Contacto
Campos de conocimiento
Bioingeniería
Biotecnología
Genética y Fisiología Celular
Líneas de investigación
Bioingeniería celular. Relaciones entre parámetros de proceso, fisiología, crecimiento y productividad de los procesos involucrando cultivos bacterianos. Producción de biofungicidas y biopolímeros, esporulación y quorum sensing en Bacillus.
Publicaciones
Corrales-García L.L., Serrano-Carreón L., Corzo G. 2020. Improving the heterologous expression of human beta-defensin 2 (HBD2) using an experimental design. Protein Expression and Purification. 167: 105539. https://doi.org/10.1016/j.pep.2019.105539.
Riegas Villalobos A., Martínez Morales F., Tinoco Valencia R., Serrano Carreón L., Bertrand B., Trejo Hernández M.R. 2020. Efficient removal of azo-dye Orange II by fungal biomass absorption and laccase enzymatic treatment. 3 Biotech, 10:146. https://doi.org/10.1007/s13205-020-2150-5
Balderas‐Ruíz , K. A., Bustos, P., Santamaria, R.I., González, V., Cristiano‐Fajardo, S.A., Barrera‐Ortíz, S., Mezo‐Villalobos, M., Aranda‐Ocampo, S., Guevara‐García, A.A., Galindo, E., Serrano‐Carreón, L. 2020. Bacillus velezensis 83 a bacterial strain from mango phyllosphere, useful for biological control and plant growth promotion. AMB Express. 10:163. https://doi.org/10.1186/s13568‐020‐01101‐8
Flores, C., Medina-Valdez, A., Peña, C., Serrano-Carreon, L., Galindo, E. (2020). Oxygen transfer rate determines molecular weight and production of poly(beta-glutamic acid) as well as carbon utilization by Bacillus velezensis 83. Journal of Chemical Technology and Biotechnology, 95 (9), 2383-2392. https://doi.org/10.1002/jctb.6420
Balderas-Ruiz, K.A., Gómez-Guerreo, C.I., Trujillo-Roldán, M.A., Valdez-Cruz, N.A., Aranda-Ocampo, S., Juárez, A.M., Leyva, E., Galindo, E., Serrano-Carreón, L. 2021. Bacillus velezensis 83 increases productivity and quality of tomato (Solanum lycopersicum L.): Pre and postharvest assessment. Curr. Res. In Mic. Sci. 2: 100076.
Pulido-Durán, N., Flores, C., Serrano-Carreón, L., Manero, O., Galindo, E. 2022. Oxygen transfer and bubble sizes occurring in a pilot-scale cultivation of Bacillus velezensis 83 for the production of poly(-glutamic acid) under two schemes of power drawn. J. Chem. Technol. Biotechnol. 97: 1684 – 1694. (https://doi.org.com/10.1002/jctb.7034).
Serrano-Carreon, L., Aranda-Ocampo, S., Balderas-Ruiz, K.A., Juarez, A.M., Leyva, E., Trujillo- Roldan, M.A., Valdez-Cruz, N.A., Galindo, E., 2022. A case study of a profitable mid-tech greenhouse for the sustainable production of tomato, using a biofertilizer and a biofungicide
Electronic Journal of Biotechnology, 59, 13-24. (https://doi.org/10.1016/j.ejbt.2022.06.003).
Sánchez-Trasviña, C., Galindo-Estrada, J.D., Tinoco-Valencia, R., Serrano-Carreón, L., Rito-Palomares, M., Willson, R. C., Mayolo-Deloisa, K. 2023. Laccase–luminol chemiluminescence system: an investigation of substrate inhibition. Luminescense, 38:3, 341-349. (https://doi.org.com/10.1002/bio.4460).
Barrera-Ortiz S., Balderas-Ruíz K.A., López-Bucio J.S., López-Bucio J., Flores C., Galindo E., Serrano-Carreón L., Guevara-García Á.A. A Bacillus velezensis strain improves growth and root system development in Arabidopsis thaliana through cytokinin signaling. (2023) Rhizosphere, 28, art. no. 100815.
Cristiano-Fajardo S.A., Barrón-Reyes D., Flores C., Luna-Bulbarela A., Soriano-Peña E., Tinoco-Valencia R., Galindo E., Serrano-Carreón L. Production of poly-gamma-glutamic acid and spore formation in Bacillus velezensis 83 are affected by acidic growing conditions and glucose uptake rate (2024) Journal of Chemical Technology and Biotechnology, 99 (3), pp. 609 – 617.
Luna-Bulbarela A., Romero-Gutiérrez M.T., Tinoco-Valencia R., Ortiz E., Martínez-Romero M.E., Galindo E., Serrano-Carreón L. Response of Bacillus velezensis 83 to interaction with Colletotrichum gloeosporioides resembles a Greek phalanx-style formation: A stress resistant phenotype with antibiosis capacity (2024). Microbiological Research, 280, art. no. 127592
