Ginsburg A, Szczepanowski R H, Ruvinov S B, Nosworthy N J, Sondej M, Umland T C, Peterkofsky A
Section on Protein Chemistry, Laboratory of Biochemistry, National Institutes of Health, Bethesda, Maryland 20892-0342, USA.
Protein Sci. 2000 Jun;9(6):1085-94. doi: 10.1110/ps.9.6.1085.
The amino terminal domain of enzyme I (residues 1-258 + Arg; EIN) and full length enzyme I (575 residues; EI) harboring active-site mutations (H189E, expected to have properties of phosphorylated forms, and H189A) have been produced by protein bioengineering. Differential scanning calorimetry (DSC) and temperature-induced changes in ellipticity at 222 nm for monomeric wild-type and mutant EIN proteins indicate two-state unfolding. For EIN proteins in 10 mM K-phosphate (and 100 mM KCl) at pH 7.5, deltaH approximately 140 +/- 10 (160) kcal mol(-1) and deltaCp approximately 2.7 (3.3) kcal K(-1) mol(-1). Transition temperatures (Tm) are 57 (59), 55 (58), and 53 (56) degrees C for wild-type, H189A, and H189E forms of EIN, respectively. The order of conformational stability for dephospho-His189, phospho-His189, and H189 substitutions of EIN at pH 7.5 is: His > Ala > Glu > His-PO3(2-) due to differences in conformational entropy. Although H189E mutants have decreased Tm values for overall unfolding the amino terminal domain, a small segment of structure (3 to 12%) is stabilized (Tm approximately 66-68 degrees C). This possibly arises from an ion pair interaction between the gamma-carboxyl of Glu189 and the epsilon-amino group of Lys69 in the docking region for the histidine-containing phosphocarrier protein HPr. However, the binding of HPr to wild-type and active-site mutants of EIN and EI is temperature-independent (entropically controlled) with about the same affinity constant at pH 7.5: K(A)' = 3 +/- 1 x 10(5) M(-1) for EIN and approximately 1.2 x 10(5) M(-1) for EI.
通过蛋白质生物工程制备了酶I的氨基末端结构域(第1至258位残基加上精氨酸;EIN)以及含有活性位点突变(H189E,预期具有磷酸化形式的特性,和H189A)的全长酶I(575个残基;EI)。差示扫描量热法(DSC)以及单体野生型和突变型EIN蛋白在222nm处椭圆率的温度诱导变化表明其为两态展开。对于处于pH 7.5的10mM磷酸钾(和100mM氯化钾)中的EIN蛋白,ΔH约为140±10(160)kcal mol⁻¹,ΔCp约为2.7(3.3)kcal K⁻¹ mol⁻¹。野生型、H189A和H189E形式的EIN的转变温度(Tm)分别为57(59)、55(58)和53(56)℃。由于构象熵的差异,在pH 7.5时,EIN的去磷酸化His189、磷酸化His189和H189取代形式的构象稳定性顺序为:His > Ala > Glu > His-PO₃²⁻。尽管H189E突变体的氨基末端结构域整体展开的Tm值降低,但一小部分结构(3%至12%)是稳定的(Tm约为66 - 68℃)。这可能源于在含组氨酸的磷酸载体蛋白HPr的对接区域中,Glu189的γ-羧基与Lys69的ε-氨基之间的离子对相互作用。然而,HPr与EIN和EI的野生型及活性位点突变体的结合与温度无关(受熵控制),在pH 7.5时具有大致相同的亲和常数:EIN的K(A)' = 3±1×10⁵ M⁻¹,EI的约为1.2×10⁵ M⁻¹。