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红螺菌核糖-1,5-二磷酸羧化酶-加氧酶缺失菌株中二氧化碳固定基因表达的互补分析与调控

Complementation analysis and regulation of CO2 fixation gene expression in a ribulose 1,5-bisphosphate carboxylase-oxygenase deletion strain of Rhodospirillum rubrum.

作者信息

Falcone D L, Tabita F R

机构信息

Department of Microbiology, Ohio State University, Columbus 43210-1192.

出版信息

J Bacteriol. 1993 Aug;175(16):5066-77. doi: 10.1128/jb.175.16.5066-5077.1993.

DOI:10.1128/jb.175.16.5066-5077.1993
PMID:8349547
原文链接:https://pmc.ncbi.nlm.nih.gov/articles/PMC204973/
Abstract

A ribulose 1,5-bisphosphate carboxylase-oxygenase (RubisCO) deletion strain of Rhodospirillum rubrum that was incapable of photolithoautotrophic growth was constructed. Photoheterotrophic growth, however, was possible for the R. rubrum RubisCO deletion strain when oxidized carbon compounds such as malate were supplied. The R. rubrum RubisCO-deficient strain was not complemented to photolithoautotrophic growth by various R. rubrum DNA fragments that contain the gene encoding RubisCO, cbbM. When the R. rubrum cbbM deletion strain harbored plasmids containing R. rubrum DNA inserts with at least 2.0 kb preceding the translational start site of the cbbM gene, RubisCO activity and RubisCO antigen were detected. Lack of RubisCO expression was therefore not the cause for the failure to complement the cbbM mutant strain. Interestingly, DNA fragments encoding either of two complete Calvin-Benson-Bassham CO2- fixation (cbb) gene operons from Rhodobacter sphaeroides were able to complement the R. rubrum RubisCO deletion strain to photolithoautotrophic growth. The same R. rubrum DNA fragments that failed to complement the R. rubrum cbbM deletion strain successfully complemented the RubisCO deletion strain of R. sphaeroides, pointing to distinct differences in the regulation of metabolism and the genetics of photolithoautotrophic growth in these two organisms. A number of cbb genes were identified by nucleotide sequence analysis of the region upstream of cbbM. Included among these was an open reading frame encoding a cbbR gene showing a high degree of sequence similarity to known lysR-type CO2 fixation transcriptional activator genes. The placement and orientation of the cbbR transcriptional regulator gene in R. rubrum are unique.

摘要

构建了不能进行光无机自养生长的深红红螺菌核酮糖-1,5-二磷酸羧化酶-加氧酶(RubisCO)缺失菌株。然而,当提供诸如苹果酸等氧化态碳化合物时,深红红螺菌RubisCO缺失菌株能够进行光异养生长。含有编码RubisCO的cbbM基因的各种深红红螺菌DNA片段不能使深红红螺菌RubisCO缺陷菌株恢复光无机自养生长。当深红红螺菌cbbM缺失菌株携带含有在cbbM基因翻译起始位点之前至少2.0 kb的深红红螺菌DNA插入片段的质粒时,检测到RubisCO活性和RubisCO抗原。因此,RubisCO表达缺失不是cbbM突变菌株不能恢复生长的原因。有趣的是,来自球形红杆菌的两个完整的卡尔文-本森-巴斯姆CO₂固定(cbb)基因操纵子中的任何一个编码的DNA片段都能够使深红红螺菌RubisCO缺失菌株恢复光无机自养生长。同样未能使深红红螺菌cbbM缺失菌株恢复生长的深红红螺菌DNA片段成功地使球形红杆菌RubisCO缺失菌株恢复生长,这表明这两种生物在代谢调控和光无机自养生长遗传学方面存在明显差异。通过对cbbM上游区域的核苷酸序列分析鉴定了许多cbb基因。其中包括一个编码cbbR基因的开放阅读框,该基因与已知的lysR型CO₂固定转录激活基因具有高度的序列相似性。cbbR转录调节基因在深红红螺菌中的位置和方向是独特的。

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