微管蛋白自结合对GTP水解和核苷酸交换反应的影响

IF 4.6 Q2 MATERIALS SCIENCE, BIOMATERIALS ACS Applied Bio Materials Pub Date : 2023-02-01 DOI:10.1016/j.bbapap.2022.140869
Asaf Shemesh , Hiba Ghareeb , Raviv Dharan , Yael Levi-Kalisman , Norman Metanis , Israel Ringel , Uri Raviv
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引用次数: 0

摘要

我们研究了分离的微管蛋白二聚体的自缔合如何影响GTP水解速率和核苷酸交换平衡。这两种反应都与微管(MT)动力学有关。我们使用HPLC测定GDP和GTP的浓度,从而测定不含甘油和微管蛋白聚集体的组装缓冲溶液中SEC洗脱的微管蛋白二聚体的GTP酶活性。当GTP水解可忽略不计时,通过测定无微管蛋白和结合微管蛋白的GTP和GDP的浓度来研究核苷酸交换机制。尽管组装了微管蛋白1D弯曲低聚物和单环,但我们在低于MT组装的临界条件(低于临界微管蛋白浓度和/或在低温下)下没有观察到GTP水解,这表明它们的组装不涉及GTP水解。在能够自发缓慢MT组装的条件下,检测到缓慢的伪一阶GTP水解动力学,受MT组装速率的限制。低温TEM图像显示GTP微管蛋白1D低聚物在36°C下也弯曲。核苷酸交换取决于总微管蛋白浓度以及微管蛋白游离GDP和GTP之间的摩尔比。我们使用异连丝微管蛋白自缔合的热力学模型,通过形成微管蛋白单环来终止,以确定具有暴露和埋藏的核苷酸可交换位点(E位点)的二聚体的摩尔分数。我们的分析表明,具有暴露E位点的微管蛋白二聚体的GDP与GTP交换反应平衡常数比具有掩埋E位点的组装二聚体大一个数量级。这一结论可能对MT+末端的动力学有影响。
本文章由计算机程序翻译,如有差异,请以英文原文为准。

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Effect of tubulin self-association on GTP hydrolysis and nucleotide exchange reactions

We investigated how the self-association of isolated tubulin dimers affects the rate of GTP hydrolysis and the equilibrium of nucleotide exchange. Both reactions are relevant for microtubule (MT) dynamics. We used HPLC to determine the concentrations of GDP and GTP and thereby the GTPase activity of SEC-eluted tubulin dimers in assembly buffer solution, free of glycerol and tubulin aggregates. When GTP hydrolysis was negligible, the nucleotide exchange mechanism was studied by determining the concentrations of tubulin-free and tubulin-bound GTP and GDP. We observed no GTP hydrolysis below the critical conditions for MT assembly (either below the critical tubulin concentration and/or at low temperature), despite the assembly of tubulin 1D curved oligomers and single-rings, showing that their assembly did not involve GTP hydrolysis. Under conditions enabling spontaneous slow MT assembly, a slow pseudo-first-order GTP hydrolysis kinetics was detected, limited by the rate of MT assembly. Cryo-TEM images showed that GTP-tubulin 1D oligomers were curved also at 36 °C. Nucleotide exchange depended on the total tubulin concentration and the molar ratio between tubulin-free GDP and GTP. We used a thermodynamic model of isodesmic tubulin self-association, terminated by the formation of tubulin single-rings to determine the molar fractions of dimers with exposed and buried nucleotide exchangeable sites (E-sites). Our analysis shows that the GDP to GTP exchange reaction equilibrium constant was an order-of-magnitude larger for tubulin dimers with exposed E-sites than for assembled dimers with buried E-sites. This conclusion may have implications on the dynamics at the tip of the MT plus end.

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来源期刊
ACS Applied Bio Materials
ACS Applied Bio Materials Chemistry-Chemistry (all)
CiteScore
9.40
自引率
2.10%
发文量
464
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