草酸青霉YTY及其突变体解磷能力、pH和分泌有机酸的关系  被引量：3

作　　者：杨天佑[1] 李林波 田静[1] 张士双 吴中齐 YANG Tian-you;LI Lin-bo;TIAN Jing;ZHANG Shi-shuang;WU Zhong-qi(School of Life Science and Technology,Henan Institute of Science and Technology,Xinxiang 453003,Henan,China)

机构地区：[1]河南科技学院生命科技学院,河南新乡453003

出　　处：《应用生态学报》2021年第12期4429-4438,共10页Chinese Journal of Applied Ecology

基　　金：国家自然科学基金项目(11305047);河南省科技计划项目(192102210193)资助。

摘　　要：本研究利用离子束-UV复合诱变草酸青霉YTY选育高效解磷突变体,分析了出发菌株YTY及其突变体解磷过程中的解磷能力、pH和有机酸的变化及其相关性,探讨草酸青霉的解磷机理。结果表明:离子束-UV复合诱变选育获得5株高效解磷突变株P9-8、P9-9、P15-4、P15-6和P15-7,解磷能力均较YTY提高60%以上。解磷过程中突变株解磷能力及解磷速率均高于YTY,而pH显著低于YTY,同时,突变体分泌有机酸种类及含量发生了不同程度的变化,突变体和YTY均可分泌乳酸、乙酸和草酸,P9-8还产生了柠檬酸。皮尔逊相关分析显示,YTY及5株突变株的解磷能力和pH值呈显著负相关;YTY及其突变体(P15-4除外)的解磷能力与有机酸浓度和pH呈显著相关。分泌有机酸和降低环境pH值可能是草酸青霉解磷的内在机制,离子束-UV复合诱变可引起草酸青霉YTY有机酸分泌种类和分泌量的变化,还可能诱发YTY启动其他H+释放途径降低pH参与解磷。本研究为高效解磷青霉的开发及青霉解磷机理阐明提供了生物材料及理论依据。The high-efficiency phosphate solubilizing mutants of Peuicillium oxalicum YTY were screened by mutagenesis of ion beam combined with UV.We analyzed the changes and correlation of phosphate solubilizing ability,pH,and organic acid for YTY and its mutants,and examined the phosphate solubilizing mechanism of P.oxalicum YTY.The results showed that five high-efficiency mutants,P9-8,P9-9,P15-4,P15-6,and P15-7 were screened,and that the phosphate solubilizing ability of mutants was increased by more than 60%compared with YTY.In the process of phosphorus solubilization,both phosphorus solubilizing ability and rate of mutants were higher than that of YTY,and the mutants pH was significantly lower than YTY.The type and content of organic acids secreted by the mutants showed some variations.All mutants and YTY could secrete lactic acid,acetic acid and oxalic acid,while P9-8 also produced citric acid.The pH and the phosphate solubilizing ability of YTY and its mutants had a significant negative correlation.Phosphate solubilizing ability with organic acid and pH were all significantly correlated for YTY and the mutants,except P15-4.Organic acids and low environmental pH reduced by organic acids were the probable mechanism for P.oxalicum to dissolve phosphorus.Radiation of ion beam combined with UV could change the type and content of organic acids of P.oxalicum YTY,and initiate other H+releasing pathways to lower pH,and participate phosphorus dissolution.The study provided biological materials and theoretical basis for the research and development of high-efficiency phosphate solubilizing P.oxalicum and understanding the phosphate solubilizing mechanism of P.oxalicum.

关 键 词：草酸青霉 诱变 有机酸 解磷机理 

分 类 号：S154.3[农业科学—土壤学]