Marx U C, Austermann S, Bayer P, Adermann K, Ejchart A, Sticht H, Walter S, Schmid F X, Jaenicke R, Forssmann W G
Lehrstuhl für Biochemie, Universität Bayreuth, Federal Republic of Germany.
J Biol Chem. 1995 Jun 23;270(25):15194-202. doi: 10.1074/jbc.270.25.15194.
Human parathyroid hormone (hPTH), amino acids Ser1 to Leu37, is biologically active with respect to both receptor binding and activation of adenylate cyclase to influence the serum calcium concentration. It induces DNA synthesis via an unknown signal pathway. We investigated the structure of hPTH(1-37) in H2O/buffer solution under near physiological conditions, that is pH 6.0 and 270 mM salt, by circular dichroism, ultracentrifugation, nuclear magnetic resonance spectroscopy, and molecular dynamics calculations. Complete sequence specific assignments of all 1H resonances were performed by using 1H two-dimensional NMR measurements (double quantum-filtered correlated spectroscopy, nuclear Overhauser effect spectroscopy (NOESY), and total correlation spectroscopy with suppression of NOESY-type cross-peaks spectra). hPTH(1-37) obtained helical structure and showed hydrophobic interactions defining a tertiary structure. The NH2-terminal four amino acids of hPTH(1-37) did not show a stable conformation. Evidence for an alpha-helical region between Ile5 and Asn10 was found. This region was followed by a flexible link (Gly12, Lys13) and a well defined turn region, His14 to Ser17. The latter was stabilized by hydrophobic interactions between Trp23 and Leu15. Ser17 through at least Leu28 formed an alpha-helix. Arg20 and Lys27 were involved in the core built by His14 to Ser17. Unrestrained molecular dynamics simulations indicated that the structure was stable on the 200 ps time scale.
人甲状旁腺激素(hPTH),氨基酸序列为Ser1至Leu37,在受体结合以及激活腺苷酸环化酶以影响血清钙浓度方面具有生物活性。它通过一条未知的信号通路诱导DNA合成。我们在接近生理条件(即pH 6.0和270 mM盐)的H2O/缓冲溶液中,通过圆二色性、超速离心、核磁共振光谱和分子动力学计算研究了hPTH(1 - 37)的结构。通过使用1H二维核磁共振测量(双量子滤波相关光谱、核Overhauser效应光谱(NOESY)以及抑制NOESY型交叉峰光谱的全相关光谱)对所有1H共振进行了完整的序列特异性归属。hPTH(1 - 37)获得了螺旋结构,并显示出定义三级结构的疏水相互作用。hPTH(1 - 37)的NH2末端四个氨基酸未显示出稳定的构象。发现了Ile5和Asn10之间存在α - 螺旋区域的证据。该区域之后是一个柔性连接(Gly12,Lys13)和一个明确的转折区域,即His14至Ser17。后者通过Trp23和Leu15之间的疏水相互作用得以稳定。Ser17至少到Leu28形成了一个α - 螺旋。Arg20和Lys27参与了由His14至Ser17构建的核心结构。无约束分子动力学模拟表明,该结构在200 ps时间尺度上是稳定的。
