人血小板因子4亚基缔合/解离的热力学与动力学
Human platelet factor 4 subunit association/dissociation thermodynamics and kinetics.
作者信息
Chen M J, Mayo K H
机构信息
Department of Chemistry, Temple University, Philadelphia, Pennsylvania 19122.
出版信息
Biochemistry. 1991 Jul 2;30(26):6402-11. doi: 10.1021/bi00240a009.
Platelet factor 4 (PF4) monomers (7800 daltons) form dimers and tetramers in varying molar ratios under certain solution conditions [Mayo, K. H., & Chen, M. J. (1989) Biochemistry 28, 9469]. The presence of a simplified aromatic region (one Tyr and two His) and resolved monomer, dimer, and tetramer Y60 3,5 ring proton resonances makes study of PF4 aggregate association/dissociation thermodynamics and kinetics possible. PF4 protein subunit association/dissociation equilibrium thermodynamic parameters have been derived by 1H NMR (500MHz) resonance line-fitting analysis of steady-state Y60 3,5 ring proton resonance monomer-dimer-tetramer populations as a function of temperature from 10 to 40 degrees C. Below 10 degrees C and above 40 degrees C, resonance broadening and overlap severely impaired analysis. Enthalpic and entropic contributions to dimer association Gibb's free energy [-5.1 kcal/mol (30 degrees C)] are +2.5 +/- 1 kcal/mol and +26 +/- 7 eu, respectively, and for tetramer association Gibb's free energy [-5.7 kcal/mol (30 degrees C)], they are -7.5 +/- 1 kcal/mol and -7 +/- 3 eu, respectively. These thermodynamic parameters are consistent with low dielectric medium electrostatic/hydrophobic interactions governing dimer formation and hydrogen bonding governing tetramer formation. Association/dissociation kinetic parameters, i.e., steady-state jump rates, have been derived from exchange-induced line-width increases and from 1H NMR (500 MHz) saturation-transfer and spin-lattice (Tl) relaxation experiments. From dissociation jump rates and equilibrium constants, association rate constants were estimated. For dimer and tetramer equilibria at 30 degrees C, unimolecular dissociation rate constants are 35 +/- 10 s-1 for dimer dissociation and 6 +/- 2 s-1 for tetramer dissociation.(ABSTRACT TRUNCATED AT 250 WORDS)
血小板因子4(PF4)单体(7800道尔顿)在特定溶液条件下会以不同的摩尔比形成二聚体和四聚体[梅奥,K. H.,& 陈,M. J.(1989年)《生物化学》28卷,9469页]。其简化的芳香区域(一个酪氨酸和两个组氨酸)的存在以及可分辨的单体、二聚体和四聚体Y60 3,5环质子共振,使得对PF4聚集体缔合/解离的热力学和动力学研究成为可能。PF4蛋白亚基缔合/解离平衡的热力学参数已通过对稳态Y60 3,5环质子共振的单体 - 二聚体 - 四聚体群体进行1H NMR(500MHz)共振线拟合分析得出,该分析是在10至40摄氏度的温度范围内进行的。低于10摄氏度和高于40摄氏度时,共振展宽和重叠严重妨碍了分析。二聚体缔合吉布斯自由能[-5.1千卡/摩尔(30摄氏度)]的焓和熵贡献分别为 +2.5 +/- 1千卡/摩尔和 +26 +/- 7熵单位,对于四聚体缔合吉布斯自由能[-5.7千卡/摩尔(30摄氏度)],它们分别为 -7.5 +/- 1千卡/摩尔和 -7 +/- 3熵单位。这些热力学参数与低介电介质中的静电/疏水相互作用控制二聚体形成以及氢键控制四聚体形成相一致。缔合/解离动力学参数,即稳态跃迁速率,已从交换诱导的线宽增加以及1H NMR(500MHz)饱和转移和自旋晶格(T1)弛豫实验中得出。根据解离跃迁速率和平衡常数,估算了缔合速率常数。对于30摄氏度下的二聚体和四聚体平衡,单分子解离速率常数对于二聚体解离为35 +/- 10 s-1,对于四聚体解离为6 +/- 2 s-1。(摘要截断于250字)
Zotero 插件