核酸成分的紫外共振拉曼光谱
Ultraviolet resonant Raman spectroscopy of nucleic acid components.
作者信息
Blazej D C, Peticolas W L
出版信息
Proc Natl Acad Sci U S A. 1977 Jul;74(7):2639-43. doi: 10.1073/pnas.74.7.2639.
The first resonant Raman excitation profile using UV as well as visible radiation is presented. Measurements of the intensity of the Raman spectrum of adenosine 5'-monophosphate as a function of the frequency of the incident laser light are presented in the range from 20 to 38 kK (1000 cm-1). The scattering intensity per molecule increases by about 10(5) as the laser is tuned from low to high frequencies. The Raman excitation profile has been calculated by using a simple form of the vibronic theory of Raman scattering. The theoretical curves are found to adequately fit the data using only the frequencies of the excited electronic states of AMP and their corresponding vibronic linewidths as adjustable parameters. The Raman bands at 1484 cm-1 and 1583 cm-1 appear to obtain virtually all of their intensity from a weak electronic transition at 276 nm. The set of Raman bands in the range 1300 cm-1-1400 cm-1 appear to derive at least part of their intensity from an electronic band whose 0-0 transition is in the 269-259 nm region although the possibility of some intensity arising from the vibronic mixing between these two electronic states cannot as yet be ruled out.
给出了使用紫外光以及可见光的首个共振拉曼激发谱。展示了在20至38 kK(1000 cm⁻¹)范围内,作为入射激光频率函数的5'-单磷酸腺苷拉曼光谱强度的测量结果。随着激光从低频调至高频,每个分子的散射强度增加约10⁵。通过使用拉曼散射的电子振动理论的一种简单形式计算出了拉曼激发谱。发现仅将5'-单磷酸腺苷(AMP)激发电子态的频率及其相应的电子振动线宽作为可调参数时,理论曲线就能很好地拟合数据。1484 cm⁻¹和1583 cm⁻¹处的拉曼谱带似乎几乎所有强度都来自276 nm处的一个弱电子跃迁。1300 cm⁻¹ - 1400 cm⁻¹范围内的一组拉曼谱带似乎至少部分强度来自一个电子带,其0 - 0跃迁在269 - 259 nm区域,尽管目前还不能排除这两个电子态之间电子振动混合产生一些强度的可能性。
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