Microcalorimetric study of elongation factor Tu from Thermus thermophilus in nucleotide-free, GDP and GTP forms and in the presence of elongation factor Ts

Erik Sedlák , Mathias Sprinzl , Norbert Grillenbeck , Marián Antalı́k
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引用次数: 5

Abstract

Elongation factor (EF) Tu undergoes profound nucleotide-dependent conformational changes in its functional cycle. The thermodynamic parameters of the different Thermus thermophilus EF-Tu forms, its domains I, II/III and III, were determined by microcalorimetry. Thermal transitions of the EF-Tu·GDP and EF-Tu·guanosine-5′-[β,γ-imido]triphosphate have a cooperative two-state character. Nucleotide removal affected the cooperativity of the thermal transition of EF-Tu. Microcalorimetric measurements of nucleotide-free EF-Tu and its separated domains showed that domains II/III have the main stabilizing role for the whole protein. Despite the fact that strong interactions between elongation factors Tu and Ts from T. thermophilus at 20°C exist, the thermal transition of neither protein in the complex was significantly affected.

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伸长因子Tu在无核苷酸、GDP和GTP形式及伸长因子Ts存在下的微量热分析研究
延伸因子(EF) Tu在其功能周期中经历了深刻的核苷酸依赖性构象变化。用微量热法测定了不同形式的热嗜热菌EF-Tu结构域I、II/III和III的热力学参数。EF-Tu·GDP和EF-Tu·鸟苷-5′-[β,γ-亚胺]三磷酸的热跃迁具有合作双态特征。核苷酸的去除影响了EF-Tu热转变的协同性。对无核苷酸的EF-Tu及其分离结构域的微量量热测定表明,结构域II/III对整个蛋白起主要的稳定作用。尽管在20°C时,嗜热t菌的延伸因子Tu和Ts之间存在强相互作用,但复合物中两种蛋白的热转变都没有受到显著影响。
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