Raquel Santos da Silva scite author profile

Raquel Santos da Silva

5Publications

17Citation Statements Received

127Citation Statements Given

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114

Affiliations

Federal University of Paraná

Publications

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The plastome sequence of Bactris gasipaes and evolutionary analysis in tribe Cocoseae (Arecaceae)

et al. 2021

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The family Arecaceae is distributed throughout tropical and subtropical regions of the world. Among the five subfamilies, Arecoideae is the most species-rich and still contains some ambiguous inter-generic relationships, such as those within subtribes Attaleinae and Bactridineae. The hypervariable regions of plastid genomes (plastomes) are interesting tools to clarify unresolved phylogenetic relationships. We sequenced and characterized the plastome of Bactris gasipaes (Bactridinae) and compared it with eight species from the three Cocoseae sub-tribes (Attaleinae, Bactridinae, and Elaeidinae) to perform comparative analysis and to identify hypervariable regions. The Bactris gasipaes plastome has 156,646 bp, with 113 unique genes. Among them, four genes have an alternative start codon (cemA, rps19, rpl2, and ndhD). Plastomes are highly conserved within tribe Cocoseae: 97.3% identity, length variation of ~2 kb, and a single ~4.5 kb inversion in Astrocaryum plastomes. The LSC/IR and IR/SSC junctions vary among the subtribes: in Bactridinae and Elaeidinae the rps19 gene is completely contained in the IR region; in the subtribe Attaleinae the rps19 gene is only partially contained in the IRs. The hypervariable regions selected according to sequence variation (SV%) and frequency of parsimony informative sites (PIS%) revealed plastome regions with great potential for molecular analysis. The ten regions with greatest SV% showed higher variation than the plastid molecular markers commonly used for phylogenetic analysis in palms. The phylogenetic trees based on the plastomes and the hypervariable regions (SV%) datasets had well-resolved relationships, with consistent topologies within tribe Cocoseae, and confirm the monophyly of the subtribes Bactridinae and Attaleinae.

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Characterization of the complete plastid genome of Butia eriospatha (Arecaceae)

et al. 2020

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Butia eriospatha is an endemic palm species from the Atlantic Rainforest in Brazil, a biodiversity hotspot. This species is currently listed in the IUCN red list as vulnerable and lacks specific plastid markers for population genetics studies. In addition, the evolutionary relationship within the genus Butia is not yet well resolved. Here, we sequenced and characterized the complete plastid genome (plastome) sequence of B. eriospatha. The complete plastome sequence is 154,048 bp in length, with the typical quadripartite structure. This plastome length and genes content is consistent with other six species from tribe Cocoseae. However, the Inverted Repeat (IR) borders show some variation among the analyzed species from this tribe. Species from the Bactridinae (Astrocaryum and Acrocomia) and Elaeidinae (Elaeis) subtribes present the rps19 gene completely duplicated in the IR region. In contrast, all plastomes sequenced from the subtribe Attaleinae (Butia, Cocos, Syagrus) present one complete CDS of rps19 and one partial copy of rps19. The difference in the IR/LSC junctions between Attaleinae and the sister clades Bactridinae + Elaeidinae might be considered an evolutionary signal and the plastome sequence of B. eriopatha may be used in future studies of population genetics and phylogeny.

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The complete plastid genome of Bactris riparia (Arecaceae) and a comparative analysis in Bactridinae (Cocoseae, Arecaceae)

et al. 2022

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Here we sequenced and characterized the complete plastome of Bactris riparia, a species closely related to B. gasipaes and widely distributed in Western Amazonia. We performed a comparative genomic analysis with B. riparia and the other four Bactridinae species retrieved from GenBank. The plastome of B. riparia was 156,715 bp with a quadripartite structure. Gene content included 86 protein-coding genes (CDS), 38 tRNAs, and 8 rRNAs. Bactris riparia has 69 more base pairs than B. gasipaes, with identical numbers in IR, and more in LSC and SSC. The comparative analysis indicated that structure, collinearity, and IR/SSC borders of plastomes within subtribe Bactridinae are, in general, conserved. We predicted 69 SSRs in B. riparia plastome. Among them, ~80% consisted of A/T homopolymers. Among the 52 variable CDS, rbcL showed the highest non-synonymous rate, while the rps15 gene had the highest synonymous rate. Three genes (ccsA, cemA, and rpoC1) presented evidence of positive selection and 22 genes showed evidence of purifying selection. The phylogenetic tree based on plastome sequences set Bactris as more closely related to Astrocaryum than to Acrocomia. These new plastome data of B. riparia will contribute to studies about the diversity, evolutionary history, and conservation of palms.

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Domesticação de plantas

et al. 2021

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Quando Charles Darwin apresen- tou sua teoria da seleção natural em 1859, ele começou com uma apresen- tação sobre a domesticação de ani- mais e plantas porque sabia que todo mundo entenderia de algo relativo ao cotidiano. Ele descreveu exemplos da variabilidade de animais e plantas dos quais ele cuidava no próprio jar- dim e também exemplares que eram cuidados em jardins de seus amigos. Darwin explicou que o acúmulo de variabilidade ocorre por seleção in- consciente, porque as pessoas que- riam tipos diferentes das espécies que lhes interessavam, mas não tinham a intenção de mudar as populações, so- mente de ter mais tipos (variabilida- de). Observe que domesticação é uma interação entre humanos e plantas, e que pode gerar benefícios para ambas as partes. Os humanos podem apro- veitar-se dos produtos das plantas e de sua companhia; as plantas podem ser favorecidas por receberem cuida- dos humanos em um espaço seguro. É por isto que a domesticação é con- siderada um exemplo de co-evolução. Neste ensaio estudamos este proces- so com mais atenção para demonstrar como a interação gerou mudanças em plantas nativas das Américas, espe- cialmente da América do Sul.

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Malassezia Pachydermatis Isoladas De Otites De Cães E Gatos: Identificação Molecular E Susceptibilidade in Vitro a Óleos Essenciais

Silva¹,

Tonani²,

Kress³

2020

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