School of Pharmacy, Sungkyunkwan University, Suwon, Gyeonggi 16419, Republic of Korea.
School of Pharmacy, Sungkyunkwan University, Suwon, Gyeonggi 16419, Republic of Korea.
Int J Biol Macromol. 2021 Feb 1;169:122-129. doi: 10.1016/j.ijbiomac.2020.12.081. Epub 2020 Dec 14.
Deep eutectic solvents (DESs) have gained great interests as ecofriendly and safe solvents in diverse areas. Herein, various chitin-glucan complexes (CGCs) were prepared from white button mushroom (Agaricus bisporus) using DESs. Ultrasonication of mushroom in five DESs yielded two types of CGCs from each DES, one from the DES-insoluble residue (DES_P) and another from the DES-soluble extract (DES_S). The ten resulting CGCs with varying chitin-to-β-glucan ratios were compared with alkali-insoluble matter (AIM), chemically prepared using NaOH. BU_S and BU_P, prepared using BU comprising betaine and urea, were obtained in the highest yields with reasonably low protein and mineral contents. Despite different acetylation degrees (77.3% and 57.3%, respectively), BU_S and BU_P both degraded at 318 °C and showed remarkably low crystallinity (32.0% and 37.0% for BU_S and BU_P, respectively) compared to AIM, commercial chitin, and the reported CGCs. The surface of BU_S and BU_P was very porous and rough compared with AIM as a result of reduced H-bonds and lowered crystallinity. The DES-based method can potentially enable the preparation of advanced biomaterials from mushrooms under mild and ecofriendly conditions.
深共熔溶剂 (DESs) 作为环保和安全的溶剂在各个领域引起了极大的兴趣。在此,使用 DESs 从白蘑菇 (Agaricus bisporus) 中制备了各种甲壳素-葡聚糖复合物 (CGCs)。在五种 DESs 中超声处理蘑菇,从每种 DES 中得到两种类型的 CGC,一种来自 DES 不溶性残渣 (DES_P),另一种来自 DES 可溶提取物 (DES_S)。十种具有不同甲壳素与β-葡聚糖比的 CGCs 与碱不溶性物质 (AIM) 进行了比较,AIM 是使用 NaOH 化学制备的。使用包含甜菜碱和尿素的 BU 制备的 BU_S 和 BU_P 的产率最高,且蛋白质和矿物质含量合理较低。尽管乙酰化程度不同(分别为 77.3%和 57.3%),但与 AIM、商业甲壳素和报道的 CGCs 相比,BU_S 和 BU_P 在 318°C 时均降解,并表现出明显较低的结晶度(分别为 32.0%和 37.0%)。与 AIM 相比,BU_S 和 BU_P 的表面非常多孔且粗糙,这是由于氢键减少和结晶度降低所致。基于 DES 的方法可以在温和且环保的条件下,从蘑菇中潜在地制备先进的生物材料。
