Contacto
Campos de conocimiento
Biotecnología
Líneas de investigación
Producción de biocombustibles, biorrefinerias, pretratamiento de residuos lingocelulósicos, ingeniería metabólica de Eschericia coli, bioprocesos
Publicaciones
Sierra-Ibarra,E., Vargas-Tah,A., Moss-Acosta,C.L., Trujillo-Martinez,B., Molina-Vazquez, E.R., Rosas-Aburto,A., Valdivia-Lopez,A., Hernandez-Luna,M., Vivaldo-Lima,E., Martinez,A. (2022). Co-Fermentation of Glucose-Xylose Mixtures from Agroindustrial Residues by Ethanologenic Escherichia coli: A Study on the Lack of Carbon Catabolite Repression in Strain MS04. Molecules, 27 (24), 8941. Factor impacto 4.2
Vera-Lopez-Portillo,F., Sierra-Ibarra,E., Vera-Estrella,R., Revah,S., Ramirez,O.T., Caspeta,L., Martinez,A. (2022). Growth and phycocyanin production with Galdieria sulphuraria UTEX 2919 using xylose, glucose, and corn stover hydrolysates under heterotrophy and mixotrophy. Algal Research, 65. Factor impacto 5.2
Wagner,E., Sierra-Ibarra,E., Rojas,N.L., Martinez,A. (2022). One-pot bioethanol production from brewery spent grain using the ethanologenic Escherichia coli MS04. Renewable Energy, 189, 717-725. Factor impacto 9.0
Sierra-Ibarra, E., Alcaraz-Cienfuegos, J., Vargas-Tah, A., Rosas-Aburto, A., Valdivia-López, Á., Hernández-Luna, M. G., & Martinez, A. (2022). Ethanol production by Escherichia coli from detoxified lignocellulosic teak wood hydrolysates with high concentration of phenolic compounds. Journal of Industrial Microbiology and Biotechnology, 49(2). Factor de impacto 3.2
Sierra-Ibarra,E., Leal-Reyes,L.J., Huerta-Beristain,G., Hernandez-Orihuela,A.L., Gosset,G., Martinez-Antonio,A., Martinez,A. (2021). Limited oxygen conditions as an approach to scale-up and improve D and L-lactic acid production in mineral media and avocado seed hydrolysates with metabolically engineered Escherichia coli. Bioprocess and Biosystems Engineering, 44, 379-389. Factor impacto 3.5
Werlang,E.B., Julich,J., Muller,M.V.G., de Farias Neves,F., Sierra-Ibarra,E., Martinez,A., Schneider,R.C.S. (2020). Bioethanol from hydrolyzed Spirulina (Arthrospira platensis) biomass using ethanologenic bacteria. Bioresources and Bioprocessing, 7 (1), 27. Factor impacto 4.3
Werlang,E.B., Sierra-Ibarra,E., Neves,F.F., Julich,J., Martinez,A., Schneider,R.C.S. (2020). d-lactate production from Spirulina (Arthrospira platensis) biomass using lactogenic Escherichia coli. Bioresource Technology Reports, 12, 100598. Factor impacto 3.8
