光谱学与光谱分析
光譜學與光譜分析
광보학여광보분석
SPECTROSCOPY AND SPECTRAL ANALYSIS
2010年
4期
1039-1043
,共5页
CdTe量子点%牛血清白蛋白%表面修饰%荧光猝灭法%巯基化合物
CdTe量子點%牛血清白蛋白%錶麵脩飾%熒光猝滅法%巰基化閤物
CdTe양자점%우혈청백단백%표면수식%형광졸멸법%구기화합물
CdTe quantum dots%Bovine serum album%Surface modifier%Fluorescence quenching%Thiol-complex
修饰试剂对量子点的合成、性质具有重要的影响,但目前有关修饰试剂对量子点与蛋白质间相互作用的影响尚不清楚.采用紫外-可见吸收光谱、荧光光谱及红外光谱研究了3种巯基化合物(巯基乙酸,TGA;L-半胱氨酸,L-Cys;还原型谷胱甘肽,GSH)修饰的CdTe量子点与牛血清白蛋白(BSA)的相互作用.通过Stem-Volmer方程对数据进行了分析,得到了不同CdTe量子点与BSA相互作用过程的△H~θ,△G~θ和△S~θ,并比较了CdTe量子点的不同修饰剂对BSA荧光猝灭的影响.研究结果表明,3种修饰试剂包覆的CdTe量子点与BSA的相互作用均为静态猝灭过程,猝灭常数K_(SV)(L-Cys)>K_(SV)(TGA)≈K_(SV)((GSH);TGA和L-Cys修饰的CdTe量子点与BSA的结合力主要为疏水作用力,而GSH修饰的量子点与其结合力既有氢键作用力又有疏水作用力;这些结果说明量子点与BSA的作用过程与量子点表面修饰试剂的类型有关.
脩飾試劑對量子點的閤成、性質具有重要的影響,但目前有關脩飾試劑對量子點與蛋白質間相互作用的影響尚不清楚.採用紫外-可見吸收光譜、熒光光譜及紅外光譜研究瞭3種巰基化閤物(巰基乙痠,TGA;L-半胱氨痠,L-Cys;還原型穀胱甘肽,GSH)脩飾的CdTe量子點與牛血清白蛋白(BSA)的相互作用.通過Stem-Volmer方程對數據進行瞭分析,得到瞭不同CdTe量子點與BSA相互作用過程的△H~θ,△G~θ和△S~θ,併比較瞭CdTe量子點的不同脩飾劑對BSA熒光猝滅的影響.研究結果錶明,3種脩飾試劑包覆的CdTe量子點與BSA的相互作用均為靜態猝滅過程,猝滅常數K_(SV)(L-Cys)>K_(SV)(TGA)≈K_(SV)((GSH);TGA和L-Cys脩飾的CdTe量子點與BSA的結閤力主要為疏水作用力,而GSH脩飾的量子點與其結閤力既有氫鍵作用力又有疏水作用力;這些結果說明量子點與BSA的作用過程與量子點錶麵脩飾試劑的類型有關.
수식시제대양자점적합성、성질구유중요적영향,단목전유관수식시제대양자점여단백질간상호작용적영향상불청초.채용자외-가견흡수광보、형광광보급홍외광보연구료3충구기화합물(구기을산,TGA;L-반광안산,L-Cys;환원형곡광감태,GSH)수식적CdTe양자점여우혈청백단백(BSA)적상호작용.통과Stem-Volmer방정대수거진행료분석,득도료불동CdTe양자점여BSA상호작용과정적△H~θ,△G~θ화△S~θ,병비교료CdTe양자점적불동수식제대BSA형광졸멸적영향.연구결과표명,3충수식시제포복적CdTe양자점여BSA적상호작용균위정태졸멸과정,졸멸상수K_(SV)(L-Cys)>K_(SV)(TGA)≈K_(SV)((GSH);TGA화L-Cys수식적CdTe양자점여BSA적결합력주요위소수작용력,이GSH수식적양자점여기결합력기유경건작용력우유소수작용력;저사결과설명양자점여BSA적작용과정여양자점표면수식시제적류형유관.
The modifier of quantum dots plays an important role in synthesis and nature of quantum dots, however the effect on the interaction between quantum dots and protein is not very clear until up to now. In the present paper, the interactions of CdTe quantum dots with bovine serum album (BSA) were studied by spectroscopy methods including ultraviolet-visible absorption spectrometry (UV-Vis), fluorescence spectrometry (FL) and infrared spectrometry (IR). The CdTe quantum dots were modi-fied by three different thiol-complex including thioglycolic acid, L-cysteine and glutathione, i.e. thioglycolic acid capped CdTe quantum dots (CdTe~T), L-cysteine capped CdTe quantum dots (CdTe~L) and ghitathione capped CdTe quantum dots (CdTe~G) respectively. The quenching constant K_(SV) and corresponding thermodynamic parameters, such as enthalpy change (△H~θ), entro-py change (△S~θ), Gibbs free energy change (△G~θ), were calculated according to Stern-Volmer equations. The results showed that CdTe~T, CdTel. and CdTe~G all have a strong ability of quenching the fluorescence of bovine serum albumin, and the interac-tions of the three types of thiol-capped CdTe quantum dots with BSA were static quenching process. The quenching constant of K_(SV) (TGA) is similar to K_(SV) (GSH), which is much less than K_(SV) (L-Cys). The binding forces of CdTe~T and CdTe~L with the BSA were the main contributions from hydrophobic force according to the thermodynamic parameters (△H~θ>0,△S~θ>0 and △G~θ<0), while the binding forces of CdTe~G with BSA were composed of both hydrogen bonding force and hydrophobic force accord-ing to the thermodynamic parameters(△H~θ<0,△S~θ>0 and △G~θ<0. It was found that different functional group and molecular volume size of thiol surface modified reagent played an important role in the interactions between CdTe QDs and BSA.
