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莱茵衣藻和牟氏衣藻高度重排叶绿体基因组中的保守基因簇。

Conserved gene clusters in the highly rearranged chloroplast genomes of Chlamydomonas moewusii and Chlamydomonas reinhardtii.

作者信息

Boudreau E, Otis C, Turmel M

机构信息

Département de biochimie, Faculté des sciences et de génie, Université Laval, Québec, Canada.

出版信息

Plant Mol Biol. 1994 Feb;24(4):585-602. doi: 10.1007/BF00023556.

DOI:10.1007/BF00023556
PMID:8155879
Abstract

We have extended to about 75 the number of genes mapped on the Chlamydomonas moewusii and Chlamydomonas reinhardtii chloroplast DNAs (cpDNAs) by partial sequencing of the very closely related C. eugametos and C. moewusii cpDNAs and by hybridizations with Chlamydomonas chloroplast gene-specific sequences. Only four of these genes (tscA and three reading frames) have not been identified in any other algal cpDNAs and thus may be specific to Chlamydomonas. Although the C. moewusii and C. reinhardtii cpDNAs differ by complex sequence rearrangements, 38 genes scattered throughout the genome define 12 conserved clusters of closely linked loci. Aside from the rRNA operon, four of these gene clusters share similarity to evolutionarily primitive operons found in other cpDNAs, representing in fact remnants of these operons. Our results thus indicate that most of the ancestral bacterial operons that characterize the chloroplast genome organization of land plants and early-diverging photosynthetic eukaryotes have been disrupted before the emergence of the polyphyletic genus Chlamydomonas. All gene rearrangements between the C. moewusii and C. reinhardtii cpDNAs, with the exception of those accounting for the relocations of atpA, psbI and rbcL, occurred within corresponding regions of the genome. One of these rearrangements seems to have led to disruption of the ancestral region containing rpl23, rpl2, rps19, rpl16, rpl14, rpl5, rps8 and the psaA exon 1. This gene cluster, which bears striking similarity to the Escherichia coli S10 and spc operons, spans a continuous DNA segment in C. reinhardtii, while it maps to two separate fragments in C. moewusii.

摘要

通过对亲缘关系极近的衣藻属(C. eugametos)和莱茵衣藻(C. moewusii)叶绿体DNA(cpDNA)进行部分测序,并与衣藻叶绿体基因特异性序列杂交,我们已将定位在衣藻属(C. moewusii)和莱茵衣藻叶绿体DNA(cpDNA)上的基因数量扩展至约75个。这些基因中只有四个(tscA和三个阅读框)在其他藻类cpDNA中尚未被鉴定出来,因此可能是衣藻属特有的。尽管衣藻属(C. moewusii)和莱茵衣藻的cpDNA因复杂的序列重排而有所不同,但遍布基因组的38个基因定义了12个紧密连锁位点的保守簇。除了rRNA操纵子外,这些基因簇中有四个与其他cpDNA中发现的进化上原始的操纵子具有相似性,实际上代表了这些操纵子的残余部分。因此我们的数据表明,构成陆地植物和早期分化的光合真核生物叶绿体基因组组织特征的大多数祖先细菌操纵子,在多系的衣藻属出现之前就已经被破坏了。衣藻属(C. moewusii)和莱茵衣藻cpDNA之间的所有基因重排,除了那些导致atpA、psbI和rbcL重新定位的重排外,都发生在基因组的相应区域内。这些重排之一似乎导致了包含rpl23、rpl2、rps19、rpl16、rpl14、rpl5、rps8和psaA外显子1的祖先区域的破坏。这个基因簇与大肠杆菌的S10和spc操纵子有显著相似性,在莱茵衣藻中它跨越一个连续的DNA片段,而在衣藻属(C. moewusii)中它定位到两个单独的片段上。

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