Centre de Recherches sur les Macromolécules Végétales (CERMAV, CNRS UPR 5301), affiliated with the Université Joseph Fourier (UJF), member of the PolyNat Carnot Institute, 601 rue de la Chimie, BP 53, 38041 Grenoble cedex 9, France.
Carbohydr Polym. 2013 May 15;94(2):934-9. doi: 10.1016/j.carbpol.2013.02.001. Epub 2013 Feb 10.
In this work, polysaccharide nanoparticles based on tamarind seeds xyloglucan are prepared, analyzed in term of characteristic sizes and morphology, and degraded by the action of a glycoside-hydrolase. Obtained in an aqueous NaNO2 solution (0.1M), these unaggregated nanoparticles have a characteristic diameter of ca. 60 nm (DLS, AFM and TEM measures). They are not compact, but highly swollen and look like hyperbranched and dendrimer-like (soft sphere model) structures. This observation is coherent with the native structure of the xyloglucan macromolecules which are themselves branched. The enzymatic hydrolysis by cellulase of Trichoderma reesei of the xyloglucan nanoparticles is investigated. In particular, the apparent mass molecular weight drastically decreases meaning that the xyloglucan nanoparticles are effectively fully hydrolyzed by the endo-β-(1,4)-glucanase. Furthermore, we observe that the enzyme has to uncoil the nanoparticles before cutting the β-(1→4) bonds and digesting the xyloglucan.
在这项工作中,制备了基于罗望子种子木葡聚糖的多糖纳米颗粒,从特征尺寸和形态方面对其进行了分析,并通过糖苷水解酶的作用进行了降解。在 0.1M 的 NaNO2 水溶液中获得的这些未聚集的纳米颗粒的特征直径约为 60nm(DLS、AFM 和 TEM 测量)。它们不是致密的,而是高度溶胀的,看起来像超支化和树枝状(软球模型)结构。这一观察结果与木葡聚糖大分子的天然结构一致,木葡聚糖大分子本身就是支化的。研究了里氏木霉纤维素酶对木葡聚糖纳米颗粒的酶水解作用。特别是,表观分子量急剧下降,这意味着木葡聚糖纳米颗粒被内切-β-(1,4)-葡聚糖酶有效完全水解。此外,我们观察到,酶在切断β-(1→4)键并消化木葡聚糖之前,必须使纳米颗粒解卷。
