摘要
Hydrogen will be one of the most potential energy in the future mainly due to its cleanliness, renewablility and non-polluting nature.At present,the hydrogen-producing ability of bacteria is low, which is one of key factors restricting the development of fermentative hydrogen production industry.Ultraviolet ray was used to mutate a wild hydrogen-producing strain,Ethanoligenens sp.ZGX4, in order to screen highly efficient H2-producing mutants.After investigating the hydrogen production stability of successive generations, a highly efficient hydrogen-producing mutant UV-d48 was obtained,and batch tests were conducted to investigate the H2-producing behavior of mutant UV-d48.The experiment results showed that UV-d48 had H2-producing capability of 2998.5 ml·L-1 and maximal H2 production rate of 34.4 mmol·(g drycell)-1·h-1 at 37℃,initial glucose concentration of 10 g·L-1 and pH of 6.0, which were higher by 65.1% and 56.4% than that of the wild parent strain ZGX4, respectively.Moreover, its hydrogen yield was estimated to be 2.61 mol H2·(mol glucose)-1, which was 1.54-fold higher than that of the control strain ZGX4.Since mutant UV-d48 performed typical ethanol-type fermentation in the course of H2 production, it might be used as a very important carrier material to investigate the metabolic pathway and mechanism of ethanol-type fermentation bacteria.
Hydrogen will be one of the most potential energy in the future mainly due to its cleanliness, renewablility and non-polluting nature. At present, the hydrogen-producing ability of bacteria is low, which is one of key factors restricting the development of fermentative hydrogen production industry. Ultraviolet ray was used to mutate a wild hydrogen-producing strain, Ethanoligenens sp. ZGX4, in order to screen highly efficient H2-producing mutants. After investigating the hydrogen production stability of successive generations, a highly efficient hydrogen-producing mutant UV-d48 was obtained, and batch tests were conducted to investigate the H2-producing behavior of mutant UV-d48. The experiment results showed that UV-d48 had H2-producing capability of 2998. 5 ml · L^-1 and maximal H2 production rate of 34.4 mmol · (g drycell)^-1 · L^-1 at 37℃, initial glucose concentration of 10 g · L^-1 and pH of 6.0, which were higher by 65.1% and 56.4% than that of the wild parent strain ZGX4, respectively. Moreover, its hydrogen yield was estimated to be 2. 61 mol H2 · (mol glucose)^-1 , which was 1.54-fold higher than that of the control strain ZGX4. Since mutant UV-d48 performed typical ethanoltype fermentation in the course of H2 production, it might be used as a very important carrier material to investigate the metabolic pathway and mechanism of ethanol-type fermentation bacteria.
出处
《化工学报》
EI
CAS
CSCD
北大核心
2007年第3期755-758,共4页
CIESC Journal
基金
国家重点基础研究发展计划项目(G2000026402)
国家自然科学基金项目(30470054)。~~
关键词
紫外线
发酵产氢细菌
突变株
ultraviolet radiation
fermentative hydrogen-producing bacteria
mutant
