RESONANCE RAMAN EXAMINATION OF THE ELECTRONIC EXCITED STATES OF GLYCYLGLYCINE AND OTHER DIPEPTIDES - OBSERVATION OF A CARBOXYLATE-]AMIDE CHARGE TRANSFER TRANSITION

Chen XG; Li PS; Holtz JSW; Chi ZH; Pajcini V; Asher SA; Kelly LA

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RESONANCE RAMAN EXAMINATION OF THE ELECTRONIC EXCITED STATES OF GLYCYLGLYCINE AND OTHER DIPEPTIDES - OBSERVATION OF A CARBOXYLATE-]AMIDE CHARGE TRANSFER TRANSITION

机译：甘氨酸和其他二肽的电子激发态的共振拉曼检验-羧酸盐-酰胺电荷转移的观察。

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We have examined the UV resonance Raman and the VUV absorption spectra of aqueous glycylglycine and other dipeptides. We observe strong resonance Raman enhancement of the amide I, II, and III bands and the amide CalphaH bending mode in a manner similar to that we observed previously with excitation within the pi-->pi* transition of N-methylacetamide (Chen, X. G.; Asher, S. A.; Schweitzer-Stenner, R.; Mirkin, N. G.; Krimm, S. J. Am. Chem. Soc. 1995, 117, 2884). However, in addition, we observe strong resonance Raman enhancement of the ca. 1400 cm(-1) symmetric COO- stretching vibration, whose 206.5 mm Raman cross section is increased 20-fold compared to that of the carboxylate in sodium acetate, for example. Addition of a methylene spacer between the amide and carboxylate groups causes the resonance Raman enhancement of this symmetric COO- stretch to disappear. The UV resonance Raman excitation profiles, the Raman depolarization ratio dispersion, and the VUV absorption spectra of glycylglycine and other dipeptides demonstrate the existence of a new 197 nm charge transfer band which involves electron transfer from a nonbonding carboxylate orbital to the amide-like pi* orbital. This transition occurs at the penultimate carboxylate end of all peptides and proteins.

机译：我们检查了水性甘氨酰甘氨酸和其他二肽的紫外共振拉曼光谱和VUV吸收光谱。我们观察到酰胺I，II和III谱带的强烈共振拉曼增强以及酰胺CalphaH弯曲模式，其方式与我们之前在N-甲基乙酰胺的pi-> pi *跃迁中激发时观察到的方式类似（Chen，XG ； Asher，SA； Schweitzer-Stenner，R。； NG Mirkin； Krimm，SJ Am.Chem.Soc.1995，117，2884）。然而，此外，我们观察到强共振拉曼增强的ca。 1400 cm（-1）对称COO拉伸振动，例如，其206.5 mm拉曼横截面与乙酸钠中羧酸盐的横截面相比增加20倍。在酰胺和羧酸酯基团之间添加亚甲基间隔基导致该对称COO-延伸的共振拉曼增强消失。紫外共振拉曼激发曲线，拉曼去极化比分散度以及甘氨酰甘氨酸和其他二肽的VUV吸收光谱表明，存在一个新的197 nm电荷转移带，该转移带涉及电子从非键合羧酸盐轨道转移至酰胺样pi *轨道。此过渡发生在所有肽和蛋白质的倒数第二个羧酸根末端。

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来源
《Journal of the American Chemical Society》 |1996年第40期|p.9705-9715|共11页
作者
Chen XG; Li PS; Holtz JSW; Chi ZH; Pajcini V; Asher SA; Kelly LA;
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作者单位

Asher SA, UNIV PITTSBURGH, DEPT CHEM, PITTSBURGH, PA 15260, USA;

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收录信息美国《科学引文索引》(SCI);美国《工程索引》(EI);美国《生物学医学文摘》(MEDLINE);美国《化学文摘》(CA);
原文格式 PDF
正文语种 eng
中图分类化学;
关键词
Vibrational circular dichroism; Iii spectral region; N methylacetamide; Peptide bond; Uvrr spectroscopy; Amide; Conformation; Enhancement; Protoporphyrin; Assignments;

机译：振动圆二色性;IIi光谱区;N甲基乙酰胺;肽键;Uvrr光谱;酰胺;构象;增强;原卟啉;赋值;
入库时间 2022-08-18 03:25:46

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RESONANCE RAMAN EXAMINATION OF THE ELECTRONIC EXCITED STATES OF GLYCYLGLYCINE AND OTHER DIPEPTIDES - OBSERVATION OF A CARBOXYLATE-]AMIDE CHARGE TRANSFER TRANSITION

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