Glycans can be heterogeneous as well, consisting of many different glycoforms attached to one site.
聚糖也可以是异质的,由附着在一个位点的许多不同的糖型组成。
Glycans regulate tumour proliferation, invasion, haematogenous metastasis and angiogenesis.
聚糖能调节肿瘤增殖、侵袭、转移和血管生成。
The O-linked glycans are removed by TFMS chemical method and the glycosylation sites are analysed.
利用TFMS化学法切除了O-连接的糖基,分析了其糖基修饰位点;
The analysis method and strategy of extrinsic and intrinsic glycans were set up by ESI-MS in the thesis.
本论文应用质谱法建立了外源性和内源性寡糖微量分析的方法和策略。
Glycosylation produces an abundant, diverse, and highly regulated repertoire of cellular glycans that are frequently attached to proteins and lipids.
糖基化的出现使细胞的多糖经常连接到蛋白和脂质的过程成为一个丰富多样并且高度受调控的过程。
Secondly, interactions between glycans and lectins play key roles in signal transduction, antigen presenting, control of cell development and differentiation.
其二,聚糖及其凝集素受体的相互作用在信号转导、抗原提呈、控制细胞发育与分化中起调控作用;
However, the additional complexity of glycans compared to proteins and nucleic acids has slowed the advancement of glycomics in comparison to genomics and proteomics.
但是,与蛋白质和核酸相比,多糖的额外的复杂性阻碍了糖组学相较于基因组学和蛋白质组学的进展。
Glycosylation or glycans not only influence the structures and functions of immune cells or immune molecules, but also control host immune responses to foreign antigens.
蛋白质糖基化或聚糖影响免疫细胞和免疫分子的结构与功能,影响机体对抗原的应答反应。
Glycans participate in many key biological processes including cell adhesion, molecular trafficking and clearance, receptor activation, signal transduction, and endocytosis.
多糖参与了许多关键的生物学过程,其中包括细胞粘附,分子运输,分子降解,受体活化,信号传导和细胞内吞作用。
After deglycosylated, wheat PGTP could not interact with antibody produced by purified native PGtP from wheat. It is the glycans of wheat PGIP that probably fonn the epitope.
去糖基化的小麦PGIP不能与纯化的天然PGIP产生的抗体发生免疫学反应,可能是由于小麦PGIP中寡糖链为抗原决定部位。
Through recovering resources to treat pollution, it transforms the utilization of straw from single cellulose paper making into comprehensive use of cellulose, lignin, glycans and other resources.
用回收资源来治理污染,将秸秆的利用从单一的纤维素造纸,改造为综合利用纤维素、木质素和聚糖类等资源的联产技术。
Through recovering resources to treat pollution, it transforms the utilization of straw from single cellulose paper making into comprehensive use of cellulose, lignin, glycans and other resources.
用回收资源来治理污染,将秸秆的利用从单一的纤维素造纸,改造为综合利用纤维素、木质素和聚糖类等资源的联产技术。
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