它是在土壤腐生菌“玫瑰链霉菌”中发现的一种天然化合物。
It is a naturally occurring compound found in the soil saprotroph "Streptomyces rose sports".
天蓝色链霉菌可产生名为灵杆菌素的抗生素。
The bacterium Streptomyces coelicolor naturally produce antibiotics called prodiginines.
目的是在棒状链霉菌的发酵过程中,去除产物头霉素C。
The objective is to delete cephamycin C in the fermentation of Streptomyces clavuligerus.
目的筛选红霉素链霉菌抗噬菌体菌株。
因为四环素是由土壤中的一种细菌——链霉菌分泌而成。
Because tetracycline's secreted by a soil bacterium, Streptomyces.
也提供了新的链霉菌种和修饰链霉菌株的方法。
Also provided are novel Streptomyces species and methods of modified Streptomyces species.
这个发现源自我们针对链霉菌染色体不稳定的研究。
This discovery stemmed from our studies on the instability of the Streptomyces chromosomes.
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.
本文对植物病害的重要生防因子之一链霉菌作了综述总结。
Streptomyces spp. , as ones of important biocontrol agents to control plant disease, are summarized in this paper.
嗜酸链霉菌是葡萄糖异构酶的产生菌之一,具有良好生产潜力。
Streptomyces acidophilus is one of the glucose isomerase producing strains.
本文报道了利用拮抗链霉菌防治马铃薯疮痂病的大田试验研究。
Biocontrol of potato scab by Streptomyces strains was evaluated in a 3 years field trial.
作者说明链霉菌NOS的初步功能与哺乳动物NOS的完全不同。
Here we show that the primary function of Streptomyces NOS is radically different from that of mammalian NOS.
研究了以碳源为限制性底物时金色链霉菌连续培养特性和动力学。
The kinetics and characteristics of Streptomyces aureofaciens in continuous cultivation with carbon source used as a limited substrate were investigated.
目的提高棒状链霉菌的克拉维酸生产能力,去除副产物头霉素C。
Objective To improve the production of clavulanic acid and to genetically delete cephamycin C in the fermentation of Streptomyces clavuligerus.
从广东省海南岛儋县那大地区分离到一株链霉菌,编号为4261。
In the course of searching for new agricultural antibiotics, a strain No. 4261 was isolated.
从土壤中分离出一株编号230放线菌,经鉴定为浅灰链霉菌230。
The strain was classified as Streptomyces griseolus 230, from which the snail-killing antibiotic 230 was isolated and purified.
本文首次报导有关铜蒸气激光及其与氯化锂复合选育龟裂链霉菌的研究。
The paper reported first about the study of selection with copper vapor laser followed by lithium chloride treatment in Streptomyces rimosus.
链霉菌s- 254菌株产生的凝血酶抑制剂是多组分的肽类化合物。
Thrombin inhibitor produced by Streptomyces strain S-254 is a multi - component peptides compound.
目的:对阿佛曼链霉菌采用新的诱变手段,以获得稳定高产的优良菌株。
Objective:In order to obtain a stable high-yielding good strains, The new mutagenesis means is used on Streptomyces avermitilis.
在新霉素产生菌弗氏链霉菌中作了脂质体包埋染色体DNA转化的实验。
The transformation of liposome-entrapped chromosomal DNA was carried out in Str. fradiae, a neomycin producer.
用响应面分析方法对链霉菌702产抑真菌物质生料发酵培养基进行了研究。
The response surface method was used to optimize the culture medium for anti-fungus compound produced by Streptomyces 702 under unsterilized condition.
本发明公开了一种新的链霉菌、通过培养它制备他克莫司的方法及 其应用。
The invention discloses a new streptomycete, a method that prepares tacrolimus by cultivating the streptomycete and application of the method.
相应地将构建的表达质粒导入变铅青链霉菌TK24中获得五株基因工程菌株。
These plasmids were introduced into S. lividans TK24, respectively and five genetic engineering strains were constructed.
青霉发酵液和灰色链霉菌发酵液絮凝率最高可分别达到68.4%和69.0%。
The flocculability of the penicillium ferment and the actinomycetes ferment are 68.4% and 69.0% respectively.
雌性狼蜂掘土蜂在其独特的触角腺里培育共生链霉菌,并将它们分泌到其幼虫的巢房中。
Female beewolf digger wasps cultivate symbiotic Streptomyces bacteria in unique antennal glands and secrete them into their larval brood cells.
链霉菌生产多样的二次代谢物(包括大多数的抗笙素),因此是非常重要的工业微生物。
Streptomyces produce a wide variety of secondary metabolites including the majority of known antibiotics.
BIB0830是一株可将泰乐菌素转化为乙酰异戊酰泰乐菌素的耐热链霉菌工业菌株。
The industrial strain BIB0830 of Streptomyces thermotolerans can produce acetyl-isovaleryl tylosin by bioconversion using tylosin as a processor.
非链霉菌属的稀有放线菌类群广泛分布在自然环境中,具有重要的基础研究与应用价值。
The non-Streptomyces actinomycetes, living widespread in various habitats, are important for the basic and applied researches purposes.
在相同的实验条件下,铜蒸气激光辐照龟裂链霉菌比其随后又氯化锂复合处理的效果好。
Under identical experimental conditions. the irradiation with copper vapor laser is better than that with copper vapor laser followed by lithium chloride treatment.
为了进一步研究这两个重要调控基因的功能,首先需要构建一个合适的链霉菌表达载体。
To further explore the function of these two regulatory genes, we first need to construct a suitable expression vector for Streptomyces.
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