Tallmadge D H, Huebner J S, Borkman R F
Photochem Photobiol. 1989 Apr;49(4):381-6. doi: 10.1111/j.1751-1097.1989.tb09183.x.
Studies of acrylamide quenching of tryptophan (Trp) fluorescence, photochemistry, and photoionization have been conducted. Quenching of Trp fluorescence in aqueous solution by addition of acrylamide in the concentration range 0.0-0.5 M was measured and resulted in a Stern-Volmer quenching constant of KSV = 21 +/- 3 M-1. Photolysis experiments were performed in which Trp was photolyzed at 295 nm in the presence of varying concentrations of acrylamide. The loss of Trp was monitored using reverse-phase high performance liquid chromatography (RP-HPLC) and was observed to follow first order kinetics. Production of N-formylkynurenine (NFK) was observed by RP-HPLC in irradiated Trp samples both in the presence and absence of added acrylamide. In addition, no new photochemical product was detected. This was taken as evidence that acrylamide did not alter the photochemical pathway but just reduced the reaction rate as expected for a physical quenching mechanism. Plotting the reciprocal of photolysis rate constant versus acrylamide concentration produced a Stern-Volmer constant for quenching of Trp photochemistry of KSV = 6 +/- 2 M-1. The KSV values for both fluorescence quenching and photolysis quenching were thus large, implying efficient quenching of both processes by acrylamide. Assuming an excited singlet state lifetime of 2.8 ns, the calculated second-order quenching rate constants for fluorescence and photolysis were kq = 7.5 x 10(9) and 2.1 x 10(9) M-1 s-1 respectively. The possible involvement of photoionization in the photolysis mechanism was investigated by studies of acrylamide quenching of voltage transients produced by xenon flash lamp excitation of Trp at aqueous/teflon or aqueous/mica interfaces.(ABSTRACT TRUNCATED AT 250 WORDS)
已开展了关于丙烯酰胺对色氨酸(Trp)荧光、光化学及光电离淬灭的研究。测定了在0.0 - 0.5 M浓度范围内添加丙烯酰胺对水溶液中Trp荧光的淬灭情况,得到的斯特恩 - 沃尔默淬灭常数KSV = 21 ± 3 M⁻¹。进行了光解实验,其中Trp在不同浓度丙烯酰胺存在下于295 nm处进行光解。使用反相高效液相色谱(RP - HPLC)监测Trp的损失情况,发现其遵循一级动力学。通过RP - HPLC在添加和未添加丙烯酰胺的辐照Trp样品中均观察到了N - 甲酰犬尿氨酸(NFK)的生成。此外,未检测到新的光化学产物。这被视为丙烯酰胺未改变光化学途径,而只是如物理淬灭机制所预期的那样降低了反应速率的证据。绘制光解速率常数的倒数与丙烯酰胺浓度的关系图,得到Trp光化学淬灭的斯特恩 - 沃尔默常数KSV = 6 ± 2 M⁻¹。因此,荧光淬灭和光解淬灭的KSV值都很大,这意味着丙烯酰胺对这两个过程都有高效的淬灭作用。假设激发单重态寿命为2.8 ns,计算得到的荧光和光解的二级淬灭速率常数分别为kq = 7.5×10⁹和2.1×10⁹ M⁻¹ s⁻¹。通过研究丙烯酰胺对氙闪光灯激发Trp在水/聚四氟乙烯或水/云母界面产生的电压瞬变的淬灭情况,对光电离在光解机制中的可能参与进行了研究。(摘要截于250字)
