2020
DOI: 10.7717/peerj.9048
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Long-reads reveal that Rhododendron delavayi plastid genome contains extensive repeat sequences, and recombination exists among plastid genomes of photosynthetic Ericaceae

Abstract: Background Rhododendron delavayi Franch. var. delavayi is a wild ornamental plant species in Guizhou Province, China. The lack of its plastid genome information seriously hinders the further application and conservation of the valuable resource. Methods The complete plastid genome of R. delavayi was assembled from long sequence reads. The genome was then characterized, and compared with those of other photosynthetic Ericaceae species. Results The plastid genome of R. delavayi has a typical quadripartite st… Show more

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Cited by 22 publications
(28 citation statements)
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“…The expanded regions appeared as unalignable insertions, where the number of indels are correlated with the length of the non-coding regions ( Supplementary Table 7 ). Furthermore, other studies have proposed that repeat sequences lead to plastome expansion; however, the expansion of these species is also associated with gene duplications caused by boundary shifts in IR regions, e.g., watercress ( Yan et al, 2019 ) and Rhododendron delavayi ( Li H. et al, 2020 ). Interestingly, short palindromic repeats (20–25 bp) are prevalent in the plastomes of C. subtropicum and C. tibeticum ( Supplementary Table 5 ).…”
Section: Discussionmentioning
confidence: 99%
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“…The expanded regions appeared as unalignable insertions, where the number of indels are correlated with the length of the non-coding regions ( Supplementary Table 7 ). Furthermore, other studies have proposed that repeat sequences lead to plastome expansion; however, the expansion of these species is also associated with gene duplications caused by boundary shifts in IR regions, e.g., watercress ( Yan et al, 2019 ) and Rhododendron delavayi ( Li H. et al, 2020 ). Interestingly, short palindromic repeats (20–25 bp) are prevalent in the plastomes of C. subtropicum and C. tibeticum ( Supplementary Table 5 ).…”
Section: Discussionmentioning
confidence: 99%
“…The average chloroplast genome (plastome) size of land plants is 151 kb, with most species ranging from 130–170 kb in length, and the average GC content is 36.3% (NCBI database, 4,281 land plant plastomes, March 17, 2020) ( Supplementary Table 1 ). However, previous studies documented that the plastome size of some lineages was extremely enlarged ( Chumley et al, 2006 ; Kim et al, 2015 ; Blazier et al, 2016 ; Weng et al, 2017 ; Lim et al, 2018 ; Gruzdev et al, 2019 ; Li H. et al, 2020 ). The largest chloroplast genome of angiosperm is Pelargonium transvaalense (242, 575 bp), with the inverted repeat (IR) region of the species expanding to 87,724 bp ( Weng et al, 2017 ).…”
Section: Introductionmentioning
confidence: 96%
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“…cordata cp genome were used to construct their phylogenetic relationship. Only the homologous CDs were used to construct the phylogenetic relationship to reduce data redundancy, such as that done in the study of Rhododendron delavayi [ 32 ]. A total of 75 homologous CDs (coding gene sequence) were employed in this study, including psbB , psbZ , ndhF , petG , rps18 , rpoB , petN , psbA , psaJ , ccsA , rpoC1 , rbcL , psbM , ndhG , rps19 , rpl2 , psbL , psaC , rps3 , matK , psbE , rpl14 , petA , rpl33 , psaA , rpl36 , ndhK , ndhJ , psbK , atpI , psbF , psbI , rps2 , rpl32 , atpH , psbN , accD , psaB , rps11 , atpA , rps14 , infA , psaI , ycf1 , rps4 , atpE , psbJ , rpl16 , rps15 , rpl20 , rpoA , ndhD , psbH , rpoC2 , ndhI , ndhA , ndhH , rps16 , atpB , petD , psbC , ndhB , petB , atpF , rps7 , rpl23 , psbD , clpP , rpl22 , ndhE , petL , psbT , ycf2 , rps12 , and ndhC , were used to determine the phylogenetic relationship.…”
Section: Methodsmentioning
confidence: 99%