In the present study, highest hydrogen production by Rhodobacter sphaeroides was seen in lactose and mannitol as carbon sources. Glutamic acid and tyrosine induced the highest production of hydrogen. Cyanocobalamine induced the highest production of hydrogen. Enhancement of hydrogen production by 23% was seen after knocking out of the hydrogen reuptake hydrogenase gene. Large-scale production of hydrogen can be tried with this genetically engineered organism, provided some safety aspects are taken into consideration, especially with storage as hydrogen explodes when it comes in contact with air.

中文翻译：

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Hup-从印度特兰甘纳邦Nalgonda的污水中分离出的球形红细菌（Rhodobacter sphaeroides）制氢

在本研究中，球形乳糖红球菌产生的最高氢气是在乳糖和甘露醇中作为碳源。谷氨酸和酪氨酸诱导氢的最高产生。氰钴胺诱导了最高的氢气产生。敲除氢重吸收氢化酶基因后，观察到氢产生增加了23％。如果考虑到一些安全方面的问题，可以尝试使用这种基因工程生物大规模生产氢气，尤其是在氢气与空气接触时爆炸时，尤其要进行储存。