[ Objective] The FaOLtr2 ( Frago^ia ananassa osmotin-like protein) is a functional homolog of PR5-1ike protein. This study was undertaken to produce recombinant FaOLP2 and to identify its antifungal activity. [ Meth...[ Objective] The FaOLtr2 ( Frago^ia ananassa osmotin-like protein) is a functional homolog of PR5-1ike protein. This study was undertaken to produce recombinant FaOLP2 and to identify its antifungal activity. [ Method] The ORF of FaOLP2 ( accession number DQ325524) was cloned into pET22b vector to con- stroct the pET22b-FaOLP2 plasmid. The recombinant mature FaOLP2 was expressed in E. coli Rosetta-gami B (DE3) by inducing with I nunol/L IPTG and found exclusively in insoluble inclusion bodies. As FaOLP2 requires the correct formation of eight disulfide bonds, but there were no obvious effect to correctly form these by expression at different temperatures and high osmotic pressure ( supplemented Betaineand and D-Sorbitol), we used an in vitro method to refold E. coli expressed FaOLP2 by gradually elution using reduced:oxidized gluthatione redox buffer, followed by 8 mol/L urea solubilized His6-tagged mature FaOLP2 protein, which was affinity-purified by an immobilized-metal (Ni2+ ) affinity chromatography (IMAC) column. [ Result] This method generated biologically active conformations of the recombinant mature FaOLP2 that displayed antifungal activity against Ustilaginoides virens, a plant pathogenic fungus, which causes rice false smut. [ Conclusion] This study laid the foundation for further biotechnological application of the novel protein.展开更多
The effects of lanthanum on growth, soluble sugar content, essential oil contents and quality were studied in lavender plant(Lavandula Angustifolia Mill, Variety 701) under osmotic stress by means of PEG-6000 soluti...The effects of lanthanum on growth, soluble sugar content, essential oil contents and quality were studied in lavender plant(Lavandula Angustifolia Mill, Variety 701) under osmotic stress by means of PEG-6000 solution. The results show that osmotic stress could reduce the growth rate of lavender, and increase the content of SSC(soluble sugar concentration) to some extent. Compared with control group,the contents of essential oil in flowers and leaves respectively increase by 45.6% and 48.3% in the osmotic stress group induced by 15% PEG-6000. However, the presence of lanthanum can make the contents of essential oil in the flowers and leaves of stressed lavender plants enhance by 19.4% and 18.6%, respectively. Under osmotic stress, the relative contents of four kinds of lavender essential oil compositions of camphor, linalool, linalyl acetate and lavandulol acetate in the lavender flowers were successively 22.63%,0.61%,25.46%,7.03%,and 20.17%,0.62%,20.72%,10.80%,respectively in the presence and absence of lanthanum. The contents of all four main components of lavender essential oils meet the requirements of the national standard under osmotic stress in the presence of lanthanum. However, in the absence of lanthanum, the contents of linalyl acetate and lavandulol acetate does not meet the requirements of the national standard under osmotic stress. Moreover, the contents of five components of borneol, camphor,eudesmol, caryophyllene oxide and bicyclic sesquiphellandrene from the essential oil of lavender leaves are 12.89%, 3.84%, 8.76%, 11.30% and 8.10%, respectively. The total content of above five components accounts for 44.89% of the essential oil of the lavender leaves. Particularly, the borneol content in leaf essential oil is up to 12.89%. It is 125.2 times the amount of borneol in the flower essential oil. In conclusion, the suitable concentration of lanthanum can improve the adaptability of lavender plants, and heighten the content and quality of lavender essential oil to some extent under osmotic stress.展开更多
基金Supported by Zhejiang Province Natural Science Foundation(Y307591,Y3110288)Key Scientific and Technological Innovation Team Program of Zhejiang Province(2010R50028)
文摘[ Objective] The FaOLtr2 ( Frago^ia ananassa osmotin-like protein) is a functional homolog of PR5-1ike protein. This study was undertaken to produce recombinant FaOLP2 and to identify its antifungal activity. [ Method] The ORF of FaOLP2 ( accession number DQ325524) was cloned into pET22b vector to con- stroct the pET22b-FaOLP2 plasmid. The recombinant mature FaOLP2 was expressed in E. coli Rosetta-gami B (DE3) by inducing with I nunol/L IPTG and found exclusively in insoluble inclusion bodies. As FaOLP2 requires the correct formation of eight disulfide bonds, but there were no obvious effect to correctly form these by expression at different temperatures and high osmotic pressure ( supplemented Betaineand and D-Sorbitol), we used an in vitro method to refold E. coli expressed FaOLP2 by gradually elution using reduced:oxidized gluthatione redox buffer, followed by 8 mol/L urea solubilized His6-tagged mature FaOLP2 protein, which was affinity-purified by an immobilized-metal (Ni2+ ) affinity chromatography (IMAC) column. [ Result] This method generated biologically active conformations of the recombinant mature FaOLP2 that displayed antifungal activity against Ustilaginoides virens, a plant pathogenic fungus, which causes rice false smut. [ Conclusion] This study laid the foundation for further biotechnological application of the novel protein.
基金Project supported by the National Natural Science Foundation of China(31371765)International Cooperation Project(40-16)Zhejiang Province Key Science and Technology Innovation Team Project(2010R50028)
文摘The effects of lanthanum on growth, soluble sugar content, essential oil contents and quality were studied in lavender plant(Lavandula Angustifolia Mill, Variety 701) under osmotic stress by means of PEG-6000 solution. The results show that osmotic stress could reduce the growth rate of lavender, and increase the content of SSC(soluble sugar concentration) to some extent. Compared with control group,the contents of essential oil in flowers and leaves respectively increase by 45.6% and 48.3% in the osmotic stress group induced by 15% PEG-6000. However, the presence of lanthanum can make the contents of essential oil in the flowers and leaves of stressed lavender plants enhance by 19.4% and 18.6%, respectively. Under osmotic stress, the relative contents of four kinds of lavender essential oil compositions of camphor, linalool, linalyl acetate and lavandulol acetate in the lavender flowers were successively 22.63%,0.61%,25.46%,7.03%,and 20.17%,0.62%,20.72%,10.80%,respectively in the presence and absence of lanthanum. The contents of all four main components of lavender essential oils meet the requirements of the national standard under osmotic stress in the presence of lanthanum. However, in the absence of lanthanum, the contents of linalyl acetate and lavandulol acetate does not meet the requirements of the national standard under osmotic stress. Moreover, the contents of five components of borneol, camphor,eudesmol, caryophyllene oxide and bicyclic sesquiphellandrene from the essential oil of lavender leaves are 12.89%, 3.84%, 8.76%, 11.30% and 8.10%, respectively. The total content of above five components accounts for 44.89% of the essential oil of the lavender leaves. Particularly, the borneol content in leaf essential oil is up to 12.89%. It is 125.2 times the amount of borneol in the flower essential oil. In conclusion, the suitable concentration of lanthanum can improve the adaptability of lavender plants, and heighten the content and quality of lavender essential oil to some extent under osmotic stress.
