「Inoue Nakahara-Tsubota Tsubota 2022」の版間の差分

提供: 広島大学デジタル博物館
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==Abstract==
 
==Abstract==
The complete chloroplast and mitochondrial genome sequences of ''Scopelophila cataractae'' (Pottiaceae, Bryophyta) are determined.  The chloroplast genome is 122,290 bp with 118 genes and the mitochondrial genome is 105,607 bp with 67 genes, both genomes are circular.  This study showed the ''S. cataractae'' plastome contains the smallest genome size, and a functional ''trnP<up>GGG</up>'' gene, relative to other pottiaceous species.  Phylogenetic inferences support the sister relationship of ''S. cataractae'' to all other pottiaceous accessions.
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The complete chloroplast and mitochondrial genome sequences of ''Scopelophila cataractae'' (Pottiaceae, Bryophyta) are determined.  The chloroplast genome is 122,290 bp with 118 genes and the mitochondrial genome is 105,607 bp with 67 genes, both genomes are circular.  This study showed the ''S. cataractae'' plastome contains the smallest genome size, and a functional ''trnP<sup>GGG</sup>'' gene, relative to other pottiaceous species.  Phylogenetic inferences support the sister relationship of ''S. cataractae'' to all other pottiaceous accessions.
  
 
==Keywords==
 
==Keywords==

2021年12月30日 (木) 19:00時点における版

Inoue et al. (2022)

  • Inoue, Y., Nakahara-Tsubota, M. & Tsubota, H. 2022 (2021). The complete chloroplast and mitochondrial genomes of Scopelophila cataractae (Mitt.) Broth. (Pottiaceae, Bryophyta). Mitochondrial DNA Part B 7(1): 125-127.

Abstract

The complete chloroplast and mitochondrial genome sequences of Scopelophila cataractae (Pottiaceae, Bryophyta) are determined. The chloroplast genome is 122,290 bp with 118 genes and the mitochondrial genome is 105,607 bp with 67 genes, both genomes are circular. This study showed the S. cataractae plastome contains the smallest genome size, and a functional trnPGGG gene, relative to other pottiaceous species. Phylogenetic inferences support the sister relationship of S. cataractae to all other pottiaceous accessions.

Keywords

  • Bryophyta, chloroplast genome, copper moss, mitochondrial genome, Merceyoideae, organelle genome, phylogenetic relationships, Pottiaceae

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