Browsing by Author "Reyes, Javiera"

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    An Open One-Step RT-qPCR for SARS-CoV-2 detection
    (Public Library Science, 2024) Cerda Rojas, Ariel Patricio; Rivera, Maira; Armijo, Grace; Ibarra-Henríquez, Catalina; Reyes, Javiera; Blázquez Sánchez, Paula; Avilés, Javiera; Arce, Anibal; Seguel, Aldo; Brown, Alexander J.; Vásquez, Yesseny; Cortez-San Martín, Marcelo; Cubillos, Francisco A.; García, Patricia; Ferrés, Marcela; Ramírez Sarmiento, César Antonio; Federici, Fernan; Gutiérrez, Rodrigo A.
    The COVID-19 pandemic has resulted in millions of deaths globally, and while several diagnostic systems were proposed, real-time reverse transcription polymerase chain reaction (RT-PCR) remains the gold standard. However, diagnostic reagents, including enzymes used in RT-PCR, are subject to centralized production models and intellectual property restrictions, which present a challenge for less developed countries. With the aim of generating a standardized One-Step open RT-qPCR protocol to detect SARS-CoV-2 RNA in clinical samples, we purified and tested recombinant enzymes and a non-proprietary buffer. The protocol utilized M-MLV RT and Taq DNA pol enzymes to perform a Taqman probe-based assay. Synthetic RNA samples were used to validate the One-Step RT-qPCR components, demonstrating sensitivity comparable to a commercial kit routinely employed in clinical settings for patient diagnosis. Further evaluation on 40 clinical samples (20 positive and 20 negative) confirmed its comparable diagnostic accuracy. This study represents a proof of concept for an open approach to developing diagnostic kits for viral infections and diseases, which could provide a cost-effective and accessible solution for less developed countries.
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    An Open One-Step RT-qPCR for SARS-CoV-2 detection
    (2024) Cerda, Ariel; Rivera, Maira; Armijo, Grace; Ibarra-Henriquez, Catalina; Reyes, Javiera; Blazquez-Sanchez, Paula; Aviles, Javiera; Arce, Anibal; Seguel, Aldo; Brown, Alexander J.; Vasquez, Yesseny; Cortez-San Martin, Marcelo; Cubillos, Francisco A.; Garcia, Patricia; Ferres, Marcela; Ramirez-Sarmiento, Cesar A.; Federici, Fernan; Gutierrez, Rodrigo A.
    The COVID-19 pandemic has resulted in millions of deaths globally, and while several diagnostic systems were proposed, real-time reverse transcription polymerase chain reaction (RT-PCR) remains the gold standard. However, diagnostic reagents, including enzymes used in RT-PCR, are subject to centralized production models and intellectual property restrictions, which present a challenge for less developed countries. With the aim of generating a standardized One-Step open RT-qPCR protocol to detect SARS-CoV-2 RNA in clinical samples, we purified and tested recombinant enzymes and a non-proprietary buffer. The protocol utilized M-MLV RT and Taq DNA pol enzymes to perform a Taqman probe-based assay. Synthetic RNA samples were used to validate the One-Step RT-qPCR components, demonstrating sensitivity comparable to a commercial kit routinely employed in clinical settings for patient diagnosis. Further evaluation on 40 clinical samples (20 positive and 20 negative) confirmed its comparable diagnostic accuracy. This study represents a proof of concept for an open approach to developing diagnostic kits for viral infections and diseases, which could provide a cost-effective and accessible solution for less developed countries.
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    Antarctic Polyester Hydrolases Degrade Aliphatic and Aromatic Polyesters at Moderate Temperatures
    (2022) Blazquez-Sanchez, Paula; Engelberger, Felipe; Cifuentes-Anticevic, Jeronimo; Sonnendecker, Christian; Grinen, Aransa; Reyes, Javiera; Diez, Beatriz; Guixe, Victoria; Richter, P. Konstantin; Zimmermann, Wolfgang; Ramirez-Sarmiento, Cesar A.
    Polyethylene terephthalate (PET) is one of the most widely used synthetic plastics in the packaging industry, and consequently has become one of the main components of plastic waste found in the environment. However, several microorganisms have been described to encode enzymes that catalyze the depolymerization of PET. While most known PET hydrolases are thermophilic and require reaction temperatures between 60 degrees C and 70 degrees C for an efficient hydrolysis of PET, a partial hydrolysis of amorphous PET at lower temperatures by the polyester hydrolase IsPETase from the mesophilic bacterium Ideonella sakaiensis has also been reported. We show that polyester hydrolases from the Antarctic bacteria Moraxella sp. strain TA144 (Mors1) and Oleispira antarctica RB-8 (OaCut) were able to hydrolyze the aliphatic polyester polycaprolactone as well as the aromatic polyester PET at a reaction temperature of 25 degrees C. Mors1 caused a weight loss of amorphous PET films and thus constitutes a PET-degrading psychrophilic enzyme. Comparative modeling of Mors1 showed that the amino acid composition of its active site resembled both thermophilic and mesophilic PET hydrolases. Lastly, bioinformatic analysis of Antarctic metagenomic samples demonstrated that members of the Moraxellaceae family carry candidate genes coding for further potential psychrophilic PET hydrolases.
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    Three-Dimensional Domain Swapping Changes the Folding Mechanism of the Forkhead Domain of FoxP1
    (2016) Medina, Exequiel; Córdova, Cristóbal; Villalobos, Pablo; Reyes, Javiera; Komives, Elizabeth A.; Ramirez Sarmiento, Cesar Antonio; Jorge Babul