能生产多聚羟丁酸(PHB)(一种可生物降解的塑料)的植物将成为今后开发的有力目标。加州斯坦福Carnegie Institution of Wasbington的Chris Somerville及其研究小组报道,在提高拟南芥属PHB生产水平上取得了显著进展,使PHB浓度提高了100倍...能生产多聚羟丁酸(PHB)(一种可生物降解的塑料)的植物将成为今后开发的有力目标。加州斯坦福Carnegie Institution of Wasbington的Chris Somerville及其研究小组报道,在提高拟南芥属PHB生产水平上取得了显著进展,使PHB浓度提高了100倍以上。关键步骤是利用豌豆序列。展开更多
Exogenous Vitreoscilla globin gene (vgb), lytic genes of phage A with S amber mutation (S-RRz) and poly(B-hydroxybutyrate) (PHB) biosynthetic genes (phbCAB) were cloned into a same Escherichia coli cell, simultaneousl...Exogenous Vitreoscilla globin gene (vgb), lytic genes of phage A with S amber mutation (S-RRz) and poly(B-hydroxybutyrate) (PHB) biosynthetic genes (phbCAB) were cloned into a same Escherichia coli cell, simultaneously or respectively. Six novel strains containing phbCAB and vgb with or without lytic genes were constructed. Strain VG1 (pTU14), in which vgb, phbCAB and S-RRz could all be successfully expressed, has superior characteristics in cell growth and PHB accumulation, while the results of strains containing vgb and phbCAB without S- RRz were not better than that of strains harbored ph&CAB only. The simultaneous expression of vgb and S- RRz in the recombinant VG1 (pTU14) showed a great potential for low-cost production of PHB.展开更多
3-hydroxydecanoic acid (3HD) is an interesting intermediate for chemical synthesis of many valuable compounds. A novel method to produce 3HD by recombinant bacteria was constructed in Escherichia coli HB101 and Pseudo...3-hydroxydecanoic acid (3HD) is an interesting intermediate for chemical synthesis of many valuable compounds. A novel method to produce 3HD by recombinant bacteria was constructed in Escherichia coli HB101 and Pseudomonas putida GPpl04, respectively. Simultaneous expression of both phaG encoding (R)-3-hydroxydecanoyl-ACP:CoA transacylase and tesB encoding thioesteraseⅡin E. coli HB101 increased 3HD production approximate 1.7-folds compared with the expression of phaG gene alone under identical conditions. In addition, when the tesB gene was introduced into the strain, the polyhydroxyalkanoate synthase negative strain P. putida GPpl04 produced extracellular 3HD. Thus, a novel pathway to produce 3HD by recombinant Pseudomonas was constructed. It was also found that the ratio of carbon source to nitrogen source affected the production of 3HD by recombinant P. putida harboring tesB gene. Nitrogen limitation seemed to promote the extracellular 3HD production.展开更多
文摘能生产多聚羟丁酸(PHB)(一种可生物降解的塑料)的植物将成为今后开发的有力目标。加州斯坦福Carnegie Institution of Wasbington的Chris Somerville及其研究小组报道,在提高拟南芥属PHB生产水平上取得了显著进展,使PHB浓度提高了100倍以上。关键步骤是利用豌豆序列。
基金Supported by the National Natural Science Foundation of China (No. 29834103, 29876021).
文摘Exogenous Vitreoscilla globin gene (vgb), lytic genes of phage A with S amber mutation (S-RRz) and poly(B-hydroxybutyrate) (PHB) biosynthetic genes (phbCAB) were cloned into a same Escherichia coli cell, simultaneously or respectively. Six novel strains containing phbCAB and vgb with or without lytic genes were constructed. Strain VG1 (pTU14), in which vgb, phbCAB and S-RRz could all be successfully expressed, has superior characteristics in cell growth and PHB accumulation, while the results of strains containing vgb and phbCAB without S- RRz were not better than that of strains harbored ph&CAB only. The simultaneous expression of vgb and S- RRz in the recombinant VG1 (pTU14) showed a great potential for low-cost production of PHB.
基金Supported by the State Outstanding Young Scientist Award from National Natural Sciences Foundation of China (No. 20334020).
文摘3-hydroxydecanoic acid (3HD) is an interesting intermediate for chemical synthesis of many valuable compounds. A novel method to produce 3HD by recombinant bacteria was constructed in Escherichia coli HB101 and Pseudomonas putida GPpl04, respectively. Simultaneous expression of both phaG encoding (R)-3-hydroxydecanoyl-ACP:CoA transacylase and tesB encoding thioesteraseⅡin E. coli HB101 increased 3HD production approximate 1.7-folds compared with the expression of phaG gene alone under identical conditions. In addition, when the tesB gene was introduced into the strain, the polyhydroxyalkanoate synthase negative strain P. putida GPpl04 produced extracellular 3HD. Thus, a novel pathway to produce 3HD by recombinant Pseudomonas was constructed. It was also found that the ratio of carbon source to nitrogen source affected the production of 3HD by recombinant P. putida harboring tesB gene. Nitrogen limitation seemed to promote the extracellular 3HD production.
