依据聚合酶链反应(PCR)和酶联免疫吸附检测(ELISA)的方法目前被应用于主要食源性致病菌的检测。
Polymerase chain reaction-based (PCR-based) and enzyme-linked immunoabsorbent assay (ELISA) methods are now applied in the detection of major food-borne pathogens.
这种"超级病菌"能够产生名为NDM-1的酶,而NDM-1可存在于不同种类的细菌中,甚至对最强大的抗生素—碳青霉烯类抗生素也能产生抗药性。
The "superbug" make an enzyme called NDM-1, whic can exist inside different bacteria, and it makes them resistant to even the most powerful antibiotics - carbapenems.
根据《柳叶刀传染病》杂志报道,一种名为“新德里金属蛋白酶—1即“NDM - 1”的病菌已经在印度和巴基斯坦地区广泛传播。”
New Delhi Metallo-1 (NDM-1) is already widespread in India and Pakistan, according to the Lancet Infectious Disease journal.
同时,人工剪叶接种能引起叶组织内过氧化化物酶同工酶的变化,但变化的主要原因可能不是白叶枯病病菌的侵染所造成,而是剪叶对叶片的伤害所致。
Meanwhile, the inoculation treatment by clipping can cause he change of the peroxidase isozymes of the inoculated leaves, but it was the cut, not the pathogen, that resulted in the change.
这些酶活性的变化能够削弱或消除病菌对谷子的毒害作用,在谷子抗黑穗病过程中发挥重要作用。
Changes of activities of protective enzymes were able to play an important role in resistance to head smut in foxtail millet.
药剂处理后小麦纹枯病菌在活体外仍能产生果胶酶、半纤维素酶和纤维素酶,但这三种酶的活性受到不同程度的影响。
Pectinase, cellulase and hemicellulase were also produced in vitro from R. cerealis after treatment, but their activities were affected with various degrees.
据此可以看出,同工酶谱和可溶性蛋白质谱对棉花枯萎病菌生理小种的鉴定具有重要的参考价值,其中以酯酶同工酶谱和可溶性蛋白质谱分析为好。
So these identified that the isozymes Electrophoresis was of important consult value on identification of physiologic RACES of cotton-wilt fusarium, especially esterase isozyme and soluble protein.
研究病菌角质酶和胞壁降解酶种类及其在致病中的作用,可以为进一步阐述病菌的致病机理提供理论依据。
Study the cell-wall degrading enzymes (CWDEs) and cutinase by Botrytis cinerea and their pathogenicity to plant could make us best understanding about pathogenic mechanisms of plant pathogens.
初步表明,稻瘟病菌胞壁降解酶在病菌的侵染过程中起了协同作用。
It was indicated that the CWDE played an important role during fungal infected host cell wall.
测定了苹果黑星病菌接种秦冠、富士和嘎啦三个苹果品种后植株叶片内POD、SOD、PPO和PAL四种酶活性的变化。
Changes of enzyme activity of POD, SOD, PPO and PAL of 3 different resistant cultivars that were inoculated with pathogens and water were determined in different time.
很多研究表明稻瘟病菌丝氨酸蛋白酶很可能是一种潜在的致病因子。
There are many researches showed that the Serine Proteases of M. grisea is a potential pathogenic factor.
而稻瘟病菌几丁质酶表达的差异是否与菌株间致病性等生物学和生理学差异有关,有待进一步研究。
Whether the expression levers of the Chitinase is related to the differences of biological and physiological aspects such as pathogenicity among different strains still remains unclear.
而稻瘟病菌几丁质酶表达的差异是否与菌株间致病性等生物学和生理学差异有关,有待进一步研究。
Whether the expression levers of the Chitinase is related to the differences of biological and physiological aspects such as pathogenicity among different strains still remains unclear.
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