Macrolide antibiotics have been widely used in clinic due to their good antibacterial effects and high safety, but the drug-resistant bacteria appear constantly. To solve the problem of drug resistance in pathogens, s...Macrolide antibiotics have been widely used in clinic due to their good antibacterial effects and high safety, but the drug-resistant bacteria appear constantly. To solve the problem of drug resistance in pathogens, scholars obtain the third generation of macrolide antibiotics, ketolide antibiotics, which are developed by modifying the structure of macrolide antibiotics, thereby efficiently solving the problem. Ketolide antibiotics are a type of erythromycin derivatives with macrolide structure, and the typical drugs mainly include telithromycin, cethromycin and solithromycin, etc . This paper briefly introduced the recent progress of ketolide antibiotics, with an attempt to provide help to the research and development of new macrolide antibiotics.展开更多
Based on the theory of reactive extraction, new solvent systems were developed to replace butylacetate for extraction of macrolide antibiotics (erythromycin, kitasamycin, spiramycin meleumycin etc.). A new neutral com...Based on the theory of reactive extraction, new solvent systems were developed to replace butylacetate for extraction of macrolide antibiotics (erythromycin, kitasamycin, spiramycin meleumycin etc.). A new neutral complex solvent extraction system, fatty alcohol-kerosene (marked by El), was used for extraction of erythromycin, one of the macrolide antibiotics. The extraction equilibrium equation is obtained, and the extraction distribution is as followsD = exp (-36.33×103/RT + 18.77)[B](o)1.1/(1 + 108.07-PH)The effects of several parameters on extraction equilibrium were investigated. Furthermore, a new synergistic extraction system (marked by E2) was developed, in which another solvent was used as synergistic agent to replace the diluent kerosene in the neutral complex extraction system. Based on these new extraction systems, an improved process for extraction of erythromycin was developed, showing remarkable advantages in technology and economics owing to its low solvent consumption of 3kg per billion unit compared with 9—10 for butylacetate. The recovery process of solvent from raffinate may be eliminated.展开更多
Reverse transcription quantitative PCR (RT-qPCR) combined with the published genome information of Saccharopolyspora spinosa can allow sophisticated studies about S. spinosa, including Studying the regulation of spi...Reverse transcription quantitative PCR (RT-qPCR) combined with the published genome information of Saccharopolyspora spinosa can allow sophisticated studies about S. spinosa, including Studying the regulation of spinosyn biosynthesis, finding new target genes for engineering, and discovering and exploiting other macrolide secondary metabolites. Studies have demonstrated that appropriate internal control is needed to normalize target genes at transcription levels. However, many studies have shown that no single reference gene is universal for all strains under all experimental conditions. Thus, eight candidate reference genes of three different S. spinosa strains in two different cultures were studied to find suitable reference gene(sl. The number of amplification cycles of these candidate genes was calculated by BestKeeper, NormFinder and geNorm. The results indicated that the most suitable reference genes for normalization during the fermentation of S. spinosa were 16S rRNA and rbL13.展开更多
基金Supported by National Sci-tech Support Plant during Twelfth Five-Year Plan(2015BAD1101)Earmarked Fund for China Agriculture Research System(CAR-38)~~
文摘Macrolide antibiotics have been widely used in clinic due to their good antibacterial effects and high safety, but the drug-resistant bacteria appear constantly. To solve the problem of drug resistance in pathogens, scholars obtain the third generation of macrolide antibiotics, ketolide antibiotics, which are developed by modifying the structure of macrolide antibiotics, thereby efficiently solving the problem. Ketolide antibiotics are a type of erythromycin derivatives with macrolide structure, and the typical drugs mainly include telithromycin, cethromycin and solithromycin, etc . This paper briefly introduced the recent progress of ketolide antibiotics, with an attempt to provide help to the research and development of new macrolide antibiotics.
文摘Based on the theory of reactive extraction, new solvent systems were developed to replace butylacetate for extraction of macrolide antibiotics (erythromycin, kitasamycin, spiramycin meleumycin etc.). A new neutral complex solvent extraction system, fatty alcohol-kerosene (marked by El), was used for extraction of erythromycin, one of the macrolide antibiotics. The extraction equilibrium equation is obtained, and the extraction distribution is as followsD = exp (-36.33×103/RT + 18.77)[B](o)1.1/(1 + 108.07-PH)The effects of several parameters on extraction equilibrium were investigated. Furthermore, a new synergistic extraction system (marked by E2) was developed, in which another solvent was used as synergistic agent to replace the diluent kerosene in the neutral complex extraction system. Based on these new extraction systems, an improved process for extraction of erythromycin was developed, showing remarkable advantages in technology and economics owing to its low solvent consumption of 3kg per billion unit compared with 9—10 for butylacetate. The recovery process of solvent from raffinate may be eliminated.
基金Supported by the National Natural Science Foundation of China(No.21076148 and 31270087)Plan for Tianjin Science and Technology Support(No.11ZCKFSY0100)
文摘Reverse transcription quantitative PCR (RT-qPCR) combined with the published genome information of Saccharopolyspora spinosa can allow sophisticated studies about S. spinosa, including Studying the regulation of spinosyn biosynthesis, finding new target genes for engineering, and discovering and exploiting other macrolide secondary metabolites. Studies have demonstrated that appropriate internal control is needed to normalize target genes at transcription levels. However, many studies have shown that no single reference gene is universal for all strains under all experimental conditions. Thus, eight candidate reference genes of three different S. spinosa strains in two different cultures were studied to find suitable reference gene(sl. The number of amplification cycles of these candidate genes was calculated by BestKeeper, NormFinder and geNorm. The results indicated that the most suitable reference genes for normalization during the fermentation of S. spinosa were 16S rRNA and rbL13.