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1.
本文对含色氨酸,酪氨酸的钛链,含硫氨基酸的钛链及磷酰化肽链中的电子转移的研究情况进行了归纳和评述。 相似文献
2.
酪氨酸与色氨酸间电子转移——氧化还原活性及电子跃迁能的从头算研究 总被引:1,自引:0,他引:1
在HF/6-31G和GASSCF/6-31G水平上对色氨酸和酪氨酸间的电子转移进行了理论 研究。用类导体屏蔽模型考察体系的溶剂效应。通过对给、受体几何构型的优化, 计算了孤立的给、受体之间电子转移反应的内重组能和反应能差。分别用 Koopmans定理和CASSCF/6-31G方法计算了色氨酸和酪氨酸的电离能。计算了此两种 氨基酸从基态到最低激发态的跃迁能。理论计算结果很好地解释了N_3~·高选择性 地氧化色氨酸残基,并诱发电子从酪氨酸残基向色氨酸残基转移的实验现象。 相似文献
3.
酪氨酸与色氨酸间电子转移——氧化还原活性及电子跃迁能的从头算研究 总被引:1,自引:0,他引:1
在HF/6-31G和GASSCF/6-31G水平上对色氨酸和酪氨酸间的电子转移进行了理论 研究。用类导体屏蔽模型考察体系的溶剂效应。通过对给、受体几何构型的优化, 计算了孤立的给、受体之间电子转移反应的内重组能和反应能差。分别用 Koopmans定理和CASSCF/6-31G方法计算了色氨酸和酪氨酸的电离能。计算了此两种 氨基酸从基态到最低激发态的跃迁能。理论计算结果很好地解释了N_3~·高选择性 地氧化色氨酸残基,并诱发电子从酪氨酸残基向色氨酸残基转移的实验现象。 相似文献
4.
本文使用稳态吸收与荧光光谱、纳秒时间分辨荧光光谱和飞秒时间分辨瞬态吸收光谱技术,在pH=3、7和10的三种条件下,全面研究了一系列模型多肽(Trp-Pron-Tyr,WPnY,n=0、1、2、3、5)中色氨酸(Trp,W)和酪氨酸(Tyr,Y)之间的超快质子耦合电子转移特性.研究发现多肽中色氨酸的荧光猝灭程度与肽链的长度呈负相关.在WPY中,色氨酸的荧光被强烈猝灭,并且这种猝灭效应与pH值高度相关.稳态吸收光谱表明,WPY中存在与其他模型多肽明显不同的缺色性;瞬态吸收光谱也展现出其激发态衰减比其他模型多肽更快,尤其是在pH=10时,这可能归因于色氨酸和酪氨酸之间高效的质子耦合电子转移效应.由于WPY中色氨酸和酪氨酸之间的距离极短,两个氨基酸之间发生了偶极相互作用,从而实现了酪氨酸向色氨酸“直接式”的质子和电子转移过程.其他模型多肽中,两个氨基酸之间的距离较远,只能发生缓慢和长程的“间接式”质子和电子转移.此外,本文对WY和WP二肽的研究结果进一步表明,色氨酸可能与多肽的肽骨架或脯氨酸之间还存在更复杂的相互作用.该研究为色氨酸-酪氨酸“二联体”... 相似文献
5.
磷酰化肽链中电子转移的ESR研究 总被引:1,自引:0,他引:1
当前生命科学正以前所未有的速度向前发展,从对核酸的深入研究开始过渡到对蛋白质结构与功能的注意,尤其是近年来基因调控研究的重大进展是发现非组蛋白具有高度的磷酸化的特性[1],研究证明,核内蛋白磷酸化和去磷酸化则是基因表达调控的重要方式之一[2,3],它是酶活性调节、基因表达调控、细胞转化恶变的关键环节;同时在解决肿瘤的发生和治疗、病毒的感染和诊治、辐射损伤、抗衰老等实际问题上有突出意义,如1992年Krebus和Fisher因为在蛋白的可逆磷酸化方面的突出贡献而获得诺贝尔生理和医学奖.而电子转移是一切化学变化的基础… 相似文献
6.
用AM1半经验方法,优化了吲哚和苯酚中性分子、正离子自由基和负离子自由基的几何构型。用线性反应坐标近似和溶剂效庆的类导体屏蔽模型(COSMO)构造吲哚正离子和苯酚中性分子间电子转移的双势阱,用以估算多肽链中色氨酸和酪氨酸之间的电子转移的反应热和内重组能。优化TrpH-(Pro)n-TyrOH(n=0-3)多肽模型分子的结构和构象,用能级分裂因子的极小值方法计算了这些多肽体系的电子转移矩阵元。 相似文献
7.
基于连续介质模型,本文考察了多肽体系Trp-(Pro)n-Tyr (n=1,2) 从酪氨酸到色氨酸的分子内电子转移,并根据电荷定域的反应物和产物构型和线性反应坐标近似构造了电子转移的双势阱,通过势能曲线的交叉点确定了电子转移过渡态。本文重点讨论了电子转移溶剂重组能。根据作者的非平衡溶剂化理论和可极化连续介质模型编写了溶剂重组能计算程序并用于本文体系的计算。计算得到Trp-Pro-Tyr 和Trp-(Pro)2-Tyr.体系的溶剂重组能分别为20.89 kcal/mol和25.30 kcal/mol. 相似文献
8.
利用时间分辨的激光闪光光解技术研究了乙腈-水混合溶液(1:1,V/V)中2-甲基萘醌(通常称为维生素K3)的激发三重态对色氨酸、酪氨酸的光敏氧化机理.通过瞬态吸收光谱的变化可以推断维生素K3的激发三重态可以与色氨酸、酪氨酸发生电子转移反应,反应形成的维生素K3阴离子自由基的吸收峰可以直接从瞬态吸收谱图中观察到.维生素K3与色氨酸、酪氨酸的电子转移反应的速率分别为1.1×109和0.6×109L·mol-1·s-1.吉布斯自由能(ΔG)的计算结果表明维生素K3的激发三重态与色氨酸、酪氨酸电子转移反应在热力学上是可行的. 相似文献
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10.
酪氨酸,色氨酸荧光光谱计算解析与同时测定新方法研究 总被引:4,自引:0,他引:4
本文用多波长生回归、双峰倍增配平和拟面积多波长数据线性双组合等3种计算方法解析酪氨酸、色氨酸荧光光谱、,建立了3种新的同时测定2种氨基酸分析方法,考察了3种分析方法的精密度、回收率和组分间浓度比范围。 相似文献
11.
以两态模型为基础,用从头算方法,在DZP[所有原子带极化函数的Dunning(9s,5p)/(3s,2p)]基组水平上对四氰基乙烯与四甲基乙烯间的电子转移进行理论计算。通过孤立给体和受体的几何构型优化,计算了给体的电离能和受体的电子亲和能。计算表明,在光诱导电荷分离之后的返回电子转移处于高放热的Marcus反转区。通过碰撞配合物的结构优化和电荷分离处理,在线性反应坐标近似下得到四甲基乙烯-四氰基乙烯配合物电荷分离反应的双势阱,进而获得反应热,键重组能,以及跃迁能。 相似文献
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14.
After the separation of the donor, the acceptor, and the σ-type bridge from the π-σ-π system, the geometries of biphenyl,
biphenyl anion radical, naphthalene, and naphthalene anion radical are optimized, and then the reorganization energy for the
intermolecular electron transfer (ET) at the levels of HF/4-31G and HF/DZP is calculated. The ET matrix elements of the self-exchange
reactions of theπ-σ-π systems have been calculated by means of both the direct calculation based on the variational principle,
and the transition energy between the molecular orbitals at the linear coordinateR = 0.5. For the cross reactions, the ET matrix element and the geometry of the transition state are determined by searching the minimum
energy splitting Δmin along the reaction coordinate. In the evaluation of the solvent reorganization energy of the ET in solution, the Marcus’
two- sphere model has been invoked. A few of ET rate constants for the intramolecular ET reactions for the π-σ-π systems,
which contain the biphenylyl as the donor and both biphenylyl and naphthyl as the acceptor, have been obtained.
Project supported by the National Natural Science Foundation of China (Grant Nos. 29706104 and 29573112), the State Key Laboratory
of Theoretical and Computational Chemistry of Jilin University. 相似文献
15.
After the separation of the donor, the aeceptor, and the σ-type bridge from the π-σ-π system, the geometries of biphenyl, biphenyl anion radical, naphthalene, and naphthalene anion radical are optimized, and then the reorganization energy for the intermolecular electron transfer (ET) at the levels of HF/4-31G and HF/DZP is calculated. The ET matrix elements of the self-exchange reactions of the π-σ-π systems have been calculated by means of both the direct calculation based on the variational principle, and the transition energy between the molecular orbitals at the linear coordinate R=0.5. For the cross reactions, the ET matrix element and the geometry of the transition state are determined by searching the minimum energy splitting △_(min) along the reaction coordinate. In the evaluation of the solvent reorganization energy of the ET in solution, the Marcus' two-sphere model has been invoked. A few of ET rate constants for the intramolecular ET reactions for the π-σ-π systems, which contain 相似文献
16.
A simple model for computing the electron transfer rate constant of a cross-reaction has been proposed in the framework of
semiclassical theory and employed to investigate the electron transfer system NO
2
+
/NO. The encounter complex of electron transfer NO
2
+
+NO→N02+NO+ has been optimized at the level of UHF/6-31G. In the construction of diabatic potential energy surfaces the linear coordinate
was used and the kinetic quantities, such as the activation energies and the electron transfer matrix elements, have been
obtained. For comparison, the related selfexchange reactlon systems NO
2
+
/NO2 and NO+/NO were kinetically investigated. The calculated activation energies for the electron transfer reactions of systems NO
2
+
/NO, NO
2
+
/NO2, and NO+/NO are 81.4, 128.8, and 39.8 kJ.mol-1, respectively. With the solvent effect taken into account, the contribution of solvent reorganization to the activation energy
has been estimated according to the geometric parameters of the transition states. The obtained rate constants show that the
activity of NO
2
+
as an oxidizing reagent in the aromatic nitration will be greatly decreased due to a high activation barrier contributed
mainly from the change of bond angle ONO. 相似文献
17.
A series of electron transfer (ET) reactions between some organic molecules have been investigated through ab initio calculations. Biphenyl (Bp) and 9,9′-dimethylfluorene anion radicals are chosen as the donor, whereas several organic molecules with different redox abilities are chosen as the acceptor. The inner reorganization energy and the endothermicity of the ET reactions in those molecule–ion systems have been estimated through the HFSCF and complete active space multiconfiguration SCF calculations. Double-well potentials for the gas-phase ET reactions have been constructed using the linear reaction coordinate, and the results show that the quinone-containing ET reactions are in Marcus' inverted region. It has been found that the inner reorganization energies are different for various donor-acceptor couples, unlike the experimentally fitted ones. The contribution from the inter-ring torsional motion in Bp to the inner reorganization energy has been evaluated from the energy difference of the biphenyl-acceptor and the dimethylfluorine-acceptor systems. Comparisons with the experimentally observed results have been made. 相似文献
18.
A simple model for computing the electron transfer rate constant of a cross-reaction has been proposed in the framework of semiclassical theory and employed to investigate the electron transfer system NO2+/NO.The encounter complex of electron transfer NO2++NO→NO2+NO+has been optimized at the level of UHF/6-31G.In the construction of diabatic potential energy surfaces the linear coordinate was used and the kinetic quantities,such as the activation energies and the electron transfer matrix elements,have been obtained.For comparison,the related self-exchange reation systems NO2+/NO2 and NO+/NO were kinetically investigated.The calculated activation energies for the electron transfer reactions of systems NO2+/NO,NO2+/NO2,and NO+/NO are 81 4,128.8,and 39.8kJ mol-1,respectively With the solvent effect taken into account,the contribution of solvent reorganization to the activation energy has been estimated according to the geometric parameters of the transition states.The obtained rate constants show that the 相似文献
19.
Ab initio calculations have been performed to investigate the state transition in photoinduced electron transfer reactions
between tetracyanoethylene and biphenyl as well as naphthalene. Face-to-face conformations of electron donor–acceptor (EDA)
complexes were selected for this purpose. The geometries of the EDA complexes were determined by using the isolated optimized
geometries of the donor and the acceptor to search for the maximum stabilization energy along the center-to-center distance.
The correction of interaction energies for basis set superposition error was considered by using counterpoise methods. The
ground and excited states of the EDA complexes were optimized with complete-active-space self-consistent-field calculations.
The theoretical study of the ground state and excited states of the EDA complex in this work reveals that the S1 and S2 states of the EDA complexes are charge–transfer (CT) excited states, and CT absorption which corresponds to the S0→S1 and S0→S2 transitions arise from π−π* excitation. On the basis of an Onsager model, CT absorption in dichloromethane was investigated by considering the solvent
reorganization energy. Detailed discussions on the excited state and on the CT absorptions were made.
Received: 30 April 2001 / Accepted: 18 October 2001 / Published online: 9 January 2002 相似文献