疏水键

shū shuǐ jiàn
  • hydrophobic bond
疏水键疏水键
  1. 一方面,MGⅠ能借助疏水部位的疏水键覆盖于表面,维持黏膜湿润,减少咀嚼时的摩擦力,阻止致病菌及潜在有害物质以及酸和蛋白水解酶的入侵,从而保护口腔组织。

    MG I maintains the mucous membranes moist , reduces friction during mastication to prevent the invasion of pathogenic bacteria and potentially harmful substances as well as acid and protein hydrolase , thereby protects the oral tissues .

  2. 在环糊精和客体分子之间的作用力中,疏水键是包合过程的主要作用力。

    The stability of inclusion complex was influenced by the strength between cyclodextrins and guest molecule . Hydrophobic bond was main impetus of inclusion process .

  3. 一些决定蛋白质三级结构的主要的弱分子作用力为共价键,离子键,氢键,疏水键和亲水键。

    Several weak molecular interactions responsible for the maintenance of tertiary structure of proteins are covalent , ionic , hydrogen , and hydrophobic or hydrophilic bonds .

  4. 通过以上三方面的实验结果说明琥珀酸脱氢酶主要以离子键与线粒体内膜结合而疏水键则起着辅助的作用。

    Results from what have been discussed above suggest that succinate dehydrogenase binds to the mitochondrial inner membrane primarily through ionic bonds while hydrophobic bonds play a secondary role .

  5. 在挤压过程中,疏水相互作用、二硫键、疏水键与二硫键的交互作用以及氢键是维持纤维化大豆蛋白结构的主要构象力。

    In the extrusion process , the hydrophobic interaction , disulfide linkage , hydrophobic interactions and disulfide bond and hydrogen bond are the main force in keeping the protein structure .

  6. 机理研究认为,表面修饰剂对土壤表面的修饰改性是不均匀的,阳离子交换吸附和疏水键键合两种机制的竞争性吸附是修饰改性土壤依然具有对镉离子吸附作用的原因。

    The analysis of mechanism revealed that modification of the soils was uneven , and that the competition in Cd 2 + adsorption between the mechanism of cation exchanging adsorption and the mechanism of hydrophobic bonding resulted in the residual adsorption of Cd 2 + on modified soils .