Benecky M J, Wine R W, Kolvenbach C G, Mosesson M W
Sinai Samaritan Medical Center, University of Wisconsin Medical School, Milwaukee 53233.
Biochemistry. 1991 Apr 30;30(17):4298-306. doi: 10.1021/bi00231a028.
In order to provide a more detailed understanding of human plasma fibronectin (PFn) solution structure, we examined the effects of pH and ionic strength (mu) variation on the sedimentation velocities (s20,w), fluorescence polarization-derived mean harmonic rotational relaxation times (rho H), far-ultraviolet (UV) circular dichroism (CD), and intrinsic tryptophan fluorescence of dimeric PFn and the monomeric 190/170-kDa PFn fragment. By comparing the biophysical properties of PFn with those of the 190/170-kDa PFn fragment, we could assess the relative importance of intrasubunit and intersubunit electrostatic forces in the stabilization of PFn structure. The rho H derived from isothermal polarization measurements on 1-pyrenebutyrate conjugated PFn decreased markedly (4.5----1.05-1.23 microseconds) when mu was increased from 0.2 to 1.2 or when the pH was adjusted from 7.4 to 2.0 or 11.0. We also noted a significant decrease in the PFn s20,w (13----8.5-9.6S) under these same solvent conditions. In contrast, the rho H and s20,w of the monomeric 190/170-kDa PFn fragment were relatively insensitive to changes in mu or pH. Computer simulations of the observed pH-dependent changes in the far-UV CD of PFn and the 190/170-kDa PFn fragment revealed only minor differences in protein secondary structure. We also observed only small bathochromic shifts (1-3 nm) in the emission maxima of PFn and 190/170-kDa PFn fragment tryptophan fluorescence under acidic or high mu conditions. These results suggest that minimal changes in PFn tertiary (i.e., intrasubunit) structure occur at pH 2, 11, or at mu = 1.2.(ABSTRACT TRUNCATED AT 250 WORDS)
为了更详细地了解人血浆纤连蛋白(PFn)的溶液结构,我们研究了pH值和离子强度(μ)变化对二聚体PFn以及单体190/170-kDa PFn片段的沉降速度(s20,w)、荧光偏振衍生的平均谐波旋转弛豫时间(ρH)、远紫外(UV)圆二色性(CD)和色氨酸固有荧光的影响。通过比较PFn与190/170-kDa PFn片段的生物物理特性,我们可以评估亚基内和亚基间静电力在PFn结构稳定中的相对重要性。当μ从0.2增加到1.2,或pH值从7.4调整到2.0或11.0时,1-芘丁酸缀合PFn的等温偏振测量得出的ρH显著降低(从4.5微秒降至1.05 - 1.23微秒)。我们还注意到在相同的溶剂条件下,PFn的s20,w显著降低(从13S降至8.5 - 9.6S)。相比之下,单体190/170-kDa PFn片段的ρH和s20,w对μ或pH的变化相对不敏感。对观察到的PFn和190/170-kDa PFn片段远紫外CD的pH依赖性变化进行计算机模拟,结果显示蛋白质二级结构仅有微小差异。在酸性或高μ条件下,我们还仅观察到PFn和190/170-kDa PFn片段色氨酸荧光发射最大值出现小的红移(1 - 3纳米)。这些结果表明,在pH值为2、11或μ = 1.2时,PFn三级(即亚基内)结构的变化极小。(摘要截于250字)
