用Protamex水解与超声处理相结合处理油菜蜂花粉的细胞壁破坏

Cell Wall Disruption of Rape Bee Pollen Treated with Combination of Protamex Hydrolysis and Ultrasonication.

作者信息

Dong Jie, Gao Kun, Wang Kai, Xu Xiang, Zhang Hongcheng

机构信息

Institute of Apicultural Research, Chinese Academy of Agricultural Sciences, Beijing, 100093, China; National Research Center of Bee Product Processing, Ministry of Agriculture, Beijing, 100093, China.

Institute of Apicultural Research, Chinese Academy of Agricultural Sciences, Beijing, 100093, China.

出版信息

Food Res Int. 2015 Sep;75:123-130. doi: 10.1016/j.foodres.2015.05.039. Epub 2015 May 29.

DOI:10.1016/j.foodres.2015.05.039

PMID:28454938

Abstract

Bee pollen possesses a broad range of potential biological activities, but nutrient absorption and biological activities of bee pollen may be restricted due to complex pollen wall. This study aimed to investigate wall-disruption variations of Brassica campestris L. (rape) bee pollen treated with protamex hydrolysis, ultrasonication, and combination of protamex hydrolysis and ultrasonication. Pollen sample treated with these three treatments had higher specific surface area values and smaller particle sizes than the untreated sample. Protamex hydrolysis degraded the pollen coat and disintegrated the intine at the germinal apertures. Ultrasonication treatment cracked the pollen exine into fragments, but seemed to have little effect on the intine. The combination of protamex hydrolysis and ultrasonication can degrade pollen coat and entirely disrupt both the exine and the intine. The exine of rape bee pollen was disrupted into three fragments along germinal apertures.

摘要

蜂花粉具有广泛的潜在生物活性，但由于花粉壁结构复杂，蜂花粉的营养吸收和生物活性可能会受到限制。本研究旨在探究经 Protamex 水解、超声处理以及 Protamex 水解与超声处理相结合这三种方式处理后的油菜蜂花粉的破壁变化情况。与未处理的样品相比，经这三种处理的花粉样品具有更高的比表面积值和更小的粒径。Protamex 水解降解了花粉外壁，并使萌发孔处的内壁解体。超声处理使花粉外壁破裂成碎片，但对内壁似乎影响不大。Protamex 水解与超声处理相结合能够降解花粉外壁，并完全破坏外壁和内壁。油菜蜂花粉的外壁沿着萌发孔被裂解成三个碎片。

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用Protamex水解与超声处理相结合处理油菜蜂花粉的细胞壁破坏

Cell Wall Disruption of Rape Bee Pollen Treated with Combination of Protamex Hydrolysis and Ultrasonication.

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