Development and Optimization of a Multiplex Real-Time RT-PCR to Detect SARS-CoV-2 in Human Samples

Camilo Castellar-Mendoza; María Angélica Calderón-Peláez; Jaime E. Castellanos; Myriam L. Velandia-Romero; Carolina Coronel-Ruiz; Sigrid Camacho-Ortega; Lilia J. Bernal-Cepeda; Lady López-Ibarra; Jhann A. Arturo; Félix G. Delgado; Hernando Gutierrez-Barbosa; Sonia Bohorquez-Avila; Johanna Madroñero; Zayda L. Corredor-Rozo; Sandra J. Perdomo-Lara; Angela Fonseca-Benitez; Eliana Calvo

doi:10.1155/2024/4894004

Development and Optimization of a Multiplex Real-Time RT-PCR to Detect SARS-CoV-2 in Human Samples

Camilo Castellar-Mendoza, María Angélica Calderón-Peláez, Jaime E. Castellanos, Myriam L. Velandia-Romero, Carolina Coronel-Ruiz, Sigrid Camacho-Ortega, Lilia J. Bernal-Cepeda, Lady López-Ibarra, Jhann A. Arturo, Félix G. Delgado, Hernando Gutierrez-Barbosa, Sonia Bohorquez-Avila, Johanna Madroñero, Zayda L. Corredor-Rozo, Sandra J. Perdomo-Lara, Angela Fonseca-Benitez, Eliana Calvo

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2 Citas (Scopus)

Resumen

PCR and its variants (RT-PCR and qRT-PCR) are valuable and innovative molecular techniques for studying nucleic acids. qPCR has proven to be highly sensitive, efficient, and reproducible, generating reliable results that are easy to analyze. During the COVID-19 pandemic, qPCR became the gold standard technique for detecting the SARS-CoV-2 virus that allowed to confirm the infection event, and those asymptomatic ones, and thus save millions of lives. In-house multiplex qPCR tests were developed worldwide to detect different viral targets and ensure results, follow the infections, and favor the containment of a pandemic. Here, we present the detailed fundamentals of the qPCR technique based on fluorogenic probes and processes to develop and optimize a successful multiplex RT-qPCR test for detecting SARS-CoV-2 that could be used to diagnose COVID-19 accurately.

Idioma original	Inglés
Número de artículo	4894004
Publicación	International Journal of Microbiology
Volumen	2024
DOI	https://doi.org/10.1155/2024/4894004
Estado	Publicada - 11 mar. 2024
Publicado de forma externa	Sí

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Castellar-Mendoza, C., Calderón-Peláez, M. A., Castellanos, J. E., Velandia-Romero, M. L., Coronel-Ruiz, C., Camacho-Ortega, S., Bernal-Cepeda, L. J., López-Ibarra, L., Arturo, J. A., Delgado, F. G., Gutierrez-Barbosa, H., Bohorquez-Avila, S., Madroñero, J., Corredor-Rozo, Z. L., Perdomo-Lara, S. J., Fonseca-Benitez, A., & Calvo, E. (2024). Development and Optimization of a Multiplex Real-Time RT-PCR to Detect SARS-CoV-2 in Human Samples. International Journal of Microbiology, 2024, Artículo 4894004. https://doi.org/10.1155/2024/4894004

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title = "Development and Optimization of a Multiplex Real-Time RT-PCR to Detect SARS-CoV-2 in Human Samples",

abstract = "PCR and its variants (RT-PCR and qRT-PCR) are valuable and innovative molecular techniques for studying nucleic acids. qPCR has proven to be highly sensitive, efficient, and reproducible, generating reliable results that are easy to analyze. During the COVID-19 pandemic, qPCR became the gold standard technique for detecting the SARS-CoV-2 virus that allowed to confirm the infection event, and those asymptomatic ones, and thus save millions of lives. In-house multiplex qPCR tests were developed worldwide to detect different viral targets and ensure results, follow the infections, and favor the containment of a pandemic. Here, we present the detailed fundamentals of the qPCR technique based on fluorogenic probes and processes to develop and optimize a successful multiplex RT-qPCR test for detecting SARS-CoV-2 that could be used to diagnose COVID-19 accurately.",

author = "Camilo Castellar-Mendoza and Calder{\'o}n-Pel{\'a}ez, \{Mar{\'i}a Ang{\'e}lica\} and Castellanos, \{Jaime E.\} and Velandia-Romero, \{Myriam L.\} and Carolina Coronel-Ruiz and Sigrid Camacho-Ortega and Bernal-Cepeda, \{Lilia J.\} and Lady L{\'o}pez-Ibarra and Arturo, \{Jhann A.\} and Delgado, \{F{\'e}lix G.\} and Hernando Gutierrez-Barbosa and Sonia Bohorquez-Avila and Johanna Madro{\~n}ero and Corredor-Rozo, \{Zayda L.\} and Perdomo-Lara, \{Sandra J.\} and Angela Fonseca-Benitez and Eliana Calvo",

note = "Publisher Copyright: {\textcopyright} 2024 Camilo Castellar-Mendoza et al.",

year = "2024",

month = mar,

day = "11",

doi = "10.1155/2024/4894004",

language = "English",

volume = "2024",

journal = "International Journal of Microbiology",

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Castellar-Mendoza, C, Calderón-Peláez, MA, Castellanos, JE, Velandia-Romero, ML, Coronel-Ruiz, C, Camacho-Ortega, S, Bernal-Cepeda, LJ, López-Ibarra, L, Arturo, JA, Delgado, FG, Gutierrez-Barbosa, H, Bohorquez-Avila, S, Madroñero, J, Corredor-Rozo, ZL, Perdomo-Lara, SJ, Fonseca-Benitez, A & Calvo, E 2024, 'Development and Optimization of a Multiplex Real-Time RT-PCR to Detect SARS-CoV-2 in Human Samples', International Journal of Microbiology, vol. 2024, 4894004. https://doi.org/10.1155/2024/4894004

TY - JOUR

T1 - Development and Optimization of a Multiplex Real-Time RT-PCR to Detect SARS-CoV-2 in Human Samples

AU - Castellar-Mendoza, Camilo

AU - Calderón-Peláez, María Angélica

AU - Castellanos, Jaime E.

AU - Velandia-Romero, Myriam L.

AU - Coronel-Ruiz, Carolina

AU - Camacho-Ortega, Sigrid

AU - Bernal-Cepeda, Lilia J.

AU - López-Ibarra, Lady

AU - Arturo, Jhann A.

AU - Delgado, Félix G.

AU - Gutierrez-Barbosa, Hernando

AU - Bohorquez-Avila, Sonia

AU - Madroñero, Johanna

AU - Corredor-Rozo, Zayda L.

AU - Perdomo-Lara, Sandra J.

AU - Fonseca-Benitez, Angela

AU - Calvo, Eliana

PY - 2024/3/11

Y1 - 2024/3/11

N2 - PCR and its variants (RT-PCR and qRT-PCR) are valuable and innovative molecular techniques for studying nucleic acids. qPCR has proven to be highly sensitive, efficient, and reproducible, generating reliable results that are easy to analyze. During the COVID-19 pandemic, qPCR became the gold standard technique for detecting the SARS-CoV-2 virus that allowed to confirm the infection event, and those asymptomatic ones, and thus save millions of lives. In-house multiplex qPCR tests were developed worldwide to detect different viral targets and ensure results, follow the infections, and favor the containment of a pandemic. Here, we present the detailed fundamentals of the qPCR technique based on fluorogenic probes and processes to develop and optimize a successful multiplex RT-qPCR test for detecting SARS-CoV-2 that could be used to diagnose COVID-19 accurately.

AB - PCR and its variants (RT-PCR and qRT-PCR) are valuable and innovative molecular techniques for studying nucleic acids. qPCR has proven to be highly sensitive, efficient, and reproducible, generating reliable results that are easy to analyze. During the COVID-19 pandemic, qPCR became the gold standard technique for detecting the SARS-CoV-2 virus that allowed to confirm the infection event, and those asymptomatic ones, and thus save millions of lives. In-house multiplex qPCR tests were developed worldwide to detect different viral targets and ensure results, follow the infections, and favor the containment of a pandemic. Here, we present the detailed fundamentals of the qPCR technique based on fluorogenic probes and processes to develop and optimize a successful multiplex RT-qPCR test for detecting SARS-CoV-2 that could be used to diagnose COVID-19 accurately.

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SN - 1687-918X

VL - 2024

JO - International Journal of Microbiology

JF - International Journal of Microbiology

M1 - 4894004

ER -

Development and Optimization of a Multiplex Real-Time RT-PCR to Detect SARS-CoV-2 in Human Samples

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