The complete chloroplast genome of Stryphnodendron adstringens (Leguminosae - Caesalpinioideae): comparative analysis with related Mimosoid species

Abstract Stryphnodendron adstringens is a medicinal plant belonging to the Leguminosae family, and it is commonly found in the southeastern savannas, endemic to the Cerrado biome. The goal of this study was to assemble and annotate the chloroplast genome of S. adstringens and to compare it with previously known genomes of the mimosoid clade within Leguminosae. The chloroplast genome was reconstructed using de novo and referenced-based assembly of paired-end reads generated by shotgun sequencing of total genomic DNA. The size of the S. adstringens chloroplast genome was 162,169 bp. This genome included a large single-copy (LSC) region of 91,045 bp, a small single-copy (SSC) region of 19,014 bp and a pair of inverted repeats (IRa and IRb) of 26,055 bp each. The S. adstringens chloroplast genome contains a total of 111 functional genes, including 77 protein-coding genes, 30 transfer RNA genes, and 4 ribosomal RNA genes. A total of 137 SSRs and 42 repeat structures were identified in S. adstringens chloroplast genome, with the highest proportion in the LSC region. A comparison of the S. adstringens chloroplast genome with those from other mimosoid species indicated that gene content and synteny are highly conserved in the clade. The phylogenetic reconstruction using 73 conserved coding-protein genes from 19 Leguminosae species was supported to be paraphyletic. Furthermore, the noncoding and coding regions with high nucleotide diversity may supply valuable markers for molecular evolutionary and phylogenetic studies at different taxonomic levels in this group.

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Complete chloroplast genome of novel Adrinandra megaphylla Hu species: molecular structure, comparative and phylogenetic analysis

Scientific Reports ◽

10.1038/s41598-021-91071-z ◽

2021 ◽

Vol 11 (1) ◽

Author(s):

Huu Quan Nguyen ◽

Thi Ngoc Lan Nguyen ◽

Thi Nhung Doan ◽

Thi Thu Nga Nguyen ◽

Mai Huong Phạm ◽

...

Keyword(s):

Chloroplast Genome ◽

De Novo ◽

Phylogenetic Reconstruction ◽

Single Copy ◽

Potential Health ◽

Protein Coding ◽

Complete Chloroplast Genome ◽

Long Read ◽

Phylogenetic Resolution ◽

Rna Genes

AbstractAdrinandra megaphylla Hu is a medicinal plant belonging to the Adrinandra genus, which is well-known for its potential health benefits due to its bioactive compounds. This study aimed to assemble and annotate the chloroplast genome of A. megaphylla as well as compare it with previously published cp genomes within the Adrinandra genus. The chloroplast genome was reconstructed using de novo and reference-based assembly of paired-end reads generated by long-read sequencing of total genomic DNA. The size of the chloroplast genome was 156,298 bp, comprised a large single-copy (LSC) region of 85,688 bp, a small single-copy (SSC) region of 18,424 bp, and a pair of inverted repeats (IRa and IRb) of 26,093 bp each; and a total of 51 SSRs and 48 repeat structures were detected. The chloroplast genome includes a total of 131 functional genes, containing 86 protein-coding genes, 37 transfer RNA genes, and 8 ribosomal RNA genes. The A. megaphylla chloroplast genome indicated that gene content and structure are highly conserved. The phylogenetic reconstruction using complete cp sequences, matK and trnL genes from Pentaphylacaceae species exhibited a genetic relationship. Among them, matK sequence is a better candidate for phylogenetic resolution. This study is the first report for the chloroplast genome of the A. megaphylla.

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Complete Chloroplast Genome Sequence and Phylogenetic Analysis of Aster tataricus

Molecules ◽

10.3390/molecules23102426 ◽

2018 ◽

Vol 23 (10) ◽

pp. 2426 ◽

Cited By ~ 9

Author(s):

Xiaofeng Shen ◽

Shuai Guo ◽

Yu Yin ◽

Jingjing Zhang ◽

Xianmei Yin ◽

...

Keyword(s):

Phylogenetic Analysis ◽

Chloroplast Genome ◽

Chinese Herb ◽

Single Copy ◽

Future Research ◽

Protein Coding ◽

Complete Chloroplast Genome ◽

Chloroplast Genome Sequence ◽

Rna Genes ◽

Small Single Copy

We sequenced and analyzed the complete chloroplast genome of Aster tataricus (family Asteraceae), a Chinese herb used medicinally to relieve coughs and reduce sputum. The A. tataricus chloroplast genome was 152,992 bp in size, and harbored a pair of inverted repeat regions (IRa and IRb, each 24,850 bp) divided into a large single-copy (LSC, 84,698 bp) and a small single-copy (SSC, 18,250 bp) region. Our annotation revealed that the A. tataricus chloroplast genome contained 115 genes, including 81 protein-coding genes, 4 ribosomal RNA genes, and 30 transfer RNA genes. In addition, 70 simple sequence repeats (SSRs) were detected in the A. tataricus chloroplast genome, including mononucleotides (36), dinucleotides (1), trinucleotides (23), tetranucleotides (1), pentanucleotides (8), and hexanucleotides (1). Comparative chloroplast genome analysis of three Aster species indicated that a higher similarity was preserved in the IR regions than in the LSC and SSC regions, and that the differences in the degree of preservation were slighter between A. tataricus and A. altaicus than between A. tataricus and A. spathulifolius. Phylogenetic analysis revealed that A. tataricus was more closely related to A. altaicus than to A. spathulifolius. Our findings offer valuable information for future research on Aster species identification and selective breeding.

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The plastid genome characteristics of a moth orchid (Phalaenopsis wilsoniii, Orchidaceae)

10.1101/2021.03.30.437522 ◽

2021 ◽

Author(s):

Keke Xia ◽

Ding-Kun Liu ◽

Jie-Yu Wang

Keyword(s):

Chloroplast Genome ◽

Phylogenetic Reconstruction ◽

Single Copy ◽

Large Single Copy ◽

Deciduous Species ◽

Total Size ◽

Protein Coding ◽

Complete Chloroplast Genome ◽

Moth Orchid ◽

Small Single Copy

Phalaenopsis wilsonii is a typical deciduous species in the horticulturally well-known genus, Phalaenopsis. Tshi species is belonging to the section Aphyllae in moth orchid, and is endemic to South China. Although the Aphyllae section display the deciduous feature that is unique in this genus, their genetic information is still insufficient and limited them as breeding parent in moth orchid. Here, we reported and characterized the complete chloroplast genome for Phalaenopsis wilsonii. We found the total size of the chloroplast genome was 145,373 bp, constituting of a large single copy (LSC) region (84,996 bp), a small single-copy region (10,668 bp) and two inverted repeats (IRs) regions (24,855 bp). Based on homologous searching on database, we annotated 76 protein-coding genes, 38 tRNA, and 8 rRNA. The phylogenetic reconstruction revealed that P. wilsonii show the closest relationship with P. lowii within subgenus Parishianae.

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The complete chloroplast genome of Saxifraga sinomontana (Saxifragaceae) and comparative analysis with other Saxifragaceae species

Revista Brasileira de Botânica ◽

10.1007/s40415-019-00561-y ◽

2019 ◽

Vol 42 (4) ◽

pp. 601-611 ◽

Cited By ~ 1

Author(s):

Yan Li ◽

Liukun Jia ◽

Zhihua Wang ◽

Rui Xing ◽

Xiaofeng Chi ◽

...

Keyword(s):

Comparative Analysis ◽

Chloroplast Genome ◽

Phylogenetic Relationships ◽

De Novo ◽

Single Copy ◽

Bootstrap Support ◽

Protein Coding ◽

Complete Chloroplast Genome ◽

Protein Coding Genes ◽

Chloroplast Genomes

Abstract Saxifraga sinomontana J.-T. Pan & Gornall belongs to Saxifraga sect. Ciliatae subsect. Hirculoideae, a lineage containing ca. 110 species whose phylogenetic relationships are largely unresolved due to recent rapid radiations. Analyses of complete chloroplast genomes have the potential to significantly improve the resolution of phylogenetic relationships in this young plant lineage. The complete chloroplast genome of S. sinomontana was de novo sequenced, assembled and then compared with that of other six Saxifragaceae species. The S. sinomontana chloroplast genome is 147,240 bp in length with a typical quadripartite structure, including a large single-copy region of 79,310 bp and a small single-copy region of 16,874 bp separated by a pair of inverted repeats (IRs) of 25,528 bp each. The chloroplast genome contains 113 unique genes, including 79 protein-coding genes, four rRNAs and 30 tRNAs, with 18 duplicates in the IRs. The gene content and organization are similar to other Saxifragaceae chloroplast genomes. Sixty-one simple sequence repeats were identified in the S. sinomontana chloroplast genome, mostly represented by mononucleotide repeats of polyadenine or polythymine. Comparative analysis revealed 12 highly divergent regions in the intergenic spacers, as well as coding genes of matK, ndhK, accD, cemA, rpoA, rps19, ndhF, ccsA, ndhD and ycf1. Phylogenetic reconstruction of seven Saxifragaceae species based on 66 protein-coding genes received high bootstrap support values for nearly all identified nodes, suggesting a promising opportunity to resolve infrasectional relationships of the most species-rich section Ciliatae of Saxifraga.

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Complete chloroplast genome sequence of a vegetative Bermudagrass cultivar Tifeagle (Cynodon dactylon × Cynodon transvaalensis)

Bangladesh Journal of Botany ◽

10.3329/bjb.v48i4.49056 ◽

2019 ◽

Vol 48 (4) ◽

pp. 1083-1089

Author(s):

Yancai Shi ◽

Shaofeng Jiang ◽

Shilian Huang

Keyword(s):

Chloroplast Genome ◽

Cynodon Dactylon ◽

Single Copy ◽

Rrna Genes ◽

Protein Coding ◽

Complete Chloroplast Genome ◽

Chloroplast Genome Sequence ◽

Common Bermudagrass ◽

Trampling Tolerance ◽

Small Single Copy

Hybrid (Cynodonn dactylon × C. transvaalensis) is a widely distributed turfgrass and shows a great value of environment, horticulture and economic. Though, the chloroplast genome of C. dactylon has been reported, it might be helpful finding reasons that triploid bermudagrass shows a better drought and trampling tolerance than common bermudagrass through comparing chloroplast genome analysis. The present results showed the complete chloroplast genome of the C. dactylon × C. transvaalensis is 134655 bp in length. The tetramerous genome contained a large single copy (LSC) region (79,998 bp), a small single copy (SSC) region (12,517 bp), and a pair of inverted repeat (IR) regions (42,140 bp). In the chloroplast genome, 116 genes were predicted, including 83 protein-coding, 29 tRNA and 4 rRNA genes. Furthermore, a total of 80 repeat sequences were identified. Only 0.23% intergenicnon-collinear sequences were found between the chloroplast genome of Cynodon dactylon × C. transvaalensis and Cynodon dactylon.

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Complete Chloroplast Genome of Michelia shiluensis and a Comparative Analysis with Four Magnoliaceae Species

Forests ◽

10.3390/f11030267 ◽

2020 ◽

Vol 11 (3) ◽

pp. 267 ◽

Cited By ~ 2

Author(s):

Yanwen Deng ◽

Yiyang Luo ◽

Yu He ◽

Xinsheng Qin ◽

Chonggao Li ◽

...

Keyword(s):

Comparative Analysis ◽

Chloroplast Genome ◽

Single Copy ◽

Closely Related Species ◽

Protein Coding ◽

Complete Chloroplast Genome ◽

Phylogenetic Studies ◽

Natural Reproduction ◽

Rare And Endangered ◽

Landscape Gardening

Michelia shiluensis is a rare and endangered magnolia species found in South China. This species produces beautiful flowers and is thus widely used in landscape gardening. Additionally, its timber is also used for furniture production. As a result of low rates of natural reproduction and increasing levels of human impact, wild M. shiluensis populations have become fragmented. This species is now classified as endangered by the IUCN. In the present study, we characterized the complete chloroplast genome of M. shiluensis and found it to be 160,075 bp in length with two inverted repeat regions (26,587 bp each), a large single-copy region (88,105 bp), and a small copy region (18,796 bp). The genome contained 131 genes, including 86 protein-coding genes, 37 tRNAs, and 8 rRNAs. The guanine-cytosine content represented 39.26% of the overall genome. Comparative analysis revealed high similarity between the M. shiluensis chloroplast genome and those of four closely related species: Michelia odora, Magnolia laevifolia, Magnolia insignis, and Magnolia cathcartii. Phylogenetic analysis shows that M. shiluensis is most closely related to M. odora. The genomic information presented in this study is valuable for further classification, phylogenetic studies, and to support ongoing conservation efforts.

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Comparative Chloroplast Genomics in Phyllanthaceae Species

Diversity ◽

10.3390/d13090403 ◽

2021 ◽

Vol 13 (9) ◽

pp. 403

Author(s):

Umar Rehman ◽

Nighat Sultana ◽

Abdullah ◽

Abbas Jamal ◽

Maryam Muzaffar ◽

...

Keyword(s):

Chloroplast Genome ◽

De Novo ◽

Single Copy ◽

Protein Coding ◽

Coding Sequences ◽

Tropical Regions ◽

Chloroplast Genomes ◽

The Family ◽

Insight Into ◽

Small Single Copy

Family Phyllanthaceae belongs to the eudicot order Malpighiales, and its species are herbs, shrubs, and trees that are mostly distributed in tropical regions. Here, we elucidate the molecular evolution of the chloroplast genome in Phyllanthaceae and identify the polymorphic loci for phylogenetic inference. We de novo assembled the chloroplast genomes of three Phyllanthaceae species, i.e., Phyllanthus emblica, Flueggea virosa, and Leptopus cordifolius, and compared them with six other previously reported genomes. All species comprised two inverted repeat regions (size range 23,921–27,128 bp) that separated large single-copy (83,627–89,932 bp) and small single-copy (17,424–19,441 bp) regions. Chloroplast genomes contained 111–112 unique genes, including 77–78 protein-coding, 30 tRNAs, and 4 rRNAs. The deletion/pseudogenization of rps16 genes was found in only two species. High variability was seen in the number of oligonucleotide repeats, while guanine-cytosine contents, codon usage, amino acid frequency, simple sequence repeats, synonymous and non-synonymous substitutions, and transition and transversion substitutions were similar. The transition substitutions were higher in coding sequences than in non-coding sequences. Phylogenetic analysis revealed the polyphyletic nature of the genus Phyllanthus. The polymorphic protein-coding genes, including rpl22, ycf1, matK, ndhF, and rps15, were also determined, which may be helpful for reconstructing the high-resolution phylogenetic tree of the family Phyllanthaceae. Overall, the study provides insight into the chloroplast genome evolution in Phyllanthaceae.

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Complete Chloroplast Genome of Castanopsis sclerophylla (Lindl.) Schott: Genome Structures, Comparative and Phylogenetic Analysis

10.1101/540617 ◽

2019 ◽

Author(s):

Xuemin Ye ◽

Dongnan Hu ◽

Yangping Guo ◽

Rongxi Sun

Keyword(s):

Phylogenetic Analysis ◽

Chloroplast Genome ◽

Gc Content ◽

Single Copy ◽

Basic Knowledge ◽

Illumina Hiseq ◽

Important Species ◽

Complete Chloroplast Genome ◽

Coding Regions ◽

Rna Genes

AbstractCastanopsis sclerophylla (Lindl.) Schott is an important species of evergreen broad-leaved forest in subtropical area and has important ecological and economic value. However, there are little studies on its chloroplast genome. In this study, the complete chloroplast genome sequences of C. sclerophylla was reported based on the Illumina Hiseq 2500 platform. The complete chloroplast genome of C. sclerophylla was 160,497bp, including a pair of inverted repeated (IRs) regions (25,675bp) that were separated by a large single copy (LSC) region of 90,255bp, and a small single copy (SSC) region of 18,892bp. The overall GC content of chloroplast genome was 36.82%. A total of 131 genes were found, of these 111 genes were unique and annotated, including 79 protein-coding genes, 27 transfer RNA genes (tRNAs), and four ribosomal RNA genes (rRNAs). Twenty-one genes were found to be duplicated in the IR regions. Comparative analysis indicated that IR contraction might be the reason for the relatively smaller chloroplast genome size of C. sclerophylla compared with other three congeneric species. Sequence analysis detected that the LSC and SSC regions were more divergent than the IR regions within the Castanopsis, furthermore, a higher divergence was found in non-coding regions than in coding regions. The maximum likelihood (ML) phylogenetic analysis showed that these four species of the genus Castanopsis formed a monophyletic clade and that C. sclerophylla is closely related to Castanopsis hainanensis with strong bootstrap values. These results not only provide basic knowledge about characteristics of C. sclerophylla and also enhance our understanding of Castanopsis species evolution within the Fagaceae family. Meanwhile, these findings will contribute to the exploration, utilization and conservation genetics of C. sclerophylla.

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Complete Chloroplast Genome Sequence and Comparative and Phylogenetic Analyses of the Cultivated Cyperus esculentus

Diversity ◽

10.3390/d13090405 ◽

2021 ◽

Vol 13 (9) ◽

pp. 405

Author(s):

Wei Ren ◽

Dongquan Guo ◽

Guojie Xing ◽

Chunming Yang ◽

Yuanyu Zhang ◽

...

Keyword(s):

Chloroplast Genome ◽

Genome Sequence ◽

Inverted Repeat ◽

Single Copy ◽

Cyperus Esculentus ◽

Crop Species ◽

Complete Chloroplast Genome ◽

Chloroplast Genome Sequence ◽

Rna Genes ◽

Small Single Copy

Cyperus esculentus produces large amounts of oil as one of the main oil storage reserves in underground tubers, making this crop species not only a promising resource for edible oil and biofuel in food and chemical industry, but also a model system for studying oil accumulation in non-seed tissues. In this study, we determined the chloroplast genome sequence of the cultivated C. esculentus (var. sativus Boeckeler). The results showed that the complete chloroplast genome of C. esculentus was 186,255 bp in size, and possessed a typical quadripartite structure containing one large single copy (100,940 bp) region, one small single copy (10,439 bp) region, and a pair of inverted repeat regions of 37,438 bp in size. Sequence analyses indicated that the chloroplast genome encodes 141 genes, including 93 protein-coding genes, 40 transfer RNA genes, and 8 ribosomal RNA genes. We also identified 396 simple-sequence repeats and 49 long repeats, including 15 forward repeats and 34 palindromes within the chloroplast genome of C. esculentus. Most of these repeats were distributed in the noncoding regions. Whole chloroplast genome comparison with those of the other four Cyperus species indicated that both the large single copy and inverted repeat regions were more divergent than the small single copy region, with the highest variation found in the inverted repeat regions. In the phylogenetic trees based on the complete chloroplast genomes of 13 species, all five Cyperus species within the Cyperaceae formed a clade, and C. esculentus was evolutionarily more related to C. rotundus than to the other three Cyperus species. In summary, the chloroplast genome sequence of the cultivated C. esculentus provides a valuable genomic resource for species identification, evolution, and comparative genomic research on this crop species and other Cyperus species in the Cyperaceae family.

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Comparative genome analysis revealed gene inversions, boundary expansion and contraction, and gene loss in Stemona sessilifolia (Miq.) Miq. chloroplast genome

10.1101/2021.02.15.431246 ◽

2021 ◽

Author(s):

Jingting Liu ◽

Mei Jiang ◽

Haimei Chen ◽

Yu Liu ◽

Chang Liu ◽

...

Keyword(s):

Chloroplast Genome ◽

Gene Loss ◽

Herbal Medicines ◽

Single Copy ◽

Asparagus Officinalis ◽

Accurate Identification ◽

Protein Coding ◽

Variable Regions ◽

Complete Chloroplast Genome ◽

Next Generation Sequencing Technology

AbstractStemona sessilifolia (Miq.) Miq., commonly known as Baibu, is one of the most popular herbal medicines in Asia. In Chinese Pharmacopoeia, Baibu has multiple authentic sources, and there are many homonym herbs sold as Baibu in the herbal medicine market. The existence of the counterfeits of Baibu brings challenges to its identification. To assist the accurate identification of Baibu, we sequenced and analyzed the complete chloroplast genome of Stemona sessilifolia using next-generation sequencing technology. The genome was 154,039 bp in length, possessing a typical quadripartite structure consisting of a pair of inverted repeats (IRs: 27,094 bp) separating by a large single copy (LSC: 81,950 bp) and a small single copy (SSC: 17,901 bp). A total of 112 unique genes were identified, including 80 protein-coding, 28 transfer RNA, and four ribosomal RNA genes. Besides, 45 tandem, 27 forward, 23 palindromic, and 72 simple sequence repeats were detected in the genome by repeat analysis. Compared with its counterfeits (Asparagus officinalis and Carludovica palmate), we found that IR expansion and SSC contraction events of Stemona sessilifolia resulted in two copies of the rpl22 gene in the IR regions and partial duplication of the ndhF gene in the SSC region. Secondly, an approximately 3-kb-long inversion was identified in the LSC region, leading to the petA and cemA gene presented in the complementary strand of the chloroplast DNA molecule. Comparative analysis revealed some highly variable regions, including trnF-GAA_ndhJ, atpB_rbcL, rps15_ycf1, trnG-UCC_trnR-UCU, ndhF_rpl32. Finally, gene loss events were investigated in the context of phylogenetic relationships. In summary, the complete plastome of Stemona sessilifolia will provide valuable information for the molecular identification of Baibu and assist in elucidating the evolution of Stemona sessilifolia.

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