Characterization of the complete chloroplast genome of the Eastern gamagrass, Tripsacum dactyloides

doi:10.1080/23802359.2017.1413312

. 2017 Dec 7;2(2):910-912.

doi: 10.1080/23802359.2017.1413312.

Characterization of the complete chloroplast genome of the Eastern gamagrass, Tripsacum dactyloides

Yanfang Wang¹, Mingzhu Zhao², Li Li², Kangyu Wang²

Affiliations

¹ College of Traditional Chinese Medicine, Jilin Agricultural University, Changchun, China.
² College of Life Science, Jilin Agricultural University, Changchun, China.

PMID: 33474032
PMCID: PMC7800761
DOI: 10.1080/23802359.2017.1413312

Characterization of the complete chloroplast genome of the Eastern gamagrass, Tripsacum dactyloides

Yanfang Wang et al. Mitochondrial DNA B Resour. 2017.

. 2017 Dec 7;2(2):910-912.

doi: 10.1080/23802359.2017.1413312.

Authors

Yanfang Wang¹, Mingzhu Zhao², Li Li², Kangyu Wang²

Affiliations

¹ College of Traditional Chinese Medicine, Jilin Agricultural University, Changchun, China.
² College of Life Science, Jilin Agricultural University, Changchun, China.

PMID: 33474032
PMCID: PMC7800761
DOI: 10.1080/23802359.2017.1413312

Abstract

Tripsacum dactyloides, known as eastern gamagrass, is used as a donor of valuable traits. It grows naturally in the same region where maize is commercially cultured in the USA and has the ability to hybridize to maize. The wild genotype of eastern gamagrass is threaten by the gene flow from the transgenic maize. The circular genome is 141,050 bp in length and contains 120 genes, including 73 protein-coding genes (PCG), 39 transfer RNA genes (tRNA) and eight ribosomal RNA genes (rRNA). The overall nucleotide composition is: 30.8% A, 19.2% C, 19.3% G, 30.7% T, with a total G + C content of 38.5%. The phylogenetic tree was constructed to explore the taxonomic status of Tripsacum dactyloides, which contributes to phylogenetic studies and further conservation strategies for this species.

Keywords: Tripsacum dactyloides; chloroplast genome; illumina sequencing; phylogenetic analysis.

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Conflict of interest statement

The authors have declared that no competing interests exist.

Figures

**Figure 1.**
Phylogenetic relationships among 57 plant chloroplast genomes. This tree was drawn without setting of an outgroup. All nodes exhibit above 90% bootstraps. The length of branch represents the divergence distance.

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Montenegro JD, Julca I, Chumbe-Nolasco LD, Rodríguez-Pérez LM, Sevilla Panizo R, Medina-Hoyos A, Gutiérrez-Reynoso DL, Guerrero-Abad JC, Amasifuen Guerra CA, García-Serquén AL. Montenegro JD, et al. Plants (Basel). 2022 Oct 15;11(20):2727. doi: 10.3390/plants11202727. Plants (Basel). 2022. PMID: 36297753 Free PMC article.

References

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[1] Andrews S. 2010. FastQC: a quality control tool for high throughput sequence data. http://www.bioinformatics.babraham.ac.uk/projects/fastqc

[2] Andrews S. 2010. FastQC: a quality control tool for high throughput sequence data. http://www.bioinformatics.babraham.ac.uk/projects/fastqc

[3] Bankevich A, Nurk S, Antipov D, Gurevich AA, Dvorkin M, Kulikov AS, Lesin VM, Nikolenko SI, Pham S, Prjibelski AD.. 2012. SPAdes: a new genome assembly algorithm and its applications to single-cell sequencing. J Comput Biol. 19:455–477. - PMC - PubMed

[4] Bankevich A, Nurk S, Antipov D, Gurevich AA, Dvorkin M, Kulikov AS, Lesin VM, Nikolenko SI, Pham S, Prjibelski AD.. 2012. SPAdes: a new genome assembly algorithm and its applications to single-cell sequencing. J Comput Biol. 19:455–477. - PMC - PubMed

[5] Bergquist R. 1981. Transfer from Tripsacum dactyloides to corn of a major gene locus conditioning resistance to Puccinia sorghi. Phytopathology. 71:518–520.

[6] Bergquist R. 1981. Transfer from Tripsacum dactyloides to corn of a major gene locus conditioning resistance to Puccinia sorghi. Phytopathology. 71:518–520.

[7] Berthaud J, Savidan Y.. 1989. Genetic resources of Tripsacum and gene transfer to maize.

[8] Berthaud J, Savidan Y.. 1989. Genetic resources of Tripsacum and gene transfer to maize.

[9] Bi G, Mao Y, Xing Q, Cao M.. 2017. HomBlocks: a multiple-alignment construction pipeline for organelle phylogenomics based on locally collinear block searching. Genomics. [accessed 2017 Aug 3]. DOI:10.1016/j.ygeno.2017.08.001 - DOI - PubMed

[10] Bi G, Mao Y, Xing Q, Cao M.. 2017. HomBlocks: a multiple-alignment construction pipeline for organelle phylogenomics based on locally collinear block searching. Genomics. [accessed 2017 Aug 3]. DOI:10.1016/j.ygeno.2017.08.001 - DOI - PubMed

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Characterization of the complete chloroplast genome of the Eastern gamagrass, Tripsacum dactyloides

Affiliations

Characterization of the complete chloroplast genome of the Eastern gamagrass, Tripsacum dactyloides

Authors

Affiliations

Abstract

Conflict of interest statement

Figures

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