Nature:在有氧条件下可产生氢气的细菌-自主发布-资讯-生物在线

Nature:在有氧条件下可产生氢气的细菌

作者:上海研辉生物科技有限公司 2011-09-08T00:00 (访问量:4031)

美国华盛顿大学等机构研究人员在新一期英国Nature Communications杂志上发表报告说,他们发现一种细菌可以在有氧气存在的自然条件下生产氢气,有望成为较廉价的氢气来源。


“蓝藻菌51142”细菌在有氧环境可生产氢气

报告说,这种名为“蓝藻菌51142”的细菌在白天和夜晚的生理活动不同。在白天有光线的时候,它可以进行光合作用,生成氧气和糖分;而在夜晚,它会燃烧白天生成的糖分来提供能量,这个过程会耗尽细胞内的氧气,使得固氮酶可以安全工作,在有氧环境中也可生产氢气。

通常,固氮酶只要和氧气接触就会被破坏,因此此前发现的一些可生产氢气的微生物都需要在无氧环境中工作,使得产氢成本提高。

研究人员希马徳里·帕克莱希说,他们正计划对这种细菌进行基因改造,进一步提高其产氢量。(生物谷Bioon.com)

生物谷推荐原文出处:

Nature Communications doi:10.1038/ncomms1139

High rates of photobiological H2 production by a cyanobacterium under aerobic conditions

Anindita Bandyopadhyay,Jana St?ckel,Hongtao Min,Louis A. Sherman& Himadri B. Pakrasi

Among the emerging renewable and green energy sources, biohydrogen stands out as an appealing choice. Hydrogen can be produced by certain groups of microorganisms that possess functional nitrogenase and/or bidirectional hydrogenases. In particular, the potential of photobiological hydrogen production by oxygenic photosynthetic microbes has attracted significant interest. However, nitrogenase and hydrogenase are generally oxygen sensitive, and require protective mechanisms to function in an aerobic extracellular environment. Here, we describe Cyanothece sp. ATCC 51142, a unicellular, diazotrophic cyanobacterium with the capacity to generate high levels of hydrogen under aerobic conditions. Wild-type Cyanothece 51142 can produce hydrogen at rates as high as 465?μmol per mg of chlorophyll per hour in the presence of glycerol. Hydrogen production in this strain is mediated by an efficient nitrogenase system, which can be manipulated to convert solar energy into hydrogen at rates that are several fold higher, compared with any previously described wild-type hydrogen-producing photosynthetic microbe.

上海研辉生物科技有限公司 商家主页

地 址: 上海市杨浦区政悦路500弄57号702

联系人: 王萍

电 话: 021-56076682

传 真: 021-56078580

Email:yhswbio@163.com

相关咨询

J Immunol:肺部的一种细胞具有双刃剑作用 (2012-02-02T00:00 浏览数:4389)

Apoptosis:曹阳等解析昆虫变态发育中细胞自噬机制 (2011-12-20T00:00 浏览数:5395)

Science:徐咏梅等用合成法生产肝素 (2011-11-03T00:00 浏览数:4850)

PLoS Pathog.:用寄生虫作载体为牛打疫苗 (2011-11-02T00:00 浏览数:3416)

Cell:北大研究天然免疫分子机制获进展 (2011-10-19T00:00 浏览数:4065)

BioEssays:女性免疫力或天生比男性强 (2011-10-09T00:00 浏览数:3063)

日本动物实验证实新型口服疫苗的效果 (2011-09-15T00:00 浏览数:3965)

Nature:首个世界糖尿病日科学家新发现相关基因 (2011-09-15T00:00 浏览数:4476)

PLoS Biol.:驯化疟原虫有助开发抗疟疫苗 (2011-09-13T00:00 浏览数:3683)

Nature:CRTC3蛋白与肥胖症有关 (2011-09-08T00:00 浏览数:3997)

ADVERTISEMENT