组合生物合成是在抗生素产生菌的次级代谢产物合成途径中涉及到的一些酶的编码基因之间的互换,从而产生许多新的“非天然的天然化合物”。
Combinatorial biosynthesis can produce new "unnatural" natural products through exchange of genes encoding the enzymes involved in secondary metabolites biosynthesis pathway in antibiotics producers.
由于在发酵过程中产生的乳酸菌抑制了有害菌的生长,所以泡菜有抗生素作用。
Kimchi has antibiotic functions as lactic acid bacteria produced in the process of fermentation suppresses growth of harmful bacteria.
理论上,这意味着诸如沙门氏菌样的细菌对新的治疗产生抵抗,可能不会像对传统抗生素产生抵抗那样迅速。
In theory, this means that bacteria such as Salmonella might not develop resistance to new therapies as quickly as they usually do to conventional antibiotics.
杀菌抗生素(与抑菌抗生素不同)通过产生破坏性羟基杀菌的。
The antibiotics that kill bacteria (as opposed to just stopping their growth) do so by causing them to produce damaging chemicals called hydroxyl radicals.
干扰细菌间交流的药物比传统的抗生素更不可能产生耐药菌。
Medicines that interrupt communication between bacteria could be less likely than traditional antibiotics to spur the development of drug-resistant bacteria.
杀虫素:某些放线菌产生的抗生素如阿维菌素,多杀菌素。
D. insecticidal element: some actinomycetes produce antibiotics such as abamectin, sterilization element.
抗生素的广泛使用,导致了大量耐药菌的产生。
Overuse of antibiotics has led to the rapid production of bacteria that are resistant to multiple drugs.
新型抗生素s632a_3是从土壤中分离出的一株放线菌产生的代谢产物,属戊二酰亚胺类化合物。
A new antibiotics, S632As, glutarimide antibiotics compounds, is a metabolic product from a strain of Antinomyces isolated from soil, and is dealt with in this paper.
报道了新抗生素M-90产生菌原生质体的制备、再生及对产抗生素的影响。
The paper reports the formation and regeneration of protoplast from the new antibiotics, Micromonospora M 90, as well as the effects on antibiotics yield producing strain.
新生霉素抗生素,C31 H 36n2o 11,由放线菌产生雪白链霉菌,并可用于治疗革兰氏阳性菌引起的传染病。
An antibiotic, C31H36N2O11, produced by the actinomycete Streptomyces nivens and used to treat infections by gram-positive bacteria.
部分抗生素对肠道菌产生耐药性。
The drug resistance of some bacteria had been occurred to some antibiotics.
杀虫抗生素9512-2是由吸水链霉菌9512-2菌株产生的具有杀虫及抑菌活性的抗生素。
The antimicrobial and insecticidal antibiotics 9512-2 was produced by Streptomyces hygroscopicus 9512-2 strain.
目的:对柱晶白霉素产生菌SK-0 6的原生质体制备和再生的条件,以及再生菌的产生抗生素能力进行了研究。
AIM The condition of protoplast formation and regeneration of leucomycin (LM) producing strain SK-06 and the ability of antibiotic producing of regeneration strains was studied in this paper.
放线菌中的链霉菌和刺糖多孢菌是产生抗生素的重要来源。
Streptomyces and Saccharopolyspora, two actinomycetes, are important sources for producing antibiotics.
由于各种抗生素的广泛使用,细菌耐药问题日趋严重,导致了铜绿假单胞菌产生了很强的耐药性而且多重耐药,铜绿假单胞菌通过多种途径产生耐药。
The varieties of antibiotics are used widely and the bacterial drug resistance appears greatly. P. aeruginosa have acquired a great resistance and multiple resistance by many methods.
这些抗生素是从放线菌(如链霉素、四环素)、真菌(如青霉素)和细菌产生。
The use of antibiotics disturbed the symbiosis between bacteria and fungi.
此外木霉菌株在液体培养中产生的抗生素及细胞壁降解酶也可能是抑制病原菌菌丝生长的主要原因。
Results showed that the my co parasitism of the Trichoderma strain on the hypha of pathogens was one of the mechanisms of the inhibition of the pathogens.
此外木霉菌株在液体培养中产生的抗生素及细胞壁降解酶也可能是抑制病原菌菌丝生长的主要原因。
Results showed that the my co parasitism of the Trichoderma strain on the hypha of pathogens was one of the mechanisms of the inhibition of the pathogens.
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