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A pseudogene cluster in the leader region of the Euglena chloroplast 16S-23S rRNA genes. 总被引:1,自引:1,他引:0
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The nucleotide sequence of a region (leader region) preceding the 5'-end of 16S-23S rRNA gene region of Euglena gracilis chloroplast DNA was compared with the homologous sequences that code for the 16S-23S rRNA operons of Euglena and E. coli. The leader region shows close homology in sequence to the 16S-23S rRNA gene region of Euglena (Orozco et al. (1980) J. Biol.Chem. 255, 10997-11003) as well as to the rrnD operon of E. coli, suggesting that it was derived from the 16S-23S rRNA gene region by gene duplication. It was shown that the leader region had accumulated nucleotide substitutions at an extremely rapid rate in its entirety, similar to the rate of tRNAIle pseudogene identified in the leader region. In addition, the leader region shows an unique base content which is quite distinct from those of 16S-23S rRNA gene regions of Euglena and E. coli, but again is similar to that of the tRNAIle pseudogene. The above two results strongly suggest that the leader region contains a pseudogene cluster which was derived from a gene cluster coding for the functional 16S-23S rRNA operon possibly by imperfect duplication during evolution of Euglena chloroplast DNA. 相似文献
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Complete Genome Sequence of an Aerobic Hyper-thermophilic Crenarchaeon, Aeropyrum pernix K1 总被引:6,自引:0,他引:6
Kawarabayasi Yutaka; Hino Yumi; Horikawa Hirosh; Yamazaki Syuji; Haikawa Yuji; Jin-no Koji; Takahashi Mikio; Sekine Mitsuo; Baba Sin-ichi; Ankai Akiho; Kosugi Hiroki; Hosoyama Akira; Fukui Shigehiro; Nagai Yoshimi; Nishijima Keiko; Nakazawa Hidekazu; Takamiya Minako; Masuda Sayaka; Funahashi Tomomichi; Tanaka Toshihiro; Kudoh Yutaka; Yamazaki Jun; Kushida Norihiro; Oguchi Akio; Aoki Ken-ichi; Kubota Kenji; Nakamura Yoshinobu; Nomura Norimichi; Sako Yoshihiko; Kikuchi Hisasi 《DNA research》1999,6(2):83-101
The complete sequence of the genome of an aerobic hyper-thermophiliccrenarchaeon, Aeropyrum pernix K1, which optimally grows at95°C, has been determined by the whole genome shotgun methodwith some modifications. The entire length of the genome was1,669,695 bp. The authenticity of the entire sequence was supportedby restriction analysis of long PCR products, which were directlyamplified from the genomic DNA. As the potential protein-codingregions, a total of 2,694 open reading frames (ORFs) were assigned.By similarity search against public databases, 633 (23.5%) ofthe ORFs were related to genes with putative function and 523(19.4%) to the sequences registered but with unknown function.All the genes in the TCA cycle except for that of alpha-ketoglutaratedehydrogenase were included, and instead of the alpha-ketoglutaratedehydrogenase gene, the genes coding for the two subunits of2-oxoacid:ferredoxin oxidoreductase were identified. The remaining1,538 ORFs (57.1%) did not show any significant similarity tothe sequences in the databases. Sequence comparison among theassigned ORFs suggested that a considerable member of ORFs weregenerated by sequence duplication. The RNA genes identifiedwere a single 16S23S rRNA operon, two 5S rRNA genes and47 tRNA genes including 14 genes with intron structures. Allthe assigned ORFs and RNA coding regions occupied 89.12% ofthe whole genome. The data presented in this paper are availableon the internet homepage (http://www.mild.nite.go.jp). 相似文献
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Rhodopseudomonas palustris strains carry one or two ribosomal rRNA operons, and those with duplicated rrn operons grow faster. The two rrn operons in R. palustris No. 7 are virtually identical over a 54,70-bp stretch containing the genes for 16S rRNA, tRNAile, tRNAala, 23S rRNA and 5S rRNA, as well as the intergenic spacers and part of the extragenic spacer. In R. palustris, unlike most bacteria with multiple rrn operons, the putative promoter sequences of the two operons are highly diverged, suggesting possible functional differentiation. By simultaneous primer-extension analysis of both pre-rRNAs, we detected a two-fold higher level of expression from rrnA under photoautotrophic conditions. Alteration of the conditions of growth leads to changes in the relative levels of expression of the two operons. Within the 5,470-bp segment, only two sequence differences are found between the 23S rRNA genes; one is at the center of the 23S rRNA molecule and affects a site of unknown function, and the other is within or immediately adjacent to sequences involved in processing of the 5' 23S rRNA IVS. In vitro processing of 5' IVS-containing 23S rRNA precursors from each operon does not reveal any detectable difference between them. The 5' ends of the mature 16S, 23S, and 5S rRNAs were determined by primer-extension analysis, and the 3' end of 23S rRNA was determined by RNA linker ligation-mediated cDNA cloning. The 5' and 3' ends of the R. palustris 23S rRNA molecule are extensively processed, suggesting that, unlike the situation in the established eubacterial model, these ends cannot basepair. 相似文献
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Joran Martijn Anders E. Lind Max E. Schön Ian Spiertz Lina Juzokaite Ignas Bunikis Olga V. Pettersson Thijs J. G. Ettema 《Environmental microbiology》2019,21(7):2485-2498
Amplicon sequencing of the 16S rRNA gene is the predominant method to quantify microbial compositions and to discover novel lineages. However, traditional short amplicons often do not contain enough information to confidently resolve their phylogeny. Here we present a cost-effective protocol that amplifies a large part of the rRNA operon and sequences the amplicons with PacBio technology. We tested our method on a mock community and developed a read-curation pipeline that reduces the overall read error rate to 0.18%. Applying our method on four environmental samples, we captured near full-length rRNA operon amplicons from a large diversity of prokaryotes. The method operated at moderately high-throughput (22286–37,850 raw ccs reads) and generated a large amount of putative novel archaeal 23S rRNA gene sequences compared to the archaeal SILVA database. These long amplicons allowed for higher resolution during taxonomic classification by means of long (∼1000 bp) 16S rRNA gene fragments and for substantially more confident phylogenies by means of combined near full-length 16S and 23S rRNA gene sequences, compared to shorter traditional amplicons (250 bp of the 16S rRNA gene). We recommend our method to those who wish to cost-effectively and confidently estimate the phylogenetic diversity of prokaryotes in environmental samples at high throughput. 相似文献
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