2017
DOI: 10.3389/fpls.2017.01696
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Complete Chloroplast Genome Sequences and Comparative Analysis of Chenopodium quinoa and C. album

Abstract: The Chenopodium genus comprises ~150 species, including Chenopodium quinoa and Chenopodium album, two important crops with high nutritional value. To elucidate the phylogenetic relationship between the two species, the complete chloroplast (cp) genomes of these species were obtained by next generation sequencing. We performed comparative analysis of the sequences and, using InDel markers, inferred phylogeny and genetic diversity of the Chenopodium genus. The cp genome is 152,099 bp (C. quinoa) and 152,167 bp (… Show more

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Cited by 98 publications
(95 citation statements)
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“…Twenty‐one genes were located in each IR, including a pseudogene previously characterized in other Amaranthaceae species as rpl23 (Park et al., ; Maughan et al., ). With a length of 151,799 bp, the cañahua plastid genome is of a similar size to quinoa, which has been reported for multiple quinoa accessions ranging in size from 152,079–152,282 bp, with an average length of 152,134 bp (Hong et al., ; Maughan et al., ). Due to the lack of recombination in chloroplast genomes and the relatively recent allotetraploidization event leading to quinoa (3.3–6.3 mya; Jarvis et al., ), the high degree of similarity between the cañahua and quinoa chloroplasts supports the hypothesis that the maternal parent in the polyploidization event that led to modern quinoa was an A‐genome species (Maughan et al., ).…”
Section: Resultssupporting
confidence: 57%
“…Twenty‐one genes were located in each IR, including a pseudogene previously characterized in other Amaranthaceae species as rpl23 (Park et al., ; Maughan et al., ). With a length of 151,799 bp, the cañahua plastid genome is of a similar size to quinoa, which has been reported for multiple quinoa accessions ranging in size from 152,079–152,282 bp, with an average length of 152,134 bp (Hong et al., ; Maughan et al., ). Due to the lack of recombination in chloroplast genomes and the relatively recent allotetraploidization event leading to quinoa (3.3–6.3 mya; Jarvis et al., ), the high degree of similarity between the cañahua and quinoa chloroplasts supports the hypothesis that the maternal parent in the polyploidization event that led to modern quinoa was an A‐genome species (Maughan et al., ).…”
Section: Resultssupporting
confidence: 57%
“…Chenopodioideae, together with Betoideae formed a sister clade to the three subfamilies (Salicornioideae, Suaedoideae, and Salsoloideae), and this sister clade formed an evolutionary sister clade to Amaranthoideae. This result was similar to the most recent phylogenetic studies of Amaranthaceae, but with much higher bootstrap support (Fuentes-Bazan et al 2012;Hong et al 2017). Overall, we firstly report the complete chloroplast of genera Dysphania, and our data will largely enrich the genetic information of D. botrys and facilitate future studies on its evolutionary status.…”
supporting
confidence: 89%
“…7). Availability of C. quinoa chloroplast (32) and nuclear (27) genomes, and our own selection of a number of mitochondrial genes from our transcriptome data, allowed us to check the read distribution lengths of host sRNA mapping to those genomes. sRNA mapping onto the chloroplast genome had a major peak at 27 nt (22%), whereas the second peak is at 22 nt; in the case of sRNA mapping to mitochondrial genes (in this case only the putative coding sequences were used), a sharp peak is present for 16 nt (67% of the sRNA).…”
Section: Resultsmentioning
confidence: 99%