Objective In Corynebacterium crenatum,the adjacent D311 and D312 of N-acetyl-L-glutamate kinase(NAGK),as a key rate-limiting enzyme of L-arginine biosynthesis under substrate regulatory control by arginine,were initia...Objective In Corynebacterium crenatum,the adjacent D311 and D312 of N-acetyl-L-glutamate kinase(NAGK),as a key rate-limiting enzyme of L-arginine biosynthesis under substrate regulatory control by arginine,were initially replaced with two arginine residues to investigate the L-arginine feedback inhibition for NAGK.Methods NAGK enzyme expression was evaluated using a plasmid-based method.Homologous recombination was employed to eliminate the pro B.Results The IC50 and enzyme activity of NAGK M4,in which the D311 R and D312 R amino acid substitutions were combined with the previously reported E19 R and H26 E substitutions,were 3.7-fold and 14.6% higher,respectively,than those of the wild-type NAGK.NAGK M4 was successfully introduced into the C.crenatum MT genome without any genetic markers;the L-arginine yield of C.crenatum MT-M4 was 26.2% higher than that of C.crenatum MT.To further improve upon the L-arginine yield,we constructed the mutant C.crenatum MT-M4 ?pro B.The optimum concentration of L-proline was also investigated in order to determine its contribution to L-arginine yield.After L-proline was added to the medium at 10 mmol/L,the L-arginine yield reached 16.5 g/L after 108 h of shake-flask fermentation,approximately 70.1% higher than the yield attained using C.crenatum MT.Conclusion Feedback inhibition of L-arginine on NAGK in C.crenatum is clearly alleviated by the M4 mutation of NAGK,and deletion of the pro B in C.crenatum from MT to M4 results in a significant increase in arginine production.展开更多
Objective Corynebacterium crenatum MT, a mutant from C. crenatum AS 1.542 with a lethal argR gene, exhibits high arginine production. To confirm the effect of ArgR on arginine biosynthesis in C. crenatum, an intact ar...Objective Corynebacterium crenatum MT, a mutant from C. crenatum AS 1.542 with a lethal argR gene, exhibits high arginine production. To confirm the effect of ArgR on arginine biosynthesis in C. crenatum, an intact argR gene from wild-type AS 1.542 was introduced into C. crenatum MT, resulting in C. crenatum MT. sp, and the changes of transcriptional levels of the arginine biosynthetic genes and arginine production were compared between the mutant strain and the recombinant strain. Methods Quantitative real-time polymerase chain reaction was employed to analyze the changes of the related genes at the transcriptional level, electrophoretic mobility shift assays were used to determine ArgR binding with the argCJBDF, argGH, and carAB promoter regions, and arginine production was determined with an automated amino acid analyzer. Results Arginine production assays showed a 69.9% reduction in arginine from 9.01±0.22 mg/mL in C. crenatum MT to 2.71±0.13 mg/mL (P〈0.05) in C. crenatum MT. sp. The argC, argB, argD, argF, argJ, argG, and carA genes were down-regulated significantly in C. crenatum MT. sp compared with those in its parental C. crenatum MT strain. The electrophoretic mobility shift assays showed that the promoter regions were directly bound to the ArgR protein. Conclusion The arginine biosynthetic genes in C crenatum are clearly controlled by the regulator ArgR, and intact ArgR in C. crenatum MT results in a significant descrease in production. negative arginine production.展开更多
Objective: Corynebacterium crenatum AS1.542, a Gram-positive bacterium and indigenous nonpatho-genic corynebacteria, is widely exploited for the in-dustrial production of amino acids. The objective of this paper is to...Objective: Corynebacterium crenatum AS1.542, a Gram-positive bacterium and indigenous nonpatho-genic corynebacteria, is widely exploited for the in-dustrial production of amino acids. The objective of this paper is to clarify the genetic information of the arginine biosynthetic pathway, and further more contribute to the improvement of arginine produc-tion. Methods: Polymerase chain reaction (PCR) technology was employed for obtaining the arginine biosynthetic gene sequence, and softwares eg. Laser-gene, BPROM, RNAshapes were used for the analysis of obtained sequences. Results: Arginine biosynethetic gene cluster of C. crenatum, comprising argJ, argB, argD, argF, argR and part of argC, has been ampli-fied and sequenced. The gene order has been estab-lished as argCJBDFR, with a entire length of 6.08kb. Conclusion: An internal promoter was found in the upstream of argB gene, four argBDFR ORFs are lo-cated in a same transcription unit, and the tran-scripiton termination of argC gene is irrelevant with the rho-factor. Comparison with ornithine acetyl-transferase (coded by argJ gene) from C. glutamate, ornithine acetyltransferase from C. crenatum also belongs to the monofunctional enzymes.展开更多
研究不同氧化还原电位对钝齿棒杆菌厌氧发酵特性的影响,并对菌株的代谢通量分布特征进行了分析。结果表明,氧化还原电位由-56 m V降为-400 m V时,发酵液中琥珀酸质量浓度由14 g/L上升为20.2 g/L,乳酸质量浓度由44.9 g/L下降为35.2 g/L...研究不同氧化还原电位对钝齿棒杆菌厌氧发酵特性的影响,并对菌株的代谢通量分布特征进行了分析。结果表明,氧化还原电位由-56 m V降为-400 m V时,发酵液中琥珀酸质量浓度由14 g/L上升为20.2 g/L,乳酸质量浓度由44.9 g/L下降为35.2 g/L。代谢通量分析结果表明,降低氧化还原电位对6-磷酸葡萄糖与磷酸烯醇式丙酮酸节点处的代谢流分布影响显著。氧化还原电位为-400 m V时,胞内戊糖磷酸途径(pentose phosphate pathway,HMP)代谢通量与-56 m V相比增加了1.74倍,由磷酸烯醇式丙酮酸流向C4途径的代谢通量与-56 m V相比增加了78%,琥珀酸通量由31.73 mmol/(L·g·h)增加到56.53 mmol/(L·g·h),乳酸代谢通量由159.73 mmol/(L·g·h)下降为133.50 mmol/(L·g·h)。研究结果表明6-磷酸葡萄糖与磷酸烯醇式丙酮酸节点是影响钝齿棒杆菌厌氧发酵产琥珀酸的关键节点,为后期通过菌种改造以调节乳酸和琥珀酸的生成比、实现乳酸与琥珀酸联产奠定了基础。展开更多
基金supported by Natural Science Foundation of China,No.31360219 and No.30960012the Open Project Program of Key Laboratory of Functional Small Organic Molecule,Ministry of Education,Jiangxi Normal University(No.KLFS-KF-201414)
文摘Objective In Corynebacterium crenatum,the adjacent D311 and D312 of N-acetyl-L-glutamate kinase(NAGK),as a key rate-limiting enzyme of L-arginine biosynthesis under substrate regulatory control by arginine,were initially replaced with two arginine residues to investigate the L-arginine feedback inhibition for NAGK.Methods NAGK enzyme expression was evaluated using a plasmid-based method.Homologous recombination was employed to eliminate the pro B.Results The IC50 and enzyme activity of NAGK M4,in which the D311 R and D312 R amino acid substitutions were combined with the previously reported E19 R and H26 E substitutions,were 3.7-fold and 14.6% higher,respectively,than those of the wild-type NAGK.NAGK M4 was successfully introduced into the C.crenatum MT genome without any genetic markers;the L-arginine yield of C.crenatum MT-M4 was 26.2% higher than that of C.crenatum MT.To further improve upon the L-arginine yield,we constructed the mutant C.crenatum MT-M4 ?pro B.The optimum concentration of L-proline was also investigated in order to determine its contribution to L-arginine yield.After L-proline was added to the medium at 10 mmol/L,the L-arginine yield reached 16.5 g/L after 108 h of shake-flask fermentation,approximately 70.1% higher than the yield attained using C.crenatum MT.Conclusion Feedback inhibition of L-arginine on NAGK in C.crenatum is clearly alleviated by the M4 mutation of NAGK,and deletion of the pro B in C.crenatum from MT to M4 results in a significant increase in arginine production.
基金supported by Natural Science Foundation of China,No.1360219 and No.30960012
文摘Objective Corynebacterium crenatum MT, a mutant from C. crenatum AS 1.542 with a lethal argR gene, exhibits high arginine production. To confirm the effect of ArgR on arginine biosynthesis in C. crenatum, an intact argR gene from wild-type AS 1.542 was introduced into C. crenatum MT, resulting in C. crenatum MT. sp, and the changes of transcriptional levels of the arginine biosynthetic genes and arginine production were compared between the mutant strain and the recombinant strain. Methods Quantitative real-time polymerase chain reaction was employed to analyze the changes of the related genes at the transcriptional level, electrophoretic mobility shift assays were used to determine ArgR binding with the argCJBDF, argGH, and carAB promoter regions, and arginine production was determined with an automated amino acid analyzer. Results Arginine production assays showed a 69.9% reduction in arginine from 9.01±0.22 mg/mL in C. crenatum MT to 2.71±0.13 mg/mL (P〈0.05) in C. crenatum MT. sp. The argC, argB, argD, argF, argJ, argG, and carA genes were down-regulated significantly in C. crenatum MT. sp compared with those in its parental C. crenatum MT strain. The electrophoretic mobility shift assays showed that the promoter regions were directly bound to the ArgR protein. Conclusion The arginine biosynthetic genes in C crenatum are clearly controlled by the regulator ArgR, and intact ArgR in C. crenatum MT results in a significant descrease in production. negative arginine production.
文摘Objective: Corynebacterium crenatum AS1.542, a Gram-positive bacterium and indigenous nonpatho-genic corynebacteria, is widely exploited for the in-dustrial production of amino acids. The objective of this paper is to clarify the genetic information of the arginine biosynthetic pathway, and further more contribute to the improvement of arginine produc-tion. Methods: Polymerase chain reaction (PCR) technology was employed for obtaining the arginine biosynthetic gene sequence, and softwares eg. Laser-gene, BPROM, RNAshapes were used for the analysis of obtained sequences. Results: Arginine biosynethetic gene cluster of C. crenatum, comprising argJ, argB, argD, argF, argR and part of argC, has been ampli-fied and sequenced. The gene order has been estab-lished as argCJBDFR, with a entire length of 6.08kb. Conclusion: An internal promoter was found in the upstream of argB gene, four argBDFR ORFs are lo-cated in a same transcription unit, and the tran-scripiton termination of argC gene is irrelevant with the rho-factor. Comparison with ornithine acetyl-transferase (coded by argJ gene) from C. glutamate, ornithine acetyltransferase from C. crenatum also belongs to the monofunctional enzymes.
文摘研究不同氧化还原电位对钝齿棒杆菌厌氧发酵特性的影响,并对菌株的代谢通量分布特征进行了分析。结果表明,氧化还原电位由-56 m V降为-400 m V时,发酵液中琥珀酸质量浓度由14 g/L上升为20.2 g/L,乳酸质量浓度由44.9 g/L下降为35.2 g/L。代谢通量分析结果表明,降低氧化还原电位对6-磷酸葡萄糖与磷酸烯醇式丙酮酸节点处的代谢流分布影响显著。氧化还原电位为-400 m V时,胞内戊糖磷酸途径(pentose phosphate pathway,HMP)代谢通量与-56 m V相比增加了1.74倍,由磷酸烯醇式丙酮酸流向C4途径的代谢通量与-56 m V相比增加了78%,琥珀酸通量由31.73 mmol/(L·g·h)增加到56.53 mmol/(L·g·h),乳酸代谢通量由159.73 mmol/(L·g·h)下降为133.50 mmol/(L·g·h)。研究结果表明6-磷酸葡萄糖与磷酸烯醇式丙酮酸节点是影响钝齿棒杆菌厌氧发酵产琥珀酸的关键节点,为后期通过菌种改造以调节乳酸和琥珀酸的生成比、实现乳酸与琥珀酸联产奠定了基础。