An alpha-mannosidase II-like activity was identified in baculovirus-infected Spodoptera frugiperda (IPLB-SF21-AE) cells. The enzyme responsible was purified from Golgi-type membranes to apparent homogeneity by using a combination of steps including DEAE-cellulose, hydroxyapatite, concanavalin A-Sepharose and gel filtration chromatography. The molecular mass of this purified protein was approx. 120 kDa by SDS/PAGE under reducing conditions and approx. 240 kDa under non-reducing conditions, indicating that the enzyme is a disulphide-linked dimer. Substrates demonstrated to undergo hydrolysis with this enzyme were GlcNAc-Man5-GlcNAc-GlcNAc (non-reduced and reduced) and p-nitrophenyl alpha-d-mannopyranoside. The oligosaccharide substrate was converted into GlcNAc-Man3-GlcNAc-GlcNAc through an intermediate GlcNAc-Man4-GlcNAc-GlcNAc. Treatment of the isolated intermediate oligosaccharide with endoglycosidase H resulted in its conversion into GlcNAc-Man4-GlcNAc. This indicated that it contained the alpha-1,3-linked mannose residue on the alpha-1,6-linked mannose arm and showed that the alpha-1,6-linked mannose residue on the alpha-1,6-linked mannose arm had been preferentially hydrolysed by the mannosidase. The oligosaccharide lacking the beta-1,2-linked GlcNAc residue on the alpha-1,3-linked mannose arm (Man5-GlcNAc-GlcNAc) was not hydrolysed in the presence of the enzyme. Metal ions were not required for enzymic activity on any of the substrates, but Cu2+ was strongly inhibitory. The activity of the enzyme was inhibited at low concentrations of swainsonine, but much higher concentrations of 1-deoxymannojirimycin were required to achieve inhibition. All of these properties are characteristic of mannosidase II enzymes from other eukaryotic tissues. The presence of mannosidase II in lepidopteran insect cells would allow entry of N-linked glycoproteins into the complex processing reaction pathway or into the terminal Man3-GlcNAc-GlcNAc pathway.

译文

在杆状病毒感染的草地贪夜蛾 (IPLB-SF21-AE) 细胞中鉴定出 α-甘露糖苷酶II样活性。通过使用DEAE-纤维素,羟基磷灰石,伴刀豆球蛋白a-琼脂糖和凝胶过滤色谱等步骤的组合,将负责的酶从高尔基体型膜中纯化至表观均一。该纯化蛋白的分子量约为。在还原条件下通过SDS/PAGE 120 kDa。在非还原条件下240 kDa,表明该酶是二硫化物连接的二聚体。GlcNAc-Man5-GlcNAc-GlcNAc (非还原和还原) 和对硝基苯基 α-d-甘露吡喃糖苷,证明用该酶水解的底物。通过中间GlcNAc-Man4-GlcNAc-GlcNAc将寡糖底物转化为GlcNAc-Man3-GlcNAc-GlcNAc。用内切糖苷酶H处理分离的中间寡糖导致其转化为GlcNAc-Man4-GlcNAc。这表明它在 α-1,6-连接的甘露糖臂上包含 α-1,3-连接的甘露糖残基,并表明 α-1,6-连接的甘露糖上的 α-1,6-连接的甘露糖残基已优先被甘露糖苷酶水解。在存在该酶的情况下,没有在 α-1,3-连接的甘露糖臂 (Man5-GlcNAc-GlcNAc) 上缺少 β-1,2-连接的GlcNAc残基的寡糖被水解。在任何底物上的酶活性都不需要金属离子,但是Cu2具有强烈的抑制作用。在低浓度的swainsonine下,酶的活性受到抑制,但是需要更高浓度的1-脱氧甘露霉素才能达到抑制作用。所有这些特性都是来自其他真核组织的甘露糖苷酶II酶的特征。鳞翅目昆虫细胞中甘露糖苷酶II的存在将允许N-连接的糖蛋白进入复杂的加工反应途径或末端Man3-GlcNAc-GlcNAc途径。

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