Ahmed Zeeshan, Asher Sanford A
Department of Chemistry, University of Pittsburgh, Pittsburgh, Pennsylvania 15260, USA.
Biochemistry. 2006 Aug 1;45(30):9068-73. doi: 10.1021/bi060858m.
We used UVRRS at 194 and 204 nm excitation to examine the backbone conformation of a 13-residue polypeptide (gp41(659-671)) that has been shown by NMR to predominantly fold into a 3(10)-helix. Examination of the conformation sensitive AmIII(3) region indicates the peptide has significant populations of beta-turn, PPII, 3(10)-helix, and pi-helix-like conformations but little alpha-helix. We estimate that at 1 degree C on average six of the 12 peptide bonds are in folded conformations (predominantly 3(10)- and pi-helix), while the other six are in unfolded (beta-turn/PPII) conformations. The folded and unfolded populations do not change significantly as the temperature is increased from 1 to 60 degrees C, suggesting a unique energy landscape where the folded and unfolded conformations are essentially degenerate in energy and exhibit identical temperature dependences.
我们使用194纳米和204纳米激发波长的紫外共振拉曼光谱(UVRRS)来研究一种13个残基的多肽(gp41(659 - 671))的主链构象,核磁共振(NMR)研究表明该多肽主要折叠成一个3(10)-螺旋结构。对构象敏感的AmIII(3)区域的研究表明,该肽段具有显著比例的β-转角、多聚脯氨酸II型(PPII)、3(10)-螺旋和类π-螺旋构象,但α-螺旋构象较少。我们估计,在1摄氏度时,12个肽键中平均有6个处于折叠构象(主要是3(10)-螺旋和π-螺旋),而另外6个处于未折叠构象(β-转角/PPII)。当温度从1摄氏度升高到60摄氏度时,折叠态和未折叠态的比例没有显著变化,这表明存在一种独特的能量态势,其中折叠态和未折叠态在能量上基本简并,并且表现出相同的温度依赖性。
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