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首页> 外文会议>Conference on Molecular Probes for Biomedical Applications >Steady-state and time-resolved fluorescence investigation of 2-pyridone and 3-pyridone in solution and their specific binding to human serum albumin
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Steady-state and time-resolved fluorescence investigation of 2-pyridone and 3-pyridone in solution and their specific binding to human serum albumin

机译:溶液中2-吡啶酮和3-吡啶酮的稳态和时间分辨荧光研究及其对人血清白蛋白的特异性结合

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2-pyridone (2Py) and 3-pyridone (3Py) were examined in different solvents and their binding to human serum albumin (HSA) was studied using steady-state spectroscopy and time-resolved fluorescence. Solvation of 2Py and 3Py by water was examined in binary mixtures of 1,4-dioxane and water. Analysis of the absorption and fluorescence data reveals the solvation of the hydrogen bonding center in 2Py by one water molecule and in 3Py by three water molecules. A zwitterionic tautomer of 3Py is formed in water and shows distinct absorption peaks from the absorption of the neutral tautomer. Fluorescence of 3Py was observed in polar solvents only, whereas 2Py is fluorescent in polar and nonpolar solvents. The absorption and fluorescence spectra of 2Py in different solvents indicate less solute-solvent interaction in nonpolar solvents. This observation was confirmed by the measured longer fluorescence lifetime of 2Py in cyclohexane compared to that in water. The mechanism of binding of 2Py and 3Py as probe ligands to HSA was investigated by following the intensity change and lifetime of HSA fluorescence after excitation at 280 nm. The presence of 2Py and 3Py causes a reduction in the fluorescence intensity and lifetime of HSA. This observation indicates that subdomain IIA binding site (Sudlow site I) is the host of the probes and the reduction in the fluorescence of HSA is due to energy transfer from the Trp-214 residue to the probe in each case. The distance between Trp-214 and each of the probes was calculated using Foerster theory for energy transfer to be 1.99 nm for HSA/2Py and 2.44 nm for HSA/3Py. The shorter distance in the former complex indicates more efficient energy transfer than in the latter. This was confirmed by estimating the quenching rate constant (k_q) in each complex. k_q was calculated to be 1.44 × 10~(12) M~(-1)s~(-1) for HSA/2Py and 3.45 × 10~(11) M~(-1)s~(-1) for HSA/3Py. The calculated distances and the k_q values indicate a static quenching mechanism operative in the two complexes. The binding constants were estimated to be K = (3.4 ± 0.4) × 10~4 M~(-1) for the HSA/2Py complex and K = (2.3 ± 0.3) × 10~4 M~(-1) for the HSA/3Py complex. The number of binding sites of HSA was calculated to be one in both complexes. The latter results, along with the quenching results, indicate that both probes, 2Py and 3Py, bind only in Sudlow site I in subdomain IIA.
机译:在不同的溶剂中检查2-吡啶酮(2py)和3-吡啶(3-吡啶酮(30),使用稳态光谱和时间分辨荧光研究其与人血清白蛋白(HSA)的结合。在1,4-二恶烷和水的二元混合物中检测2种和300分的溶剂化。吸收和荧光数据的分析揭示了氢键中心在一个水分子中的氢键中心和三个水分子中的溶剂化。在水中形成的两性离子互变异物形成,并且从中性互变异构体的吸收显示出不同的吸收峰。仅在极性溶剂中观察到30点的荧光,而2PY是极性和非极性溶剂的荧光。不同溶剂200例的吸收和荧光光谱表明非极性溶剂中的溶质溶剂相互作用较小。与水中的环己烷中的200点的测量更长的荧光寿命确认了该观察结果。通过在280nm的激发后的强度变化和HSA荧光的强度变化和寿命下,研究了200%和3py作为HSA的探针配体的机制。 2py和3py的存在导致HSA的荧光强度和寿命的降低。该观察表明,子域IIA结合位点(Sudlow Site i)是探针的宿主,并且HSA的荧光的减少是由于从TRP-214残基的能量转移到每种情况下的探针。使用Foerster理论计算TRP-214和每个探针之间的距离,用于HSA / 2PS / 2的HSA / 2ps和2.44nm的1.99nm。前复杂的距离较短表示比后者更有效的能量转移。通过估计每个复合物中的猝灭速率常数(K_Q)来确认这一点。 K_Q计算为HSA / 2 PY的1.44×10〜(12)M〜(-1)S〜(-1),HSA为3.45×10〜(11)m〜(-1)S〜(-1) / 3py。计算的距离和K_Q值表示在两个复合物中操作的静态猝灭机制。 HSA / 2PY复合物的k =(3.4±0.4)×10〜4 m〜(-1)估计结合常数为k =(2.3±0.3)×10〜4 m〜(-1) HSA / 3PY复杂。计算HSA的结合位点的数量被计算为两个复合物中的一个。后一种结果以及淬火结果表明探针,2pp和3py,仅在Sudlow Site I中绑定在子域IIA中。

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