From seedling to spore appearing stage, isozyme band and isozyme activity gradually decreased.
从出苗期至孢子产生期酶带数逐渐减少,酶活性逐渐降低。
The variability of esterase isozyme activity in the vascular tissues was in consistent with the periodicity of cambial activity.
酯酶同工酶的酶谱和酶活性亦随形成层的活动状态发生变化。
But there was no any change on the expression of hydrogen peroxidase and malic dehydrogenase isozyme for resistent cultivars, just the hydrogen peroxidase isozyme activity was higher.
而抗病品种的过氧化物酶及苹果酸脱氢酶同工酶的表达则没有改变,只是过氧化物酶同工酶的活性有所增强。
The activity of a single SOD isozyme of a sample could also be obtained with the same procedure.
活动的一个单一的SOD酶的样品也可以得到相同的程序。
These results indicated that from cell growth, dissolved oxygen consumer, dehydrogenase activity anlysis and Isozyme analysis showed ME25 and ME45 have selectivity to methanol and ethanol.
上述结果表明:从菌体生长、溶氧消耗、脱氢酶活性和脱氢酶同工酶等方面显示了ME25与ME45对甲醇和乙醇利用具有较好的选择性。
The variations of polysaccharide content and zymogram and activity of peroxidase, esterase and amylase isozyme were related to the periodicity of cambial activity.
过氧化物酶、酯酶和淀粉酶的同工酶酶谱及活性,以及多糖颗粒的贮量都随形成层活动周期的变化而变化。
There are polymorphism in POD activity, Pro content, EST and SOD isozyme band of the offspring mutants.
诱变子代的过氧化物酶活性、脯氨酸含量、酯酶及超氧化物酶谱带等均出现或多或少的多态性。
Esterase isozyme upon isoelectric focusing eletrophores demonstrated that the high levels of total esterase activity in ABM R was due to the increased activities of E7, E13 and E15 isozymes.
从酯酶同工酶等电聚焦电泳得出,ABM-R种群的E7、E13和E15同工酶活力显著提高是导致ABM- R种群酯酶活力提高的主要原因。
The result was that osmotic electric conductivity was lower than ck(cultivite seeding in normal temp. ), and activity of peroxidase and its isozyme were higher than oh.
结果是低温处理的豆苗,外渗电导率低于对照(常温育苗),过氧化物酶及其同功酶活性大于对照。
The result was that osmotic electric conductivity was lower than ck(cultivite seeding in normal temp. ), and activity of peroxidase and its isozyme were higher than oh.
结果是低温处理的豆苗,外渗电导率低于对照(常温育苗),过氧化物酶及其同功酶活性大于对照。
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