Plastome evolution
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It is hypothesized that the highly conserved inverted repeats (IR) structure of land plant plastid genomes (plastomes) is beneficial for stabilizing plastome organization, whereas the mechanism of the occurrence and stability maintenance of the recently reported direct repeats (DR) structure is yet awaiting further exploration.
11p visilicon2711 20-08-2021 12 1 Download
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The genus Ligusticum consists of approximately 60 species distributed in the Northern Hemisphere. It is one of the most taxonomically difficult taxa within Apiaceae, largely due to the varied morphological characteristics.
14p vijichea2711 28-05-2021 8 1 Download
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Comparative chloroplast genomics could shed light on the major evolutionary events that established plastomic diversity among closely related species. The Polypodiaceae family is one of the most speciesrich and underexplored groups of extant ferns.
15p vijichea2711 28-05-2021 7 1 Download
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Angelica L. (family Apiaceae) is an economically important genus comprising ca. One hundred ten species. Angelica species are found on all continents of the Northern Hemisphere, and East Asia hosts the highest number of species.
12p vijichea2711 28-05-2021 11 1 Download
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Oat (Avena sativa L.) is a recognized health-food, and the contributions of its different candidate Agenome progenitor species remain inconclusive. Here, we report chloroplast genome sequences of eleven Avena species, to examine the plastome evolutionary dynamics and analyze phylogenetic relationships between oat and its congeneric wild related species.
20p vijichea2711 28-05-2021 19 1 Download
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Plastid genomes typically display a circular, quadripartite structure with two inverted repeat regions, which challenges automatic assembly procedures. The correct assembly of plastid genomes is a prerequisite for the validity of subsequent analyses on genome structure and evolution.
21p vicolorado2711 22-10-2020 12 0 Download