Sheila Avoga scite author profile

Sheila Avoga

2Publications

34Citation Statements Received

92Citation Statements Given

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Affiliations

Wuhan Botanical Garden, Chinese Academy of Sciences, University of Chinese Academy of Sciences

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Comparative genomics of 11 complete chloroplast genomes of Senecioneae (Asteraceae) species: DNA barcodes and phylogenetics

Gichira

Avoga

et al. 2019

Bot Stud

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Background Majority of the species within Senecioneae are classified in Senecio , making it the tribe’s largest genus. Certain intergeneric relationships within the tribe are vaguely defined, with the genus Senecio being partly linked to this ambiguity. Infrageneric relationships within Senecio remain largely unknown and consequently, the genus has undergone continuous expansion and contraction over the recent past due to addition and removal of taxa. Dendrosenecio , an endemic genus in Africa, is one of its segregate genera. To heighten the understanding of species divergence and phylogeny within the tribe, the complete chloroplast genomes of the first five Senecio and six Dendrosenecio species were sequenced and analyzed in this study. Results The entire length of the complete chloroplast genomes was ~ 150 kb and ~ 151 kb in Dendrosenecio and Senecio respectively. Characterization of the 11 chloroplast genomes revealed a significant degree of similarity particularly in their organization, gene content, repetitive sequence composition and patterns of codon usage. The chloroplast genomes encoded an equal number of unique genes out of which 80 were protein-coding genes, 30 transfer ribonucleic acid, and four ribosomal ribonucleic acid genes. Based on comparative sequence analyses, the level of divergence was lower in Dendrosenecio . A total of 331 and 340 microsatellites were detected in Senecio and Dendrosenecio, respectively. Out of which, 25 and five chloroplast microsatellites (cpSSR) were identified as potentially valuable molecular markers. Also, through whole chloroplast genome comparisons and DNA polymorphism tests, ten divergent hotspots were identified. Potential primers were designed creating genomic tools to further molecular studies within the tribe. Intergeneric relationships within the tribe were firmly resolved using genome-scale dataset in partitioned and unpartitioned schemes. Two main clades, corresponding to two subtribes within the Senecioneae, were formed with the genus Ligularia forming a single clade while the other had Dendrosenecio, Pericallis, Senecio and Jacobaea . A sister relationship was revealed between Dendrosenecio and Pericallis whereas Senecio, and Jacobaea were closely placed in a different clade. Conclusion Besides emphasizing on the potential of chloroplast genome data in resolving intergeneric relationships within Senecioneae, this study provides genomic resources to facilitate species identification and phylogenetic recon...

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The complete plastome of real yellow wood (Podocarpus latifolius): gene organization and comparison with related species

Saina

Gichira

et al. 2019

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Podocarpus latifolius[(Thunb.) R.Br.exMirb.], also known as real yellow wood, is a large evergreen tree with exceptionally high-quality wood. It is a member of the Podocarpaceae family, which includes many species widely grown for wood pulp as well as timber for construction. Despite its importance, studies focusing on its genetic characterization and molecular biology are limited. Therefore, this study reports the complete plastome ofP. latifolius, which is a circular molecule of 134 020 base pairs (bp) in length, lacking a quadripartite structure. TheP. latifoliusplastome encodes 117 unique genes, consisting of 82 protein-coding genes, 31 transfer RNA genes and four ribosomal RNA genes. The analysis showed that the Podocarpaceae plastomes have experienced some intron and gene losses, inversions, and inverted repeat (IR) loss resulting in a diverse plastome organization at the species and genus levels. Therefore, to understand the extent of these genomic rearrangements, more sampling of the Podocarpaceae plastomes is necessary. A total of 149 editing sites were predicted in 28 genes, all of which were C to U conversions. Moreover, a total of 164 simple sequence repeats (SSRs) were identified in theP. latifoliusplastome, the majority being mononucleotide repeat motifs with A/T sequence predominance. Overall, the data obtained in this study will be useful for population genetics, evolutionary history and phylogenetic studies of the species in this genus.

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Sheila Avoga

Comparative genomics of 11 complete chloroplast genomes of Senecioneae (Asteraceae) species: DNA barcodes and phylogenetics

The complete plastome of real yellow wood (Podocarpus latifolius): gene organization and comparison with related species

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