Camila Farías scite author profile

The highly interactive nature of predator-prey relationship is essential for ecosystem conservation; predators have been extirpated, however, from entire ecosystems all over the Earth. Reintroductions comprise a management technique to reverse this trend. Species Distribution Models (SDM) are preemptive tools for release-site selection, and can define levels of habitat quality over the species distribution. The Atlantic Forest of South America has lost most of its apex predators, and Harpy Eagles Harpia harpyja —Earth’s largest eagle—are now limited to few forest pockets in this domain. Harpy Eagles are supposedly widespread in the Amazon Forest, however, where habitat loss and degradation is advancing at a rapid pace. We aim to describe the suitability of threatened Amazonian landscapes for this eagle. We also aim to assess the suitability of remaining Atlantic Forest sites for Harpy Eagle reintroductions. Here we show that that considerable eagle habitat has already been lost in Amazonia due to the expansion of the “Arc of Deforestation”, and that Amazonian forests currently represent 93% of the current distribution of the species. We also show that the Serra do Mar protected areas in southeastern Brazil is the most promising region for Harpy Eagle reintroductions in the Atlantic Forest. Reintroduction and captive breeding programs have been undertaken for Harpy Eagles, building the technical and biological basis for a successful restoration framework. Our distribution range for this species represents a 41% reduction of what is currently proposed by IUCN. Furthermore, habitat loss in Amazonia, combined with industrial logging and hunting suggest that the conservation status of this species should be reassessed. We suggest researchers and conservation practitioners can use this work to help expand efforts to conserve Harpy Eagles and their natural habitats.

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Optimization of culture conditions for the expression of three different insoluble proteins in Escherichia coli

Gutiérrez-González

Farías

Tello

et al. 2019

Sci Rep

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Recombinant protein expression for structural and therapeutic applications requires the use of systems with high expression yields. Escherichia coli is considered the workhorse for this purpose, given its fast growth rate and feasible manipulation. However, bacterial inclusion body formation remains a challenge for further protein purification. We analyzed and optimized the expression conditions for three different proteins: an anti-MICA scFv, MICA, and p19 subunit of IL-23. We used a response surface methodology based on a three-level Box-Behnken design, which included three factors: post-induction temperature, post-induction time and IPTG concentration. Comparing this information with soluble protein data in a principal component analysis revealed that insoluble and soluble proteins have different optimal conditions for post-induction temperature, post-induction time, IPTG concentration and in amino acid sequence features. Finally, we optimized the refolding conditions of the least expressed protein, anti-MICA scFv, using a fast dilution protocol with different additives, obtaining soluble and active scFv for binding assays. These results allowed us to obtain higher yields of proteins expressed in inclusion bodies. Further studies using the system proposed in this study may lead to the identification of optimal environmental factors for a given protein sequence, favoring the acceleration of bioprocess development and structural studies.

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Potential Clinical Applications of Pro-Resolving Lipids Mediators from Docosahexaenoic Acid

et al. 2023

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Docosahexaenoic acid (C22:6n-3, DHA) is the precursor of specialized pro-resolving lipid mediators (SPMs), such as resolvin, protectin, and maresin families which have been considered therapeutic bioactive compounds for human health. Growing evidence indicates that DHA and SPMs are beneficial strategies in the amelioration, regulation, and duration of inflammatory processes through different biological actions. The present review discusses the reported therapeutic benefits of SPMs on various diseases and their potential clinical applications.

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Notes on a new population of the endangered Chilean treeGomortega keule

Muñoz-Concha

Farías

Méndez

2015

New Zealand Journal of Botany

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The evergreen tree Gomortega keule (Mol.) Baillon belongs to the monotypic family Gomortegaceae and produces edible fruits. This endangered species occurs along a 200 km stretch of the coastal ranges in central Chile, fragmented in small populations at 24 localities with difficult access. Within the geographic area the present work describes a population not reported previously. Most of the 73 individuals found showed several shoots or thin trunks re-growing from damaged trees under the canopy of a forestry plantation. Only three individuals had shoots with a diameter at breast height over 10 cm. The height of the trees was less than 10 m. In more than 80% of cases, cut or burnt remains of a central trunk indicated that the original trees were damaged. These observations, and the absence of flowers, fruits and seedlings, show that the entire population is the result of vegetative regeneration. Threats posed to the species by forestry activities and fire are discussed.

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Validez y confiabilidad del cuestionario de ansiedad y miedo dental IDAF -4C+ en adultos mayores

Ríos-Erazo

Herrera-Ronda

Farías

et al. 2021

Int. j interdiscip. dent.

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Camila Farías

Species distribution modeling reveals strongholds and potential reintroduction areas for the world’s largest eagle

Optimization of culture conditions for the expression of three different insoluble proteins in Escherichia coli

Potential Clinical Applications of Pro-Resolving Lipids Mediators from Docosahexaenoic Acid

Notes on a new population of the endangered Chilean treeGomortega keule

Validez y confiabilidad del cuestionario de ansiedad y miedo dental IDAF -4C+ en adultos mayores

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