M Naoi, K Kiuchi, T Sato, M Morita, T Tosa, I Chibata, K Yagi
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引用次数: 0
Abstract
beta-Galactosidase (beta-D-galactoside galactohydrolase, EC 3.2.1.23) purified from Aspergillus oryzae was modified with 2,4,6-trichloro-s-triazine derivatives of polyethylene glycol (activated BPEG) having molecular weights of 600, 1500, 2000, and 4000. Polyethylene glycol derivatives were attached to 6 of the 12 amino groups exposed on the surface of the enzyme. Upon modification, the enzymatic activity for a water-soluble substrate, o-nitrophenyl beta-D-galactopyranoside, was reduced with increasing molecular weight of the activated BPEG. On the contrary, the enzymatic activity for another substrate, 4-methylumbelliferyl beta-D-galactopyranoside, was increased upon modification. The Michaelis constants of native and modified enzymes for these two substrates were virtually the same. The effect of the modification was more marked in the enzymatic hydrolysis of the beta-galactosidic bond of amphipathic substrates. A fluorescent analog of naturally occurring galactocerebroside, 1-O-galactosyl-2-N-(1-dimethylaminonaphthalene-5-sulfonyl)-sphingosine, was hydrolyzed more rapidly by the modified enzyme than by the native one. The enzyme modified with activated BPEG of 1500 Da had the highest activity for this substrate. The beta-galactosidic bond of the terminal galactose of GM1-ganglioside (II3NeuAcGgOse4Cer, galactosyl-N-acetylgalactosaminyl-(N-acetylneuraminosyl)-galactosyl -glucosylceramide) was cleaved by the modified but not by the native enzyme.
从米曲霉中纯化的β -半乳糖苷酶(β - d -半乳糖苷半乳糖水解酶,EC 3.2.1.23)用分子量分别为600、1500、2000和4000的聚乙二醇(活化的BPEG)的2,4,6-三氯-s-三嗪衍生物进行修饰。聚乙二醇衍生物与酶表面暴露的12个氨基中的6个相连。修饰后,水溶性底物邻硝基苯β - d -半乳糖吡喃苷的酶活性随着活化BPEG分子量的增加而降低。相反,另一种底物4- methylumbellliferyl β - d -galactopyranoside的酶活性在修饰后增加。天然酶和改性酶对这两种底物的米切里斯常数基本相同。在两亲性底物的β -半乳糖苷键的酶解中,这种修饰的效果更为明显。一种天然半乳糖脑苷的荧光类似物,1- o -半乳糖-2- n -(1-二甲氨基萘-5-磺酰基)-脑啡肽,被修饰酶水解的速度比天然酶更快。用1500 Da的活化BPEG修饰的酶对该底物的活性最高。gm1 -神经节苷脂末端半乳糖(II3NeuAcGgOse4Cer,半乳糖基- n -乙酰半乳糖氨基基-(n -乙酰神经氨基)-半乳糖基-葡萄糖神经酰胺)的β -半乳糖醛基键被修饰酶而非天然酶切割。