茅茅
第11楼2006/09/17
不知楼主是学什么的?我查了一篇英文文献,不知对你是否有帮助?是否用其他方法比如质谱来佐证呢?红外图谱解析是比较难的,非得要花一定的功夫下去。我的条件不具备。
1: Biochemistry. 1998 Sep 29;37(39):13882-92. Related Articles, Links
Vibrational spectrum associated with the reduction of tyrosyl radical D* in photosystem II: a comparative biochemical and kinetic study.
Kim S, Barry BA.
University of Minnesota, Department of Biochemistry, Molecular Biology, and Biophysics, St. Paul 55108-1022, USA.
Photosystem II (PSII) contains a redox-active tyrosine, D. Difference FT-IR spectroscopy can be used to obtain structural information about this species, which is a neutral radical, D*, in the photooxidized form. Previously, we have used isotopic labeling, site-directed mutagenesis, and kinetics to assign a vibrational line at 1477 cm-1 to D*; these studies were performed on highly resolved PSII preparations at pH 7.5 inverted question markKim et al. (1998) Biochim. Biophys. Acta 1364, 337-360; publisher's correction, Biochim. Biophys. Acta 1366, 330-354 inverted question mark. Here, we use kinetics to assign vibrational features to tyrosyl radical, D*, in PSII membranes. EPR and fluorescence controls identify a time regime in which D* decay occurs independently of redox changes involving the PSII quinone acceptors. Difference FT-IR spectra, acquired over this time regime, exhibit decreases in the amplitude of a 1477 cm-1 line; quantitative comparison with EPR transients supports the assignment to D*. Conditions, requiring the use of phosphate/formate, have been described for observation of a dissimilar FT-IR spectrum, which has been assigned to tyrosyl radical D*; this spectrum lacks a 1477 cm-1 line inverted question markHienerwadel et al. (1997) Biochemistry 36, 14712-14723 inverted question mark. Under these conditions, we have observed (1) an acceleration in the rate of D* decay and a decrease in D* yield attributable to the presence of formate, (2) a proportional decrease in the amplitude of FT-IR spectra acquired over the time regime in which D* decays, (3) frequency shifts in the D* - D FT-IR spectrum, (4) large-scale structural changes, as assessed by the amide I line shape, and (5) contributions to the FT-IR spectrum from the phosphate/formate buffer in the absence of PSII. We conclude that changes in the FT-IR spectrum, observed in the presence of phosphate/formate, are caused by alterations in the environment of D* and by direct phosphate/formate contributions to the spectrum.