Complete chloroplast genomes of all six Hosta species occurring in Korea: molecular structures, comparative, and phylogenetic analyses

Lee, Soo‐Rang; Kim, Kyeonghee; Lee, Byoung-Yoon; Lim, Chae Eun

doi:10.1186/s12864-019-6215-y

Cited by 51 publications

(55 citation statements)

References 53 publications

Supporting

Mentioning

Contrasting

Order By: Relevance

“…2). This result has also been identi ed in the other monocots [40][41][42]. It may possibly be attributed to copy correction of the IR regions via gene conversion [43].…”

Section: Discussionsupporting

confidence: 69%

Insights into Phylogenetic Relationships and Genome Evolution of Subfamily Commelinoideae (Commelinaceae Mirb.) Inferred from Complete Chloroplast Genomes

Jung

Kim

2020

Preprint

View full text Add to dashboard Cite

BackgroundCommelinaceae (Commelinales) comprise 41 genera and widely distributed in both the Old and New Worlds except Europe. The relationships among genera in this family have been suggested in several morphological and molecular studies. However, it is difficult to explain their relationships due to high morphological variations and low support values. Nowadays, many researchers are commonly using complete chloroplast genome data for inferring evolution of land plants. In this study, we completed 15 new chloroplast genome sequences of subfamily Commelinoideae using Mi-seq platform. We utilized genome data for the first time to reveal the structural variations and reconstruct the problematic positions of genera.Results All examined species of Commelinoideae have three pseudogenes (accD, rpoA, and ycf15) and former two genes might be a synapomorphy within the Commelinales. Only four species in tribe Commelineae appear IR expansion which affected duplication of rpl22 gene. We identified inversions which range from approximately 3 to 15 kb from four taxa (Murdannia, Streptolirion, Amischotolype, and Belosynapsis). The phylogenetic analyse using 77 chloroplast protein coding genes with maximum parsimony, maximum likelihood, and the Bayesian inference suggest that Palisota connected with tribe Commelineae with high support values, differ from recent classification of Commelinaceae. Also, we resolved unclear position of Streptoliriinae and monophyly of Dichorisandrinae.Conclusions In this study, we provide detailed information of the 15 plastid genomes of Commelinaceae taxa. We identified characteristic pseudogenes and nucleotide diversity, which can be used for inferring evolutionary history about this family. Also, we need a further research to revise position of Palisota in recent classification.

show abstract

“…2). This result has also been identi ed in the other monocots [40][41][42]. It may possibly be attributed to copy correction of the IR regions via gene conversion [43].…”

Section: Discussionsupporting

confidence: 69%

Insights into Phylogenetic Relationships and Genome Evolution of Subfamily Commelinoideae (Commelinaceae Mirb.) Inferred from Complete Chloroplast Genomes

Jung

Kim

2020

Preprint

View full text Add to dashboard Cite

show abstract

“…The nuclear, chloroplast(cp), and mitochondria genomes are the three major organelles that contain their genomes [ 1 ]. Typically, cp genomes in angiosperms comprise a quadripartite circular double-helix structure of highly conserved sizes, structures, and gene sequences ranging from 115 kb to 165 kb [ 2 ]. The common feature of the complete chloroplast genome is a typical tetrad structure, which consists of a pair of inverted repeats(IRs), which are divided by large and small single copy(LSC, SSC).…”

Section: Introductionmentioning

confidence: 99%

Comparative Chloroplast Genome Analysis of Impatiens Species (Balsaminaceae) in the Karst Area of China: Insights Into Genome Evolution and Phylogenomic Implications.

Luo

Huang

Sun

et al. 2021

Preprint

View full text Add to dashboard Cite

Background: Impatiens, a controversial and complex genus, which belongs to the family Balsaminaceae with approximately 1000 species. The genus is well known for economical, medicinal, ornamental, and horticultural values. However, Due to the morphological features and insufficient genomic resources, their analyses of germplasm identification and molecular phylogeny are very limited. Results: We have sequenced the chloroplast genomes of six different species (I. chlorosepala, I. fanjingshanica, I. guizhouensis, I. linearisepala, I. loulanensis, and I. stenosepala) in the karst area of China and compared them with previously published species and the monospecific sister Hydrocera triflora belonging to Balsaminaceae family. We comtrasted the genome features, repeat sequences, sequence divergence, and constructed the phylogenetic relationships. The 12 complete chloroplast genomes of the Balsaminaceae species ranged in size from 151,538 bp (I. fanjingshanica) to 154,189bp (H. triflora ) encoded 114 total distinct genes except for I. glandulifera and H. triflora, including 81 protein-coding, 29 transfer RNA genes(tRNA), and 4 ribosomal RNA genes (rRNA). Moreover, the characteristics of the long repeats sequences and simple sequence repeats (SSRs) were found. Divergent hotspots regions psbK-psbI,trnT-GGU-psbD, rpl36-rps8, rpoB-trnC-GCA, trnK-UUU-rps16, trnQ-UUG, trnP-UGG-psaJ, trnT-UGU-trnL-UAA, and ycf4-cemA were identified in the 12 Balsaminaceae chloroplast genomes, which could be suitable for species identification and phylogenetic studies. Additionally, phylogenetic relationships based on Maximum likelihood (ML) and Bayesian inference (BI) among whole chloroplast genomes showed that H. triflora was the basal group in Balsaminaceae and I. guizhouensis was the basal group in impatiens species. Besides this, cultivated species(I. balsamina, I. hawkeri, and I. walleriana) were clustered together. Conclusion: Our study provides detailed information about nucleotide diversity hotspots and characterized types of repeats, which can be used for developing molecular markers applicable in Balsaminaceae species. And also we reconstructed and analyzed the relationships of some impatiens species and discovered their status based on the complete chloroplast genomes. The current study might provide valuable significant genomic information for the systematics and evolution in the Balsaminaceae.

show abstract

“…Saintpaulia [21]. However, much lower size ranges have been reported in the Hosta (<85 bp) [22] and Pyrus hopeiensis (46 bp) [23] species and, thus, Str. ionanthus cp genomes can be termed as relatively variable.…”

Section: Analysis Of Genome Featuresmentioning

confidence: 93%

The First Glimpse of Streptocarpus ionanthus (Gesneriaceae) Phylogenomics: Analysis of Five Subspecies’ Chloroplast Genomes

Kyalo

Mkala

et al. 2020

Plants

View full text Add to dashboard Cite

Streptocarpus ionanthus (Gesneriaceae) comprise nine herbaceous subspecies, endemic to Kenya and Tanzania. The evolution of Str. ionanthus is perceived as complex due to morphological heterogeneity and unresolved phylogenetic relationships. Our study seeks to understand the molecular variation within Str. ionanthus using a phylogenomic approach. We sequence the chloroplast genomes of five subspecies of Str. ionanthus, compare their structural features and identify divergent regions. The five genomes are identical, with a conserved structure, a narrow size range (170 base pairs (bp)) and 115 unique genes (80 protein-coding, 31 tRNAs and 4 rRNAs). Genome alignment exhibits high synteny while the number of Simple Sequence Repeats (SSRs) are observed to be low (varying from 37 to 41), indicating high similarity. We identify ten divergent regions, including five variable regions (psbM, rps3, atpF-atpH, psbC-psbZ and psaA-ycf3) and five genes with a high number of polymorphic sites (rps16, rpoC2, rpoB, ycf1 and ndhA) which could be investigated further for phylogenetic utility in Str. ionanthus. Phylogenomic analyses here exhibit low polymorphism within Str. ionanthus and poor phylogenetic separation, which might be attributed to recent divergence. The complete chloroplast genome sequence data concerning the five subspecies provides genomic resources which can be expanded for future elucidation of Str. ionanthus phylogenetic relationships.

show abstract

Complete chloroplast genomes of all six Hosta species occurring in Korea: molecular structures, comparative, and phylogenetic analyses

Cited by 51 publications

References 53 publications

Insights into Phylogenetic Relationships and Genome Evolution of Subfamily Commelinoideae (Commelinaceae Mirb.) Inferred from Complete Chloroplast Genomes

Insights into Phylogenetic Relationships and Genome Evolution of Subfamily Commelinoideae (Commelinaceae Mirb.) Inferred from Complete Chloroplast Genomes

Comparative Chloroplast Genome Analysis of Impatiens Species (Balsaminaceae) in the Karst Area of China: Insights Into Genome Evolution and Phylogenomic Implications.

The First Glimpse of Streptocarpus ionanthus (Gesneriaceae) Phylogenomics: Analysis of Five Subspecies’ Chloroplast Genomes

Contact Info

Product

Resources

About