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Optimization of Riboflavin Production from ccpA Mutant Bacillus subtilis 24A1/pMX45 被引量:1
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作者 应明 张帆 班睿 《Transactions of Tianjin University》 EI CAS 2006年第6期415-419,共5页
The nitrogen source requirements for riboflavin production by ccpA mutant Bacillus subtilis 24A1/pMX45 were optimized using linear regression. The optimal medium components considered included 8% glucose as carbon sou... The nitrogen source requirements for riboflavin production by ccpA mutant Bacillus subtilis 24A1/pMX45 were optimized using linear regression. The optimal medium components considered included 8% glucose as carbon source, 2% yeast powder, 0.05% MgSO4 ·7H2O, and four types of nitrogen sources : 0.1% yeast extract, 2% soybean powder, 1% corn plasm, and 0.2% ( NH4 ) 2 HPO4 in shake flask tests. Predictive ellipsoid was applied to determining the response values under the optimal levels for riboflavin production and glucose consumption. The optimal concentrations of the four types of nitrogen sources can remedy ammonium assimilative defection of ccpA mutant. Under the optimal conditions, the riboflavin yield increases to more than 5.0 g/L and 8%, glucose can be consumed completely after 60 h. 展开更多
关键词 carbon catabolic repression CCR global regulator CcpA Bacillus subtilis orthogonal test linear regression
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Fructose promotes pyoluteorin biosynthesis via the CbrAB-CrcZ-Hfq/Crc pathway in the biocontrol strain Pseudomonas PA1201
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作者 Ying Cui Kai Song +3 位作者 Zi-Jing Jin Learn-Han Lee Chitti Thawai Ya-Wen He 《Synthetic and Systems Biotechnology》 SCIE CSCD 2023年第4期618-628,共11页
Biocontrol strain Pseudomonas PA1201 produces pyoluteorin(Plt),which is an antimicrobial secondary metabolite.Plt represents a promising candidate pesticide due to its broad-spectrum antifungal and antibacterial activ... Biocontrol strain Pseudomonas PA1201 produces pyoluteorin(Plt),which is an antimicrobial secondary metabolite.Plt represents a promising candidate pesticide due to its broad-spectrum antifungal and antibacterial activity.Although PA1201 contains a complete genetic cluster for Plt biosynthesis,it fails to produce detectable level of Plt when grown in media typically used for Pseudomonas strains.In this study,minimum medium(MM)was found to favor Plt biosynthesis.Using the medium M,which contains all the salts of MM medium except for mannitol,as a basal medium,we compared 10 carbon sources for their ability to promote Plt biosynthesis.Fructose,mannitol,and glycerol promoted Plt biosynthesis,with fructose being the most effective carbon source.Glucose or succinic acid had no significant effect on Plt biosynthesis,but effectively antagonized fructose-dependent synthesis of Plt.Promoter-lacZ fusion reporter strains demonstrated that fructose acted through activation of the pltLABCDEFG(pltL)operon but had no effect on other genes of plt gene cluster;glucose or succinic acid antagonized fructose-dependent pltL induction.Mechanistically,fructose-mediated Plt synthesis involved carbon catabolism repression.The two-component system CbrA/CbrB and small RNA catabolite repression control Z(crcZ)were essential for fructose-induced Plt synthesis.The small RNA binding protein Hfq and Crc negatively regulated fructose-induced Plt.Taken together,this study provides a new model of fructose-dependent Plt production in PA1201 that can help improve Plt yield by biosynthetic approaches. 展开更多
关键词 PSEUDOMONAS Biocontrol PYOLUTEORIN FRUCTOSE carbon catabolism repression
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