化学研究与应用
化學研究與應用
화학연구여응용
CHEMICAL RESEARCH AND APPLICATION
2015年
6期
815-821
,共7页
朱燕舞%赖彭亮%吴笑笑%周洁梅%江欢%王均胜%邓宁%何建波
硃燕舞%賴彭亮%吳笑笑%週潔梅%江歡%王均勝%鄧寧%何建波
주연무%뢰팽량%오소소%주길매%강환%왕균성%산저%하건파
亚甲蓝%色氨酸%酪氨酸%苯丙氨酸%荧光猝灭
亞甲藍%色氨痠%酪氨痠%苯丙氨痠%熒光猝滅
아갑람%색안산%락안산%분병안산%형광졸멸
methylene blue%tryptophan%tyrosine%phenylalanine%fluorescence quenching
本文运用荧光光谱法研究亚甲蓝( MB)分别与色氨酸( Trp)、酪氨酸( Tyr)和苯丙氨酸( Phe)三种芳香族氨基酸的相互作用。在pH 7.4 Tris-HCl缓冲溶液中,MB引起上述三种氨基酸明显的荧光猝灭现象,最大荧光猝灭波长分别位于346、303和282nm。其荧光猝灭值(F0-F)在一定范围内与MB成正比,用于测定MB具有高灵敏度。通过Stern-Volmer作图及温度的影响,表明MB与三种芳香族氨基酸之间以摩尔比1∶1形成基态复合物,均产生显著的静态猝灭,相互作用力较强,其中MB主要通过疏水作用与Trp结合,与Tyr和Phe之间的结合过程以静电作用力为主。
本文運用熒光光譜法研究亞甲藍( MB)分彆與色氨痠( Trp)、酪氨痠( Tyr)和苯丙氨痠( Phe)三種芳香族氨基痠的相互作用。在pH 7.4 Tris-HCl緩遲溶液中,MB引起上述三種氨基痠明顯的熒光猝滅現象,最大熒光猝滅波長分彆位于346、303和282nm。其熒光猝滅值(F0-F)在一定範圍內與MB成正比,用于測定MB具有高靈敏度。通過Stern-Volmer作圖及溫度的影響,錶明MB與三種芳香族氨基痠之間以摩爾比1∶1形成基態複閤物,均產生顯著的靜態猝滅,相互作用力較彊,其中MB主要通過疏水作用與Trp結閤,與Tyr和Phe之間的結閤過程以靜電作用力為主。
본문운용형광광보법연구아갑람( MB)분별여색안산( Trp)、락안산( Tyr)화분병안산( Phe)삼충방향족안기산적상호작용。재pH 7.4 Tris-HCl완충용액중,MB인기상술삼충안기산명현적형광졸멸현상,최대형광졸멸파장분별위우346、303화282nm。기형광졸멸치(F0-F)재일정범위내여MB성정비,용우측정MB구유고령민도。통과Stern-Volmer작도급온도적영향,표명MB여삼충방향족안기산지간이마이비1∶1형성기태복합물,균산생현저적정태졸멸,상호작용력교강,기중MB주요통과소수작용여Trp결합,여Tyr화Phe지간적결합과정이정전작용력위주。
The interaction between Methylene blue( UMB) with tryptophan( Trp) ,tyrosine( Tyr) and phenylalanine( Phe) was studied by using fluorescence spectroscopy. The results showed that MB could strongly quench the fluorescence of the three aromatic amino acids in Tris-HCl buffer solution(pH 7. 4),and the maximum quenching wavelengths were at 346,303 and 282 nm,respective-ly. Fluorescence quenching value( F0-F) was proportional to the concentration of MB in a certain range. Fluorescence quenching method for determination of MB had high sensitivity. Data analyses based on the Stern-Volmer plots and the effect of temperature showed that static quenching occurred through the formation of the complexes of MB with each aromatic amino acid in a molar ratio of 1 ∶ 1,and MB had a strong interaction with the three aromatic amino acids. Hydrophobic interaction should be responsible for the binding of MB with Trp,whereas the interaction of static electricity could play a major role in the reaction of MB with Tyr and Phe.
