皖南尖吻蝮蛇蛇毒经分离和纯化得到出血毒素 (Aa H ) ,质谱测定分子量为 2 32 84.4± 0 .1。实验表明 ,色氨酸 (Trp)残基位于 Aa H 分子的疏水区。十二烷基磺酸钠 (SDS)和盐酸胍的加入使 Aa H 的分子构象发生变化 ,导致分子内 Tr...皖南尖吻蝮蛇蛇毒经分离和纯化得到出血毒素 (Aa H ) ,质谱测定分子量为 2 32 84.4± 0 .1。实验表明 ,色氨酸 (Trp)残基位于 Aa H 分子的疏水区。十二烷基磺酸钠 (SDS)和盐酸胍的加入使 Aa H 的分子构象发生变化 ,导致分子内 Trp残基的荧光淬灭。盐酸胍的加入使 Trp残基的荧光发射峰位明显红移 ,表明位于 Aa H 分子较疏水环境的 Trp残基相对外露。本文还就酸度、EDTA和金属离子对 Aa H 分子内展开更多
研究了几种淬灭剂对皖南尖吻蝮蛇蛇毒出血毒素 (Aa H )内源荧光的影响。溴代琥珀酰亚胺 (NBS)法测得每个 Aa H 分子中含有 3个 Trp残基。实验得到丙烯酰胺 (Acr)和 I-的碰撞淬灭常数 KSV分别为 38.3M-1和 4.2 7M-1,fa 分别为 0 .97和 0...研究了几种淬灭剂对皖南尖吻蝮蛇蛇毒出血毒素 (Aa H )内源荧光的影响。溴代琥珀酰亚胺 (NBS)法测得每个 Aa H 分子中含有 3个 Trp残基。实验得到丙烯酰胺 (Acr)和 I-的碰撞淬灭常数 KSV分别为 38.3M-1和 4.2 7M-1,fa 分别为 0 .97和 0 .99,Acr和 I-均可以淬灭 Aa H 分子中几乎全部 Trp残基的荧光 ,初步验证 Acr与 Aa H 分子间无明显的相互作用。结合 Aa H 的荧光发射光谱可以推断 ,Aa H 中的 3个展开更多
By using equilibrium dialysis, atomic absorption spectrometry, fluorescence titration and determination of fluorescence lifetime, it can be determined that each fibrinolytic principle(FP) molecule contains one Ca 2+ b...By using equilibrium dialysis, atomic absorption spectrometry, fluorescence titration and determination of fluorescence lifetime, it can be determined that each fibrinolytic principle(FP) molecule contains one Ca 2+ binding site and one Ca 2+ ion. The energy transfer between Tb 3+ and the Trp residue in FP was studied through fluorescence spectroscopy. Our studies show that the Ca 2+ ion in an FP molecule can be substituted by Tb 3+ ion. In FP molecule, the excition energy can be transfered from the Trp residue as an energy donor to Tb 3+ as an acceptor, substituted into FP and located near the Trp residue. The distance between Tb 3+ and the Trp residue, ~0 375 nm, was worked out with the experimental data and Forster theory.展开更多
文摘皖南尖吻蝮蛇蛇毒经分离和纯化得到出血毒素 (Aa H ) ,质谱测定分子量为 2 32 84.4± 0 .1。实验表明 ,色氨酸 (Trp)残基位于 Aa H 分子的疏水区。十二烷基磺酸钠 (SDS)和盐酸胍的加入使 Aa H 的分子构象发生变化 ,导致分子内 Trp残基的荧光淬灭。盐酸胍的加入使 Trp残基的荧光发射峰位明显红移 ,表明位于 Aa H 分子较疏水环境的 Trp残基相对外露。本文还就酸度、EDTA和金属离子对 Aa H 分子内
文摘研究了几种淬灭剂对皖南尖吻蝮蛇蛇毒出血毒素 (Aa H )内源荧光的影响。溴代琥珀酰亚胺 (NBS)法测得每个 Aa H 分子中含有 3个 Trp残基。实验得到丙烯酰胺 (Acr)和 I-的碰撞淬灭常数 KSV分别为 38.3M-1和 4.2 7M-1,fa 分别为 0 .97和 0 .99,Acr和 I-均可以淬灭 Aa H 分子中几乎全部 Trp残基的荧光 ,初步验证 Acr与 Aa H 分子间无明显的相互作用。结合 Aa H 的荧光发射光谱可以推断 ,Aa H 中的 3个
文摘By using equilibrium dialysis, atomic absorption spectrometry, fluorescence titration and determination of fluorescence lifetime, it can be determined that each fibrinolytic principle(FP) molecule contains one Ca 2+ binding site and one Ca 2+ ion. The energy transfer between Tb 3+ and the Trp residue in FP was studied through fluorescence spectroscopy. Our studies show that the Ca 2+ ion in an FP molecule can be substituted by Tb 3+ ion. In FP molecule, the excition energy can be transfered from the Trp residue as an energy donor to Tb 3+ as an acceptor, substituted into FP and located near the Trp residue. The distance between Tb 3+ and the Trp residue, ~0 375 nm, was worked out with the experimental data and Forster theory.