Comparative Chloroplast Genomics of Endangered Euphorbia Species: Insights into Hotspot Divergence, Repetitive Sequence Variation, and Phylogeny

Khan, Arif Muhammad; Asaf, Sajjad; Khan, Abdul Latif; Shehzad, Tariq; Al‐Rawahi, Ahmed; Al‐Harrasi, Ahmed

doi:10.3390/plants9020199

Cited by 20 publications

(38 citation statements)

References 71 publications

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“…Repetitive sequences in plastid genomes play an essential role in population genetics and biogeography studies [51,52], and these repeats may result from slipped-strand mispairing and improper recombination [53]. In this study, short dispersed repeats (SDRs) analysis found 22 forward, 0 reverse, 0 complement and 20 palindromic repeats in the plastid genome of B. chinense ( Figure 4A), of which 32 were 30-40 bp in length, 7 were 41-50 bp in length, and 3 exceeded 70 bp in length ( Figure 4B).…”

Section: Repetitive Sequences Analysismentioning

confidence: 99%

Comparative Analysis of the Complete Plastid Genome of Five Bupleurum Species and New Insights into DNA Barcoding and Phylogenetic Relationship

Xie

Guo

et al. 2020

Plants

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Bupleurum L. (Apiaceae) is a perennial and herbal genus, most species of which have high medicinal value. However, few studies have been performed using plastome data in this genus, and the phylogenetic relationships have always been controversial. In this study, the plastid genomes of Bupleurum chinense and Bupleurum commelynoideum were sequenced, and their gene content, order, and structure were counted and analyzed. The only three published Bupleurum species (B. boissieuanum, B. falcatum, and B. latissimum) and other fifteen allied species were selected to conduct a series of comparative and phylogenetic analyses. The genomes of B. chinense and B. commelynoideum were 155,869 and 155,629 bp in length, respectively, both of which had a typical quadripartite structure. The genome length, structure, guanine and cytosine (GC) content, and gene distribution were highly similar to the other three Bupleurum species. The five Bupleurum species had nearly the same codon usages, and eight regions (petN-psbM, rbcL-accD, ccsA-ndhD, trnK(UUU)-rps16, rpl32-trnL(UAG)-ccsA, petA-psbJ, ndhF-rpl32, and trnP(UGG)-psaJ-rpl33) were found to possess relatively higher nucleotide diversity, which may be the promising DNA barcodes in Bupleurum. Phylogenetic analysis revealed that all Bupleurum species clustered into a monophyletic clade with high bootstrap support and diverged after the Chamaesium clade. Overall, our study provides new insights into DNA barcoding and phylogenetic relationship between Bupleurum and its related genera, and will facilitate the population genomics, conservation genetics, and phylogenetics of Bupleurum in Apiaceae.

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Section: Repetitive Sequences Analysismentioning

confidence: 99%

Comparative Analysis of the Complete Plastid Genome of Five Bupleurum Species and New Insights into DNA Barcoding and Phylogenetic Relationship

Xie

Guo

et al. 2020

Plants

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“…Pseudogenization or loss of plastid genes is often accompanied by the transfer of the gene to the nuclear genome or substitution by a nuclear gene that is already targeted to the plastid 27,66 . Plastid gene loss and transfer to the nucleus or substitution by a dual targeted nuclear gene targeted to organelles has been recorded for several genes across multiple angiosperm lineages [4][5][6][7][8][9][10][11][12][13][14][15][16][17] . The focus of this study was to use transcriptome data to bioinformatically identify the fate of two plastid genes, rpl32 and rps16, in Euphorbia schimperi that have either been lost or pseudogenized.…”

Section: Discussionmentioning

confidence: 99%

“…Most angiosperm plastomes have a highly conserved gene content ranging between 120-130 genes out of the approximately 1000 to 8000 genes that were present in the cyanobacterial ancestor 3 . There are some exceptions in various lineages including losses/transfers of infA in most rosids 4,5 , rpl33 in some legume lineages 6,7 , rpl32 in Salicaceae 8,9,10,11 , Rhizophoraceae 10 , Ranunculaceae 12 , Passi oraceae 13,14 and Euphorbiaceae 15,16,17 , rps16 in various legumes 6,18,19,20,21 , Salicaceae 8,9,22 , Passi oraceae 14 and Euphorbiaceae [15][16][17]23,24,25 , rpl22 in Fabaceae, Fagaceae, Passi oraceae, and Salicaceae 13,14,26,27 and rpl20 in Passi oraceae 14 .…”

Section: Introductionmentioning

confidence: 99%

“…rpl32 and rps16 have been characterized as being lost in plastomes and either transferred to the nucleus or substituted by a nuclear-encoded mitochondrially-targeted gene in three families of Malpighiales, Rhizophoraceae, Salicaceae and Passi oraceae 10,11,14,22 . The fate of these two missing genes in other families of Malpighiales (Bonnetiaceae , Hypericaceae, Clusiaceae, Podostemaceae, Euphorbiaceae, Malpighiaceae, Chrysobalanaceae, Irvingiaceae, Pyllanthaceae, Erythoxylaceae, Linaceae and Violaceae) has not been characterized [15][16][17][23][24][25]40,41,42,43,44,45,46 . Thus, little is known about the extent of the transfer/substitution of these genes in other families of Malpighiales.…”

Section: Introductionmentioning

confidence: 99%

“…Only 21 species of Euphorbiaceae have complete plastome sequences available in NCBI (accessed on December 13, 2020) with eleven published and most of these are economically important and have some medicinal activities due to the presence of isoprenoids [15][16][17][23][24][25]46,57,58,59,60,61,62,63,64 . Using next generation sequencing technologies and de novo assembly, the plastome and nuclear transcriptome of Euphorbia schimperi was sequenced.…”

Section: Introductionmentioning

confidence: 99%

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The evolutionary fate of rpl32 and rps16 losses in the Euphorbia schimperi (Euphorbiaceae) plastome

Alqahtani

Jansen

2021

Preprint

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Gene transfers from mitochondria and plastids to the nucleus are an important process in the evolution of the eukaryotic cell. Plastid (pt) gene losses have been documented in multiple angiosperm lineages and are often associated with functional transfers to the nucleus or substitutions by duplicated nuclear genes targeted to both the plastid and mitochondrion. The plastid genome sequence of Euphorbia schimperi was completed and losses of rpl32, rps16 and infA genes were detected. The nuclear transcriptome of E. schimperi was sequenced to investigate the transfer/substitution of the rpl32 and rps16 genes to the nucleus. Transfer of plastid-encoded rpl32 to the nucleus was identified previously in three families of Malpighiales, Rhizophoraceae, Salicaceae and Passifloraceae. An E. schimperi transcript of pt SOD-1-RPL32 confirmed that the transfer in Euphorbiaceae is similar to other Malpighiales indicating that it occurred early in the divergence of the order. Ribosomal protein S16 (rps16) is encoded in the plastome in most angiosperms but not in Salicaceae and Passifloraceae. Substitution of the E. schimperi pt rps16 was likely due to a duplication of nuclear-encoded mitochondrial-targeted rps16 resulting in copies dually targeted to the mitochondrion and plastid. Sequences of RPS16-1 and RPS16-2 in the three families of Malpighiales (Salicaceae, Passifloraceae and Euphorbiaceae) have high sequence identity suggesting that the substitution event dates to the early divergence of Malpighiales.

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Comparative chloroplast genomes of Prunus subgenus Cerasus (Rosaceae): insights into sequence variations and phylogenetic relationships

Yan

et al. 2021

Tree Genetics & Genomes

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Prunus subgenus Cerasus is a large and diverse genus. Its botanical classification has long been controversial and complicated. Molecular markers derived from the chloroplast genome may provide useful tools for phylogenetic resolution and taxonomic study in Prunus species. Thus, we compared chloroplast genomes of 23 Prunus species to identify sequences with high variation levels. The repeated sequences (RSs) and two types of sequence variation, comprising divergent homologous regions and short sequence repeats (SSRs), were identified. The species with the highest number of RSs was P. emarginata (60), whereas P. campanulata contained the highest amount of SSRs (70). In contrast, P. dictyoneura and P. yedoensis contained the lowest number of RSs (37) and SSRs (46), respectively. Out of these homologous SSRs, 11 were shared in the 23 species, and seven of them showed variations. A total of 203 homologous regions were identified. Out of these, 20 regions (19 IGSs and one intron) showed a high variation from 6.75 to 19.31%. The phylogenetic tree which was inferred based on 19 highly variable regions showed a topology similar to the one obtained using the whole chloroplast genome. We conclude that the seven variable SSRs and the 20 highly variable regions may potentially be convenient as molecular markers for phylogenetic and population genetics studies in subgenus Cerasus species. In addition, the molecular phylogenetic position of P. clarofolia was inferred based on the 19 highly variable regions.

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Comparative Chloroplast Genomics of Endangered Euphorbia Species: Insights into Hotspot Divergence, Repetitive Sequence Variation, and Phylogeny

Cited by 20 publications

References 71 publications

Comparative Analysis of the Complete Plastid Genome of Five Bupleurum Species and New Insights into DNA Barcoding and Phylogenetic Relationship

Comparative Analysis of the Complete Plastid Genome of Five Bupleurum Species and New Insights into DNA Barcoding and Phylogenetic Relationship

The evolutionary fate of rpl32 and rps16 losses in the Euphorbia schimperi (Euphorbiaceae) plastome

Comparative chloroplast genomes of Prunus subgenus Cerasus (Rosaceae): insights into sequence variations and phylogenetic relationships

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