Parámetros de electroporación para especies de microalgas marinas, usando como modelo Porphyridium cruentum

Genetic transformation of cells is a technique that has allowed the development of processes to produce heterologous proteins with functional interest and in an efficient manner. One of the methods that facilitates this process is electroporation, a common and efficient technique. It employs electri...

Full description

Autores:
Palacio Quintero, Sofía
Obando Montoya, Erika Juliana
Ortiz Mejía, Diego Alejandro
Tipo de recurso:
Fecha de publicación:
2023
Institución:
Universidad CES
Repositorio:
Repositorio Digital - Universidad CES
Idioma:
spa
OAI Identifier:
oai:repository.ces.edu.co:10946/8012
Acceso en línea:
https://hdl.handle.net/10946/8012
Palabra clave:
Electroporation
Porphyridium cruentum
Electric field
Microalgae
Genetic transformation
Protocol
Rights
closedAccess
License
http://purl.org/coar/access_right/c_14cb
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dc.title.es_ES.fl_str_mv Parámetros de electroporación para especies de microalgas marinas, usando como modelo Porphyridium cruentum
title Parámetros de electroporación para especies de microalgas marinas, usando como modelo Porphyridium cruentum
spellingShingle Parámetros de electroporación para especies de microalgas marinas, usando como modelo Porphyridium cruentum
Electroporation
Porphyridium cruentum
Electric field
Microalgae
Genetic transformation
Protocol
title_short Parámetros de electroporación para especies de microalgas marinas, usando como modelo Porphyridium cruentum
title_full Parámetros de electroporación para especies de microalgas marinas, usando como modelo Porphyridium cruentum
title_fullStr Parámetros de electroporación para especies de microalgas marinas, usando como modelo Porphyridium cruentum
title_full_unstemmed Parámetros de electroporación para especies de microalgas marinas, usando como modelo Porphyridium cruentum
title_sort Parámetros de electroporación para especies de microalgas marinas, usando como modelo Porphyridium cruentum
dc.creator.fl_str_mv Palacio Quintero, Sofía
Obando Montoya, Erika Juliana
Ortiz Mejía, Diego Alejandro
dc.contributor.author.none.fl_str_mv Palacio Quintero, Sofía
Obando Montoya, Erika Juliana
Ortiz Mejía, Diego Alejandro
dc.subject.es_ES.fl_str_mv Electroporation
Porphyridium cruentum
Electric field
Microalgae
Genetic transformation
Protocol
topic Electroporation
Porphyridium cruentum
Electric field
Microalgae
Genetic transformation
Protocol
description Genetic transformation of cells is a technique that has allowed the development of processes to produce heterologous proteins with functional interest and in an efficient manner. One of the methods that facilitates this process is electroporation, a common and efficient technique. It employs electric field pulses (PEF), which generate a potential change that alters the lipid bilayer, thus creating pores that allow the temporary entry of macromolecules. Whether or not electroporation occurs is linked to the combination of the characteristics of the electric field (number, duration, time between pulses, etc.), and the characteristics of the cellular state (geometry, temperature, etc.). Permeabilization can be reversible or irreversible, and reversible permeabilization is of particular relevance for successful transformation, since in this state the cells open their pores and subsequently their membranes regenerate, avoiding cell lysis. In the search for organisms that present interesting characteristics and on which the different transformation methodologies can be applied, we find the red microalgae Porphyridium cruentum. It has been highly studied for the functionality of its metabolites, its high growth rates, which can be regulated, and its resistance to high salinity media. Therefore, the objective of this study was to determine the effect of the electric field and the variation of electroporation parameters on the permeabilization and viability of the cells of this microalga. For this purpose, the cells were subjected to four treatments: T1 and T2 that were not electroporated, and T3 and T4 that were electroporated (2kV/cm; 10 and 50 pulses; duration of 30 and 150 µs). After the treatments, the cells were monitored. In addition, it was possible to design a PEF-generating equipment and a base protocol for future electroporation studies in cells of these microalgae and similar organisms.
publishDate 2023
dc.date.accessioned.none.fl_str_mv 2023-11-20T22:41:07Z
dc.date.available.none.fl_str_mv 2023-11-20T22:41:07Z
dc.date.issued.none.fl_str_mv 2023-11-20
dc.type.es_ES.fl_str_mv Trabajo de Grado
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spelling Palacio Quintero, Sofía18da83bd-4713-4b65-9a67-ab101ddbf0edObando Montoya, Erika Juliana52edb664-14b2-455c-b704-630acd7eb9fbOrtiz Mejía, Diego Alejandroc3247925-a7bf-434b-86e4-28cf167637812023-11-20T22:41:07Z2023-11-20T22:41:07Z2023-11-20https://hdl.handle.net/10946/8012Genetic transformation of cells is a technique that has allowed the development of processes to produce heterologous proteins with functional interest and in an efficient manner. One of the methods that facilitates this process is electroporation, a common and efficient technique. It employs electric field pulses (PEF), which generate a potential change that alters the lipid bilayer, thus creating pores that allow the temporary entry of macromolecules. Whether or not electroporation occurs is linked to the combination of the characteristics of the electric field (number, duration, time between pulses, etc.), and the characteristics of the cellular state (geometry, temperature, etc.). Permeabilization can be reversible or irreversible, and reversible permeabilization is of particular relevance for successful transformation, since in this state the cells open their pores and subsequently their membranes regenerate, avoiding cell lysis. In the search for organisms that present interesting characteristics and on which the different transformation methodologies can be applied, we find the red microalgae Porphyridium cruentum. It has been highly studied for the functionality of its metabolites, its high growth rates, which can be regulated, and its resistance to high salinity media. Therefore, the objective of this study was to determine the effect of the electric field and the variation of electroporation parameters on the permeabilization and viability of the cells of this microalga. For this purpose, the cells were subjected to four treatments: T1 and T2 that were not electroporated, and T3 and T4 that were electroporated (2kV/cm; 10 and 50 pulses; duration of 30 and 150 µs). After the treatments, the cells were monitored. 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