In situ Monitoring By Raman Spectroscopy of Lysozyme Conformation during ?￠????Nanotemplate?￠???? Induced Crystallization

Claudio Nicolini; Luca Belmonte; George Maksimov; Nadezda Brazhe; Eugenia Pechkova

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In situ Monitoring By Raman Spectroscopy of Lysozyme Conformation during ?￠????Nanotemplate?￠???? Induced Crystallization

机译：通过拉曼光谱在γα-β-纳米模板中的溶菌酶构象的原位监测。诱导结晶

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Using Raman spectroscopy and lysozyme, this latter as model protein, we investigate the differences in protein conformation before and after LB nanotemplate-induced crystal nucleation and growth. It was found that the main difference in lysozyme conformation is associated to the higher amount of S-S bonds in lysozyme of LB crystals, probably in C-end of protein, resulting in the higher stiffness of the lysozyme molecules and LB crystal in a whole. Growth in size of LB crystal over time is also accompanied by the formation of S-S bonds. Atomic structure, determined by X-ray diffraction, correlates Raman spectroscopy results confirm the main differences between LB and classical crystals are in terms of water molecules environment previously associated to the increased radiation stability of LB crystals.

机译：使用拉曼光谱和溶菌酶，后者作为模型蛋白，我们调查了LB纳米模板诱导的晶体成核和生长前后蛋白质构象的差异。发现溶菌酶构象的主要差异与LB晶体的溶菌酶中的S-S键的数量较高有关，可能与蛋白质的C端有关，从而导致溶菌酶分子和整个LB晶体的刚性较高。 LB晶体尺寸随时间的增长还伴随有S-S键的形成。通过X射线衍射确定的原子结构与拉曼光谱结果相关，这证实了LB和经典晶体之间的主要区别在于先前与LB晶体的辐射稳定性提高相关的水分子环境。

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《Journal of Microbial & Biochemical Technology》 |2014年第1期|共8页
作者
Claudio Nicolini; Luca Belmonte; George Maksimov; Nadezda Brazhe; Eugenia Pechkova;
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中图分类生物化学;
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7. In situ monitoring by Raman spectroscopy of lysozyme conformation during "Nanotemplate" induced crystallization [O] . C. Nicolini, L. Belmonte, G. Maksimov, 2013

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In situ Monitoring By Raman Spectroscopy of Lysozyme Conformation during ?￠????Nanotemplate?￠???? Induced Crystallization

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