Axelsen P H, Bajzer Z, Prendergast F G, Cottam P F, Ho C
Department of Biochemistry and Molecular Biology, Mayo Clinic and Foundation, Rochester, Minnesota 55905.
Biophys J. 1991 Sep;60(3):650-9. doi: 10.1016/S0006-3495(91)82094-X.
Time correlated single photon counting measurements of tryptophan (Trp) fluorescence intensity decay and other spectroscopic studies were performed on glutamine-binding protein (GlnBP) from Escherichia coli. Using site-specifically mutated forms of the protein in which tyrosine (Tyr) and phenylalanine (Phe) substitute for the Trp residues at positions 32 and 220, we have examined whether wild-type (Wtyp) intensity decay components may be assigned to specific Trp residues. Results indicate that: (a) two exponential intensity decay components are recovered from the Wtyp protein (6.16 ns, 0.46 ns); (b) the long decay component arises from Trp-220 and comprises greater than 90% of the total fluorescence emission; (c) the short component arises from Trp-32 and is highly quenched; (d) all four single-Trp mutants exhibit multiexponential intensity decays, yet equimolar mixtures of two single-Trp mutants yield only two decay components which are virtually indistinguishable from the Wtyp protein; (e) the recovery of additional components in protein mixtures is obscured by statistical noise inherent in the technique of photon counting; (f) various spectroscopic measurements suggest that Trp-Trp interactions occur in the Wtyp protein, but the Wtyp intensity decay may be closely approximated by a linear combination of intensity decays from single-Trp mutants; and (g) inferences derived independently from fluorescence and NMR spectroscopy which pertain to the presence of Trp-Trp interactions and the relative solvent exposure of the two Trp residues are in agreement.
对来自大肠杆菌的谷氨酰胺结合蛋白(GlnBP)进行了色氨酸(Trp)荧光强度衰减的时间相关单光子计数测量以及其他光谱研究。使用蛋白质的位点特异性突变形式,其中酪氨酸(Tyr)和苯丙氨酸(Phe)取代了第32位和第220位的Trp残基,我们研究了野生型(Wtyp)强度衰减成分是否可归因于特定的Trp残基。结果表明:(a)从Wtyp蛋白中恢复了两个指数强度衰减成分(6.16纳秒,0.46纳秒);(b)长衰减成分来自Trp-220,占总荧光发射的90%以上;(c)短成分来自Trp-32,且高度淬灭;(d)所有四个单Trp突变体均表现出多指数强度衰减,但两个单Trp突变体的等摩尔混合物仅产生两个衰减成分,这与Wtyp蛋白几乎无法区分;(e)光子计数技术固有的统计噪声掩盖了蛋白质混合物中其他成分的恢复;(f)各种光谱测量表明,Wtyp蛋白中存在Trp-Trp相互作用,但Wtyp强度衰减可以通过单Trp突变体强度衰减的线性组合来近似;(g)分别从荧光和核磁共振光谱得出的关于Trp-Trp相互作用的存在以及两个Trp残基相对溶剂暴露的推断是一致的。