High stability of trehalose/maltose binding protein from Thermococcus litoralis makes it a good candidate as a sensitive element in biosensor systems for sugar control

Povarova O.I.; Stepanenko O.V.; Sulatskaya A.I.; Kuznetsova I.M.; Turoverov K.K.; Staiano M.; Vitale A.; DAuria S.

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High stability of trehalose/maltose binding protein from Thermococcus litoralis makes it a good candidate as a sensitive element in biosensor systems for sugar control

机译：来自滨海热球菌的海藻糖/麦芽糖结合蛋白的高稳定性使其成为糖控制生物传感器系统中敏感元件的良好候选者

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Fluorescence and circular dichroism in far-UV region were used to study the stability of trehalose/maltose binding protein (TMBP) from hyper thermophilic archaeon Thermococcus litoralis and its complex with glucose (TMBP/Glc). The evaluation of difference between free energy of native and unfolded state for TMBP and TMBP/Glc showed that both of them are several times higher than that of proteins from mesophilic organisms. Due to the high stability and innate ability to bind glucose this protein is a good candidate as a sensitive element in biosensor systems for sugar control.

机译：利用远紫外区的荧光和圆二色性研究了嗜热古细菌Thercococcus litoralis及其与葡萄糖的复合物（TMBP / Glc）的海藻糖/麦芽糖结合蛋白（TMBP）的稳定性。对TMBP和TMBP / Glc的天然状态和未折叠状态的自由能之间的差异的评估表明，它们两者均比嗜温生物的蛋白质的自由能高出几倍。由于具有很高的稳定性和与葡萄糖结合的先天能力，该蛋白是生物控制糖传感器系统中的敏感元素，是很好的候选对象。

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《Spectroscopy》 |2010年第4期|共5页
作者
Povarova O.I.; Stepanenko O.V.; Sulatskaya A.I.; Kuznetsova I.M.; Turoverov K.K.; Staiano M.; Vitale A.; DAuria S.;
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正文语种 eng
中图分类光谱学;
关键词
circular dichroism; Fluorescence; hyperthermophilic organism; protein stability;

机译：圆二色性;荧光;嗜热生物;蛋白质稳定性;

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1. High stability of trehalose/maltose binding protein from Thermococcus litoralis makes it a good candidate as a sensitive element in biosensor systems for sugar control [J] . Povarova O.I., Stepanenko O.V., Sulatskaya A.I., Spectroscopy . 2010,第3a4期

机译：来自滨海热球菌的海藻糖/麦芽糖结合蛋白的高稳定性使其成为糖控制生物传感器系统中敏感元件的良好候选者
2. Enzymes and proteins from extremophiles as hyperstable probes in nanotechnology: the use of D-trehalose/D-maltose-binding protein from the hyperthermophilic archaeon Thermococcus litoralis for sugars monitoring [J] . De Stefano L, Vitale A, Rea I, Extremophiles: Life under extreme conditions . 2008,第1期

机译：极端微生物中的酶和蛋白质作为纳米技术中的超稳定探针：来自嗜热古细菌Thercococcus litoralis的D-海藻糖/ D-麦芽糖结合蛋白在糖监测中的应用
3. Enzymes and proteins from extremophiles as hyperstable probes in nanotechnology: the use of D-trehalose/D-maltose-binding protein from the hyperthermophilic archaeon Thermococcus litoralis for sugars monitoring [J] . Luca De Stefano, Annalisa Vitale, Ilaria Rea, Extremophiles . 2008,第1期

机译：极端微生物中的酶和蛋白质作为纳米技术中的超稳定探针：来自嗜热古细菌Thercococcus litoralis的D-海藻糖/ D-麦芽糖结合蛋白在糖监测中的应用
4. Sugar-sensitive FRET biosensor based on concerted conformational change of binding protein and fluorescent protein [C] . China-Japan-Korea Joint Symposium on Enzyme Engineering . 2004

机译：基于结合蛋白和荧光蛋白协同构象变化的糖敏感性FRET生物传感器
5. Evolution, structure and stability studies of bacteriorhodopsin mutants and crystallographic studies of a sugar-binding membrane protein from the hyperthermophile Pyrobaculum aerophilum. [D] . Yohannan, Sarah Jennifer. 2004

机译：细菌视紫红质突变体的进化，结构和稳定性研究以及嗜热嗜热菌嗜热菌嗜糖结合膜蛋白的晶体学研究。
6. Archaeal Binding Protein-Dependent ABC Transporter: Molecular and Biochemical Analysis of the Trehalose/Maltose Transport System of the Hyperthermophilic Archaeon Thermococcus litoralis [O] . Reinhold Horlacher, Karina B. Xavier, Helena Santos, 1998

机译：古细菌结合蛋白依赖的ABC转运蛋白：超嗜热古细菌热球菌海藻糖/麦芽糖转运系统的分子和生化分析。
7. High stability of trehalose/maltose binding protein fromThermococcus litoralismakes it a good candidate as a sensitive element in biosensor systems for sugar control [O] . Olga I. Povarova, Olga V. Stepanenko, Anna I. Sulatskaya, 2010

机译：来自Hellococcus Litoralismaks的海藻糖/麦芽糖结合蛋白的高稳定性是糖控制的生物传感器系统中的良好候选元素

High stability of trehalose/maltose binding protein from Thermococcus litoralis makes it a good candidate as a sensitive element in biosensor systems for sugar control

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