四环素抑制剂的差示扫描量热法研究。

Sylwia Kedracka-Krok, Zygmunt Wasylewski
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引用次数: 17

摘要

四环素抑制因子(TetR)是细菌对抗生素产生耐药性的最常见机制,它是一种同二聚体蛋白,由两个相同的亚基组成,每个亚基都包含一个具有螺旋-螺旋-螺旋基序的结构域和一个负责结合四环素的结构域。四环素在蛋白质口袋中的结合伴随着TetR的构象变化,从而取消了蛋白质与DNA之间的特异性相互作用。采用差示扫描量热法(DSC)和CD法,在pH 8.0下观察四环素存在和不存在时TetR的热变性。DSC结果表明,在没有四环素的情况下,TetR的热诱导转变可以描述为一个不可逆的过程,强烈依赖于扫描速率,表明蛋白质变性受动力学控制,动力学模式为N(2)- >D(2),其中k为一级动力学常数,N为天然态,D为变性态。另一方面,分析扫描速率对四环素存在下TetR跃迁的影响表明,蛋白质的热展开可以用两态模型来描述:N(2)U(2)—>D。在提出的模型中,四环素存在时,TetR进行协同展开,其特征是焓变化(δ tah (cal) = 1067 kJ x mol(-1))和熵变化(δ tas = 3.1 kJ x mol(-1))。
本文章由计算机程序翻译,如有差异,请以英文原文为准。
A differential scanning calorimetry study of tetracycline repressor.

Tetracycline repressor (TetR), which constitutes the most common mechanism of bacterial resistance to an antibiotic, is a homodimeric protein composed of two identical subunits, each of which contains a domain possessing a helix-turn-helix motif and a domain responsible for binding tetracycline. Binding of tetracycline in the protein pocket is accompanied by conformational changes in TetR, which abolish the specific interaction between the protein and DNA. Differential scanning calorimetry (DSC) and CD measurements, performed at pH 8.0, were used to observe the thermal denaturation of TetR in the absence and presence of tetracycline. The DSC results show that, in the absence of tetracycline, the thermally induced transitions of TetR can be described as an irreversible process, strongly dependent on scan rate and indicating that the protein denaturation is under kinetic control described by the simple kinetic scheme: N(2)--->D(2), where k is a first-order kinetic constant, N is the native state, and D is the denatured state. On the other hand, analysis of the scan rate effect on the transitions of TetR in the presence of tetracycline shows that thermal unfolding of the protein can be described by the two-state model: N(2)<--->U(2)--->D. In the proposed model, TetR in the presence of tetracycline undergoes co-operative unfolding, characterized by an enthalpy change (DeltaH(cal) = 1067 kJ x mol(-1)) and an entropy change (DeltaS = 3.1 kJ x mol(-1)).

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