A preliminary study on the mutation breeding of an organic phosphorus-solubilizing bacterium B3 by low-energy N^+ ion beam was conducted. Analysis of dosage vs. survival rate and mutation rate showed that the dosage ...A preliminary study on the mutation breeding of an organic phosphorus-solubilizing bacterium B3 by low-energy N^+ ion beam was conducted. Analysis of dosage vs. survival rate and mutation rate showed that the dosage of 3×10^15 ions/cm^2 was optimal for the mutation. Some parameters for determining the efficient phosphorus content were studied to simplify the protocols for screening. Ultimately one reliable mutant was screened out under plating and flask-culturing screening conditions. Importantly, a novel phosphorus-dissolving mechanism is reported for the first time in terms of bio-surfactant production, which indicates that bio-surfactant might play a vital role in phosphorus-dissolving for some phosphobacteria.展开更多
基金Hubei Technologies R&D Program of China(No.2007AA201C28)the Ministry of Science and Technology of China Microbial Resources Project(No.2005DKA21208-6)Open Project of State Key Laboratory of Agricultural Microbiology of China
文摘A preliminary study on the mutation breeding of an organic phosphorus-solubilizing bacterium B3 by low-energy N^+ ion beam was conducted. Analysis of dosage vs. survival rate and mutation rate showed that the dosage of 3×10^15 ions/cm^2 was optimal for the mutation. Some parameters for determining the efficient phosphorus content were studied to simplify the protocols for screening. Ultimately one reliable mutant was screened out under plating and flask-culturing screening conditions. Importantly, a novel phosphorus-dissolving mechanism is reported for the first time in terms of bio-surfactant production, which indicates that bio-surfactant might play a vital role in phosphorus-dissolving for some phosphobacteria.
