Complete chloroplast genome sequence of Magnolia kwangsiensis (Magnoliaceae): implication for DNA barcoding and population genetics

Here, we report a completely sequenced plastome using Illumina/Solexa sequencing-by-synthesis (SBS) technology. The plastome of Magnolia kwangsiensis Figlar & Noot. is 159 667 bp in length with a typical quadripartite structure: 88 030 bp large single-copy (LSC) and 18 669 bp small single-copy (SSC) regions, separated by two 26 484 bp inverted repeat (IR) regions. The overall predicted gene number is 129, among which 17 genes are duplicated in IR regions. The plastome of M. kwangsiensis is identical in its gene order to previously published plastomes of magnoliids. Furthermore, the C-to-U type RNA editing frequency of 114 seed plants is positively correlated with plastome GC content and plastome length, whereas plastome length is not correlated with GC content. A total of 16 potential putative barcoding or low taxonomic level phylogenetic study markers in Magnoliaceae were detected by comparing the coding and noncoding regions of the plastome of M. kwangsiensis with that of Liriodendron tulipifera L. At least eight markers might be applied not only to Magnoliaceae but also to other taxa. The 86 mononucleotide cpSSRs that distributed in single-copy noncoding regions are highly valuable to study population genetics and conservation genetics of this endangered rare species.

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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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Construction of complete chloroplast genome of the endemic species Paphiopedilum delenatii Guillaumin (1924) of Vietnam

Vietnam Journal of Biotechnology ◽

10.15625/1811-4989/18/1/15268 ◽

2020 ◽

Vol 18 (1) ◽

pp. 87-102

Author(s):

Nguyen Thanh Diem ◽

Le Thi Ly ◽

Nguyen Huu Thuan Anh ◽

Nguyen Thanh Cong ◽

Vu Thi Huyen Trang

Keyword(s):

Chloroplast Genome ◽

Evolutionary Relationship ◽

Gc Content ◽

Single Copy ◽

Complete Chloroplast Genome ◽

Genome Data ◽

A Cell ◽

Chloroplast Genome Sequencing ◽

Small Single Copy ◽

Generation Sequencing

Chloroplasts and mitochondria are organelles that have their own genome in a cell. The chloroplast genome provides information on the evolutionary relationship and species identification, valuable markers for transgenic plants, and cloning plants, etc. The application of Next Generation Sequencing has improved the chloroplast genome sequencing. However, the assembly process of chloroplast genome is quite complicated due to the need of different complex bioinformatics tools, high configuration computer and laborous. Here we configured the process of assembling the chloroplast genome of Paphiopedilum delenatii. The assembled chloroplast genome was 160,955 bp in length, including a large and a small single copy region (LSC, SSC) separated by a pair of inverted repeats (IR). Total genes were 130 genes, GC content is 35.6%. Genome data was mapped and registered in GenBank under accession number MK463585. The optimal parameters for genome assembling were recommended. This study not only provided information for conservation of the Vietnam endemic Paphiopedilum delenatii species but also supported the genome assemble researches which could be applied on other subjects.

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Characterization of the complete chloroplast genome sequence of Vitis vinifera ‘Guifeimeigui’

Scientific Journal of Genetics and Gene Therapy ◽

10.17352/sjggt.000019 ◽

2021 ◽

pp. 001-003

Author(s):

Liu Li ◽

Yang Yang ◽

Li Xiujie ◽

Li Bo

Keyword(s):

Vitis Vinifera ◽

Gc Content ◽

Single Copy ◽

Protein Coding ◽

Complete Chloroplast Genome ◽

Chloroplast Genome Sequence ◽

Cp Genome ◽

Eurasian Species ◽

Rna Genes

Vitis vinifera ‘Guifeimeigui’ is a diploid table grape, a Eurasian species. This research first reported the complete chloroplast (cp) genome of Vitis vinifera ‘Guifeimeigui’. The size of the complete cp genome is 160,928 bp and its GC content is 37.38%, including a pair of inverted repeats (26,353 bp each) separated by large (89,150 bp) and small (19,072 bp) single-copy regions. It encodes 85 genes, including 40 protein coding genes, 37 transfer RNA genes (tRNA), and 8 ribosomal RNA genes (rRNA). The Maximum Likelihood (ML) phylogenetic tree demonstrated that Vitis vinifera ‘Guifeimeigui’ is close to Vitis vinifera.

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The Complete Chloroplast Genome of Ardisia Japonica（Thunb.）Blume

10.21203/rs.3.rs-1172649/v1 ◽

2022 ◽

Author(s):

Ruyou Deng ◽

Shujin Ding ◽

Sujie Wang ◽

Hanyao Zhang

Keyword(s):

Chloroplast Genome ◽

Gc Content ◽

Single Copy ◽

Rrna Genes ◽

Inverted Repeat Region ◽

Complete Chloroplast Genome ◽

Content Ratio ◽

Whole Plant ◽

Genome Information ◽

Small Single Copy

Abstract Ardisia japonica（Thunb）Blume is a small shrub or sub-shrub of the genus Taurus in the Taurus family. The whole plant and root of A. japonica are used for medicinal purposes. It is a common Chinese herbal medicine and a common flower. To study its complete chloroplast genome, we collected leaves and obtained chloroplast genome information through next-generation sequencing. The results showed that the length of the genome is 155,996 bp, and the GC content ratio is 37.0%. The large single-copy region (LSC) is 86803 bp, the small single-copy region (SSC) is 18080 bp, and the inverted repeat region (IR) is 25507 bp. The chloroplast genome encodes 130 genes, including 85 protein genes, 8 rRNA genes, and 37tRNA genes. By analyzing the phylogeny of A. japonica, it is found that A. japonica and other Ardisia species are closely related.

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The complete chloroplast genome sequence of Korean Neolitsea sericea (Lauraceae)

Korean Journal of Plant Taxonomy ◽

10.11110/kjpt.2021.51.3.332 ◽

2021 ◽

Vol 51 (3) ◽

pp. 332-336

Author(s):

Yoo-Jung PARK ◽

Kyeong-Sik CHEON

Keyword(s):

Genome Sequence ◽

Single Copy ◽

Likelihood Method ◽

Single Nucleotide ◽

Protein Coding ◽

Complete Chloroplast Genome ◽

Transfer Rnas ◽

Chloroplast Genome Sequence ◽

Cp Genome ◽

Small Single Copy

The complete chloroplast (cp) genome sequence of Neolitsea sericea was determined by Illumina sequencing. The complete cp genome was 152,446bp in length, containing a large single-copy region of 93,796 bp and a small single-copy region of 18,506bp, which were separated by a pair of 20,072bp inverted repeats. A total of 112 unique genes were annotated, including 78 protein-coding genes (PCGs), 30 transfer RNAs, and four ribosomal RNAs. Among the PCGs, 18 genes contained one or two introns. A very low level of sequence variation between two cp genomes of N. sericea was found with seven insertions or deletions and only one single nucleotide polymorphism. An analysis using the maximum likelihood method showed that N. sericea was closely related to Actinodaphne trichocarpa.

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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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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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The Evolution of Isochores: Evidence From SNP Frequency Distributions

Genetics ◽

10.1093/genetics/162.4.1805 ◽

2002 ◽

Vol 162 (4) ◽

pp. 1805-1810 ◽

Cited By ~ 1

Author(s):

Martin J Lercher ◽

Nick G C Smith ◽

Adam Eyre-Walker ◽

Laurence D Hurst

Keyword(s):

Population Genetics ◽

Large Scale ◽

Gc Content ◽

Nucleotide Composition ◽

Compositional Variation ◽

Mutation Bias ◽

Single Nucleotide ◽

Frequency Distributions ◽

Noncoding Regions ◽

Standard Population

AbstractThe large-scale systematic variation in nucleotide composition along mammalian and avian genomes has been a focus of the debate between neutralist and selectionist views of molecular evolution. Here we test whether the compositional variation is due to mutation bias using two new tests, which do not assume compositional equilibrium. In the first test we assume a standard population genetics model, but in the second we make no assumptions about the underlying population genetics. We apply the tests to single-nucleotide polymorphism data from noncoding regions of the human genome. Both models of neutral mutation bias fit the frequency distributions of SNPs segregating in low- and medium-GC-content regions of the genome adequately, although both suggest compositional nonequilibrium. However, neither model fits the frequency distribution of SNPs from the high-GC-content regions. In contrast, a simple population genetics model that incorporates selection or biased gene conversion cannot be rejected. The results suggest that mutation biases are not solely responsible for the compositional biases found in noncoding regions.

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Complete Chloroplast Genome of Paphiopedilum delenatii and Phylogenetic Relationships among Orchidaceae

Plants ◽

10.3390/plants9010061 ◽

2020 ◽

Vol 9 (1) ◽

pp. 61 ◽

Cited By ~ 5

Author(s):

Huyen-Trang Vu ◽

Ngan Tran ◽

Thanh-Diem Nguyen ◽

Quoc-Luan Vu ◽

My-Huyen Bui ◽

...

Keyword(s):

Chloroplast Genome ◽

Inverted Repeat ◽

Gc Content ◽

Single Copy ◽

Rrna Genes ◽

Trna Genes ◽

Complete Chloroplast Genome ◽

Critically Endangered Species ◽

Plastid Genomes ◽

Chloroplast Genomes

Paphiopedilum delenatii is a native orchid of Vietnam with highly attractive floral traits. Unfortunately, it is now listed as a critically endangered species with a few hundred individuals remaining in nature. In this study, we performed next-generation sequencing of P. delenatii and assembled its complete chloroplast genome. The whole chloroplast genome of P. delenatii was 160,955 bp in size, 35.6% of which was GC content, and exhibited typical quadripartite structure of plastid genomes with four distinct regions, including the large and small single-copy regions and a pair of inverted repeat regions. There were, in total, 130 genes annotated in the genome: 77 coding genes, 39 tRNA genes, 8 rRNA genes, and 6 pseudogenes. The loss of ndh genes and variation in inverted repeat (IR) boundaries as well as data of simple sequence repeats (SSRs) and divergent hotspots provided useful information for identification applications and phylogenetic studies of Paphiopedilum species. Whole chloroplast genomes could be used as an effective super barcode for species identification or for developing other identification markers, which subsequently serves the conservation of Paphiopedilum species.

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Complete chloroplast genome sequences of Dioscorea: Characterization, genomic resources, and phylogenetic analyses

PeerJ ◽

10.7717/peerj.6032 ◽

2018 ◽

Vol 6 ◽

pp. e6032 ◽

Cited By ~ 12

Author(s):

Zhenyu Zhao ◽

Xin Wang ◽

Yi Yu ◽

Subo Yuan ◽

Dan Jiang ◽

...

Keyword(s):

Chloroplast Genome ◽

Phylogenetic Analyses ◽

Single Copy ◽

Genome Sequences ◽

Complete Chloroplast Genome ◽

Genomic Resources ◽

Chloroplast Genomes ◽

The Family ◽

Small Single Copy

Dioscorea L., the largest genus of the family Dioscoreaceae with over 600 species, is not only an important food but also a medicinal plant. The identification and classification of Dioscorea L. is a rather difficult task. In this study, we sequenced five Dioscorea chloroplast genomes, and analyzed with four other chloroplast genomes of Dioscorea species from GenBank. The Dioscorea chloroplast genomes displayed the typical quadripartite structure of angiosperms, which consisted of a pair of inverted repeats separated by a large single-copy region, and a small single-copy region. The location and distribution of repeat sequences and microsatellites were determined, and the rapidly evolving chloroplast genome regions (trnK-trnQ, trnS-trnG, trnC-petN, trnE-trnT, petG-trnW-trnP, ndhF, trnL-rpl32, and ycf1) were detected. Phylogenetic relationships of Dioscorea inferred from chloroplast genomes obtained high support even in shortest internodes. Thus, chloroplast genome sequences provide potential molecular markers and genomic resources for phylogeny and species identification.

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