fnrL基因在球形红杆菌2.4.1光合系统基因表达及光合生长中的作用
Role of the fnrL gene in photosystem gene expression and photosynthetic growth of Rhodobacter sphaeroides 2.4.1.
作者信息
Zeilstra-Ryalls J H, Kaplan S
机构信息
Department of Microbiology and Molecular Genetics, University of Texas Health Science Center-Houston, 77030, USA.
出版信息
J Bacteriol. 1998 Mar;180(6):1496-503. doi: 10.1128/JB.180.6.1496-1503.1998.
Abstract
Anoxygenic photosynthetic growth of Rhodobacter sphaeroides 2.4.1 requires a functional fnrL gene, which encodes the anaerobic regulator, FnrL. Using transcriptional fusions to the puc operon in which the upstream FNR consensus-like sequence is either present or absent, we obtained results that suggest that FnrL has both a direct and an indirect role in puc operon expression. In addition to FnrL, several other factors, including the two-component Prr regulatory system and the transcriptional repressor PpsR, are known to mediate oxygen control of photosynthesis gene expression in this organism. Therefore, we examined the relationship between FnrL and these other regulatory elements. Our results indicate that while mutations of prr or ppsR can lead to an increase in expression of some photosynthesis genes under aerobic and anaerobic conditions, regardless of the presence or absence of FnrL, there remains an absolute requirement for a functional fnrL gene for photosynthetic growth. We examined the potential role(s) of FnrL in photosynthetic growth by considering several target genes which may be required for this growth mode.
摘要
球形红细菌2.4.1的无氧光合生长需要一个功能性的fnrL基因,该基因编码厌氧调节因子FnrL。利用与puc操纵子的转录融合,其中上游FNR共有序列样序列存在或不存在,我们获得的结果表明,FnrL在puc操纵子表达中具有直接和间接作用。除了FnrL之外,已知包括双组分Prr调节系统和转录阻遏物PpsR在内的其他几个因子介导该生物体中光合作用基因表达的氧控制。因此,我们研究了FnrL与这些其他调节元件之间的关系。我们的结果表明,虽然prr或ppsR的突变可导致在有氧和无氧条件下一些光合作用基因的表达增加,无论FnrL是否存在,但光合生长仍然绝对需要一个功能性的fnrL基因。我们通过考虑这种生长模式可能需要的几个靶基因来研究FnrL在光合生长中的潜在作用。
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