发现的最常见的细菌是金黄色葡萄球菌,它表现出遗传差异和各种水平的抗药性,这些抗药性都是在金黄色葡萄球菌被发现的肉的基础上演变而来的。
The most common bacteria found was Staphylococcus aureus, which showed genetic differences and varying levels of drug resistance based on the type of meat it was found in.
从遗传图谱中已经可以洞察与不同药物处理相关的遗传转变,这将为我们发现抗药性基因提供可能。
This tool has already yielded insights into the genetic changes that correlate with different drug treatments, pointing us to genes that may contribute to drug resistance.
唐振华,吴士雄,2000。昆虫抗药性的遗传与进化。上海科学技术文献出版社。
Tang ZH, Wu SX, 2000. Heredity and Evolution of Insect Resistance to Pesticides. Shanghai: Shanghai Scientific and Technical Literature Publishing House.
这是因为一般来说,抗生素作为治疗药物,微生物获得抗药性的遗传能力,这导致制药行业出现了问题。
This is because in general, microorganisms have the genetic ability to acquire multi resistances to antibiotic used as therapeutic agents and this have caused problems to pharmaceutical industries.
将抗药突变体在无药培养基上继代培养9代后,其抗性倍数逐渐下降,抗药性可能不能稳定遗传。
The resistant rate of resistant mutants gradually decreased after 9 generations of subcultures in the absence of fungicides and the resistance obtained could be unstable.
将抗药突变体在无药培养基上继代培养9代后,其抗性倍数逐渐下降,抗药性可能不能稳定遗传。
The resistant rate of resistant mutants gradually decreased after 9 generations of subcultures in the absence of fungicides and the resistance obtained could be unstable.
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