Faculty of Chemistry, Jagiellonian University, Ingardena 3, 30-060 Krakow, Poland.
Faculty of Chemistry, Jagiellonian University, Ingardena 3, 30-060 Krakow, Poland.
Spectrochim Acta A Mol Biomol Spectrosc. 2017 Oct 5;185:317-335. doi: 10.1016/j.saa.2017.05.045. Epub 2017 May 24.
Carbohydrates are widespread and naturally occurring compounds, and essential constituents for living organisms. They are quite often reported when biological systems are studied and their role is discussed. However surprisingly, up till now there is no database collecting vibrational spectra of carbohydrates and their assignment, as has been done already for other biomolecules. So, this paper serves as a comprehensive review, where for selected 14 carbohydrates in the solid state both FT-Raman and ATR FT-IR spectra were collected and assigned. Carbohydrates can be divided into four chemical groups and in the same way is organized this review. First, the smallest molecules are discussed, i.e. monosaccharides (d-(-)-ribose, 2-deoxy-d-ribose, l-(-)-arabinose, d-(+)-xylose, d-(+)-glucose, d-(+)-galactose and d-(-)-fructose) and disaccharides (d-(+)-sucrose, d-(+)-maltose and d-(+)-lactose), and then more complex ones, i.e. trisaccharides (d-(+)-raffinose) and polysaccharides (amylopectin, amylose, glycogen). Both Raman and IR spectra were collected in the whole spectral range and discussed looking at the specific regions, i.e. region V (3600-3050cm), IV (3050-2800cm) and II (1200-800cm) assigned to the stretching vibrations of the OH, CH/CH and C-O/C-C groups, respectively, and region III (1500-1200cm) and I (800-100cm) dominated by deformational modes of the CH/CH and CCO groups, respectively. In spite of the fact that vibrational spectra of saccharides are significantly less specific than spectra of other biomolecules (e.g. lipids or proteins), marker bands of the studied molecules can be identified and correlated with their structure.
碳水化合物是广泛存在于自然界中的化合物,也是生物体的基本组成部分。在研究生物系统及其功能时,经常会涉及到碳水化合物。然而令人惊讶的是,到目前为止,还没有一个数据库收集碳水化合物的振动光谱及其分配情况,而其他生物分子已经有了这样的数据库。因此,本文旨在对 14 种固态碳水化合物进行全面综述,分别收集和分配傅里叶变换拉曼(FT-Raman)和衰减全反射傅里叶变换红外(ATR FT-IR)光谱。碳水化合物可以分为四个化学基团,综述也按照这个方式进行组织。首先,讨论最小的分子,即单糖(d-(-)-核糖、2-脱氧-d-核糖、l-(-)-阿拉伯糖、d-(+)-木糖、d-(+)-葡萄糖、d-(+)-半乳糖和 d-(-)-果糖)和二糖(d-(+)-蔗糖、d-(+)-麦芽糖和 d-(+)-乳糖),然后讨论更复杂的分子,即三糖(d-(+)-棉子糖)和多糖(支链淀粉、直链淀粉、糖原)。拉曼和红外光谱都在整个光谱范围内进行收集,并讨论了特定区域,即分别分配给 OH、CH/CH 和 C-O/C-C 基团伸缩振动的 V 区(3600-3050cm)、IV 区(3050-2800cm)和 II 区(1200-800cm),以及由 CH/CH 和 CCO 基团变形模式主导的 III 区(1500-1200cm)和 I 区(800-100cm)。尽管糖的振动光谱比其他生物分子(如脂质或蛋白质)的光谱不那么具有特异性,但可以识别出研究分子的特征带,并将其与结构相关联。
