Extreme Reconfiguration of Plastid Genomes in Papaveraceae: Rearrangements, Gene Loss, Pseudogenization, IR Expansion, and Repeats

Cao, Jialiang; Wang, Hongwei; Cao, Yanan; Kan, Shenglong; Li, Jiamei; Liu, Yanyan

doi:10.3390/ijms25042278

Cited by 4 publications

(1 citation statement)

References 83 publications

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“…These genomes not only encode enzymes and proteins necessary for photosynthesis but also harbor a substantial number of noncoding sequences, providing rich information for molecular biology and evolutionary studies. In particular, the conserved and nonrecombinant nature of the chloroplast genome makes it highly valuable for species identification, genetic relationship analysis and the study of biological evolution [12][13][14][15][16].…”

Section: Introductionmentioning

confidence: 99%

Comparative chloroplast genomics and phylogenetic analysis of Oreomecon nudicaulis (Papaveraceae)

Zhan,

Huang,

Xue

et al. 2024

BMC Genom Data

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Oreomecon nudicaulis, commonly known as mountain poppy, is a significant perennial herb. In 2022, the species O. nudicaulis, which was previously classified under the genus Papaver, was reclassified within the genus Oreomecon. Nevertheless, the phylogenetic status and chloroplast genome within the genus Oreomecon have not yet been reported. This study elucidates the chloroplast genome sequence and structural features of O. nudicaulis and explores its evolutionary relationships within Papaveraceae. Using Illumina sequencing technology, the chloroplast genome of O. nudicaulis was sequenced, assembled, and annotated. The results indicate that the chloroplast genome of O. nudicaulis exhibits a typical circular quadripartite structure. The chloroplast genome is 153,903 bp in length, with a GC content of 38.87%, containing 84 protein-coding genes, 8 rRNA genes, 38 tRNA genes, and 2 pseudogenes. The genome encodes 25,815 codons, with leucine (Leu) being the most abundant codon, and the most frequently used codon is AUU. Additionally, 129 microsatellite markers were identified, with mononucleotide repeats being the most abundant (53.49%). Our phylogenetic analysis revealed that O. nudicaulis has a relatively close relationship with the genus Meconopsis within the Papaveraceae family. The phylogenetic analysis supported the taxonomic status of O. nudicaulis, as it did not form a clade with other Papaver species, consistent with the revised taxonomy of Papaveraceae. This is the first report of a phylogenomic study of the complete chloroplast genome in the genus Oreomecon, which is a significant genus worldwide. This analysis of the O. nudicaulis chloroplast genome provides a theoretical basis for research on genetic diversity, molecular marker development, and species identification, enriching genetic information and supporting the evolutionary relationships among Papaveraceae.

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Section: Introductionmentioning

confidence: 99%

Comparative chloroplast genomics and phylogenetic analysis of Oreomecon nudicaulis (Papaveraceae)

Zhan,

Huang,

Xue

et al. 2024

BMC Genom Data

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Intracellular gene transfer (IGT) events from the mitochondrial genome to the plastid genome of the subtribe ferulinae drude (Apiaceae) and their implications

Jo,

Park,

Yusupov

et al. 2024

BMC Plant Biol

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Chloroplast genome sequencing in winged bean (Psophocarpus tetragonolobus L.) and comparative analysis with other legumes

Singh,

Giddhi

et al. 2024

Preprint

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The winged bean (Psophocarpus tetragonolobus) is a fast-growing, underutilized legume thriving in hot, humid regions. It forms symbiotic associations with a broad-spectrum cowpea rhizobial group, making it ideal for crop rotation or intercropping systems. Winged bean seeds are rich in protein, fiber, vitamins, minerals, fat, and carbohydrates, highlighting its potential as a valuable agricultural crop. In this study, we conducted whole-genome sequencing of the winged bean chloroplast using high-coverage short-read sequencing on the Illumina platform, generating over 1 billion paired-end raw reads. We utilized the GetOrganelle toolkit to assemble the chloroplast genome comprising 130 genes, including 85 protein-coding genes, 37 tRNAs, and eight rRNA genes. We also identified 84 perfect SSRs, two compound SSRs, and 15 VNTRs. Our analysis revealed the typical quadripartite structure of the chloroplast genome, along with insights into its functional classification and phylogenetic relationships with other legumes. Additionally, we identified possible genomic rearrangements through synteny analysis. Characterizing the winged bean chloroplast genome provides crucial resources for research and crop improvement. Comparative genomics of the chloroplast offers significant insights into the evolutionary and molecular biology of legumes.

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Extreme Reconfiguration of Plastid Genomes in Papaveraceae: Rearrangements, Gene Loss, Pseudogenization, IR Expansion, and Repeats

Cited by 4 publications

References 83 publications

Comparative chloroplast genomics and phylogenetic analysis of Oreomecon nudicaulis (Papaveraceae)

Comparative chloroplast genomics and phylogenetic analysis of Oreomecon nudicaulis (Papaveraceae)

Intracellular gene transfer (IGT) events from the mitochondrial genome to the plastid genome of the subtribe ferulinae drude (Apiaceae) and their implications

Chloroplast genome sequencing in winged bean (Psophocarpus tetragonolobus L.) and comparative analysis with other legumes

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