André Corinne, Niamke Sébastien, Faure Alice, Colas Bernard, Bérot Serge, Larré Colette, Guéguen Jacques, Rabiller Claude
Unité de Recherches en Biocatalyse (FRE-CNRS 2230), Faculté des Sciences et des Techniques, BP 92208, F-44322-Nantes, France.
Protein J. 2004 May;23(4):247-54. doi: 10.1023/b:jopc.0000027849.08211.85.
Two chemo-enzymatic methodologies to synthesize neoglycoproteins from rapeseed 2S protein (napin) were developed. In the first approach, glycosidases were used to catalyse 1-O-glycosylation of serine residues, whereas in the second one, 6-N-galactosylation was examined using an amino-reduction reaction between the epsilon-NH2 of lysine residues and 6-oxogalactosides (readily available by means of the oxidation reaction of the corresponding galactosides mediated by galactose oxidase). Our results indicated that glycosidases were unable to glycosylate native proteins. Conversely, this reaction was possible, although in low yields (10%), after the introduction of a hydroxyethylene spacer. The latter modified proteins were obtained via the condensation of epsilon-NH2 of lysines with ethylene carbonate in basic medium (40% yield). The second approach was much more efficient, as 61% of the lysine residues were shown to be 6-N-galactosylated using sodium cyanoborohydride as a reduction reagent.
开发了两种从油菜籽2S蛋白(napin)合成新糖蛋白的化学酶法。在第一种方法中,糖苷酶用于催化丝氨酸残基的1-O-糖基化,而在第二种方法中,使用赖氨酸残基的ε-NH2与6-氧代半乳糖苷之间的氨基还原反应(通过半乳糖氧化酶介导的相应半乳糖苷的氧化反应可轻松获得)来研究6-N-半乳糖基化。我们的结果表明,糖苷酶无法使天然蛋白糖基化。相反,在引入羟乙烯间隔基后,该反应是可行的,尽管产率较低(10%)。后者修饰的蛋白是通过赖氨酸的ε-NH2与碳酸亚乙酯在碱性介质中缩合得到的(产率40%)。第二种方法效率更高,因为使用氰基硼氢化钠作为还原试剂时,61%的赖氨酸残基被证明发生了6-N-半乳糖基化。
