聚球藻属PCC 7942中rbcLS的基因组区域包含参与在低二氧化碳浓度下生长的能力及叶绿素生物合成的基因。

The genomic region of rbcLS in Synechococcus sp. PCC 7942 contains genes involved in the ability to grow under low CO2 concentration and in chlorophyll biosynthesis.

作者信息

Ronen-Tarazi M, Lieman-Hurwitz J, Gabay C, Orus M I, Kaplan A

机构信息

Department of Botany, Hebrew University of Jerusalem, Israel.

出版信息

Plant Physiol. 1995 Aug;108(4):1461-9. doi: 10.1104/pp.108.4.1461.

DOI:10.1104/pp.108.4.1461

原文链接:https://pmc.ncbi.nlm.nih.gov/articles/PMC157525/

Abstract

Several genes involved in the ability of Synechococcus sp. PCC 7942 to grow under different CO2 concentrations were mapped in the genomic region of rbcLS (the operon encoding the large and small subunits of ribulose-1,5-bisphosphate carboxylase/oxygenase). Insertion of a cartridge encoding kanamycin resistance within open reading frame (ORF) 78, designated ccmJ, located 7 kb upstream of rbcLS, resulted in a kanamycin-resistant, high-CO2-requiring mutant, M3, which does not contain normal carboxysomes. ccmJ shows significant homology to csoS1 encoding a carboxysomal shell polypeptide in Thiobacillus neopolitanus. Analysis of the polypeptide pattern of a carboxysome-enriched fraction indicated several differences between the wild type and the mutant. The amount of the ribulose-1,5-bisphosphate carboxylase/oxygenase subunits was considerably smaller in the carboxysomal fraction of the mutant when compared to the wild type. On the basis of the sequence analyses, ORF286 and ORF466, located downstream of ccmJ, were identified as chlL and chlN, respectively, which are involved in chlorophyll biosynthesis in the dark.

摘要

几个与聚球藻属（Synechococcus sp.）PCC 7942在不同二氧化碳浓度下生长能力相关的基因被定位在核酮糖-1,5-二磷酸羧化酶/加氧酶（RuBisCO）大亚基和小亚基编码操纵子rbcLS的基因组区域。在位于rbcLS上游7 kb处的开放阅读框（ORF）78（命名为ccmJ）内插入一个编码卡那霉素抗性的盒式结构，产生了一个抗卡那霉素、需要高浓度二氧化碳的突变体M3，该突变体不含有正常的羧酶体。ccmJ与编码那不勒斯硫杆菌（Thiobacillus neopolitanus）羧酶体外壳多肽的csoS1具有显著同源性。对富含羧酶体部分的多肽模式分析表明，野生型和突变体之间存在一些差异。与野生型相比，突变体羧酶体部分中核酮糖-1,5-二磷酸羧化酶/加氧酶亚基的量要少得多。基于序列分析，位于ccmJ下游的ORF286和ORF466分别被鉴定为chlL和chlN，它们参与黑暗中的叶绿素生物合成。

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