从侧面探究植物染色质重塑复合体的功能。同时,还着重讨论了近年来在植物染色质重塑因子研究上取得的结果,以期为植物染色质重塑的作用机制提供启示。 相似文献
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Chromatin remodeling by ATP-dependent molecular machines 总被引:21,自引:0,他引:21
Lusser A Kadonaga JT 《BioEssays : news and reviews in molecular, cellular and developmental biology》2003,25(12):1192-1200
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Archaeal histones have significant sequence and structural similarity to their eukaryal counterparts. However, whereas DNA is wrapped in negatively constrained supercoils in eukaryal nucleosomes, it has been reported that DNA is positively supercoiled by archaeal nucleosomes. This was inferred from experiments performed at low temperature and low salt concentrations, conditions markedly different from those expected for many archaea in vivo. Here, we report that the archaeal histones HMf and HTz wrap DNA in negatively constrained supercoils in buffers containing potassium glutamate (K-Glu) above 300 mM, either at 37 degrees C or at 70 degrees C. This suggests that high salt concentrations allow an alternate archaeal nucleosome topology: a left-handed tetramer rather than the right-handed tetramer seen in low salt conditions. In contrast, the archaeal histone MkaH produces DNA negative supercoiling at all salt concentrations, suggesting that this duality of structure is not possible for this atypical protein, which is formed by the association of two histone folds in a single polypeptide. These results extend the already remarkable similarity between archaeal and eukaryal nucleosomes, as it has been recently shown that DNA can be wrapped into either positive or negative supercoils around the H3/H4 tetramer. Negative supercoiling could correspond to the predominant physiological mode of DNA supercoiling in archaeal nucleosomes. 相似文献