Hultberg B, Lundblad A, Masson P K, Ockerman P A
Biochim Biophys Acta. 1975 Nov 20;410(1):156-63. doi: 10.1016/0005-2744(75)90216-8.
Oligosaccharides containing terminal non-reducing alpha(1 leads to 2)-, alpha(1 leads to 3)-, and alpha(1 leads to 6)-linked mannose residues, isolated from human and bovine mannosidosis urines were used as substrates to test the specificities of acidic alpha-mannosidases isolated from human and bovine liver. The enzymes released all the alpha-linked mannose residues from each oligosaccharide and were most effective on the smallest substrate. Enzyme A in each case was less active on the oligosaccharides than alpha-mannosidase B2, even though the apparent Km value for the substrates was the same with each enzyme. The human acidic alpha-mannosidases were also found to be more active on substrates isolated from human rather than bovine mannosidosis urine. Human alpha-mannosidase C, which has a neutral pH optimum when assayed with a synthetic substrate, did not hydrolyse any of the oligosaccharides at neutral pH, but was found to be active at an acidic pH.
从人类和牛甘露糖苷贮积症尿液中分离出的含有末端非还原性α(1→2)-、α(1→3)-和α(1→6)-连接甘露糖残基的寡糖,被用作底物来测试从人类和牛肝脏中分离出的酸性α-甘露糖苷酶的特异性。这些酶从每种寡糖中释放出所有α-连接的甘露糖残基,并且对最小的底物最有效。在每种情况下,酶A对寡糖的活性都低于α-甘露糖苷酶B2,尽管每种酶对底物的表观Km值相同。还发现人类酸性α-甘露糖苷酶对从人类而非牛甘露糖苷贮积症尿液中分离出的底物活性更高。用合成底物测定时最适pH为中性的人类α-甘露糖苷酶C,在中性pH下不水解任何寡糖,但发现在酸性pH下有活性。