Dr. Luis Caspeta Guadarrama
Investigador
Número de registros: 1
- Activos
- Manipulación del estado redox intracelular de saccharomyces cerevisiae para la producción de ácido succínico y etanol, DIRECCIÓN GENERAL DE ASUNTOS DEL PERSONAL ACADÉMICO/UNIVERSIDAD NACIONAL AUTÓNOMA DE MÉXICO, 2019 - 2020
Doctorado, en Ciencias, Instituto de Biotecnología-UNAM
Maestría, Biotecnología, Centro de Investigación en Biotecnología-UAEM
Licenciatura, Ingeniería Química, Facultad de Ciencias Químicas e Ingeniería-UAEM
Total de publicaciones: 23
- Tipo
- Fecha
Artículo
1 - Caspeta, L., Coronel, J., de Oca, A. M., Abarca, E., Gonzalez, L., Martinez, A. (2019). Engineering high-gravity fermentations for ethanol production at elevated-temperature with Saccharomyces cerevisiae.
Biotechnology and Bioengineering,
116 (10),
2587-2597.
Artículo
2 - Bertrand,B., Trejo-Hernandez,M.R., Morales-Guzman,D., Caspeta,L., Suarez-Rodriguez R., Martinez-Morales,F. (2016). Functional expression, production, and biochemical characterization of a laccase using yeast surface display technology.
Fungal Biology,
120 (12),
1609-1622.
*
Artículo
3 - Caspeta,L., Chen,Y., Nielsen,J. (2016). Thermotolerant yeasts selected by adaptive evolution express heat stress response at 30 degrees C.
Scientific Reports,
6,
27003.
*
Revisión
4 - Caspeta,L., Castillo,T., Nielsen,J. (2015). Modifying Yeast Tolerance to Inhibitory Conditions of Ethanol Production Processes.
Frontiers in Bioengineering and Biotechnology,
3,
184.
*
Artículo
5 - Caspeta,L., Nielsen,J. (2015). Thermotolerant Yeast Strains Adapted by Laboratory Evolution Show Trade-Off at Ancestral Temperatures and Preadaptation to Other Stresses.
MBio,
6 (4),
e00431.
*
Artículo
6 - Caspeta,L., Caro-Bermudez,M.A., Ponce-Noyola,T., Martinez,A. (2014). Enzymatic hydrolysis at high-solids loadings for the conversion of agave bagasse to fuel ethanol.
Applied Energy,
113,
277-286.
Artículo
7 - Caspeta,L., Chen,Y., Ghiaci,P., Feizi,A., Buskov,S., Hallstrom,B.M., Petranovic,D., Nielsen,J. (2014). Biofuels. Altered sterol composition renders yeast thermotolerant.
Science,
346 (6205),
75-78.
*
Revisión
8 - Caspeta,L., Nielsen,J. (2013). Toward systems metabolic engineering of Aspergillus and Pichia species for the production of chemicals and biofuels.
Biotechnology Journal,
8 (5),
534-544.
*
Carta
9 - Caspeta,L., Nielsen,J. (2013). Economic and environmental impacts of microbial biodiesel.
Nature Biotechnology,
31 (9),
789-793.
*
Artículo
10 - Caspeta,L., Lara,A.R., Perez,N.O., FLORES,N., Bolivar,F., Ramirez,O.T. (2013). Enhancing thermo-induced recombinant protein production in Escherichia coli by temperature oscillations and post-induction nutrient feeding strategies.
Journal of Biotechnology,
167 (1),
47-55.
Artículo
11 - Caspeta,L., Shoaie,S., Agren,R., Nookaew,I., Nielsen,J. (2012). Genome-scale metabolic reconstructions of Pichia stipitis and Pichia pastoris and in silico evaluation of their potentials.
BMC Systems Biology,
6,
24.
*
Artículo
12 - Lara,A.R., Knabben,I., Regestein,L., Sassi,J., Caspeta,L., Ramirez,O.T., Buchs,J. (2011). Comparison of oxygen enriched air vs. pressure cultivations to increase oxygen transfer and to scale-up plasmid DNA production fermentations.
Engineering in Life Sciences,
11 (4),
382-386.
Artículo
13 - Soto,R., Caspeta,L., Barron,B., Gosset,G., Ramirez,O.T., Lara,A.R. (2011). High cell-density cultivation in batch mode for plasmid DNA production by a metabolically engineered E. coli strain with minimized overflow metabolism.
Biochemical Engineering Journal,
56 (3),
165-171.
Revisión
14 - Valdez-Cruz,N.A., Caspeta,L., Perez,N.O., Ramirez,O.T., Trujillo-Roldan,M.A. (2010). Production of recombinant proteins in E. coli by the heat inducible expression system based on the phage lambda pL and/or pR promoters.
Microbial Cell Factories,
9 (1),
18.
Artículo
15 - Caspeta,L., FLORES,N., Perez,N.O., Bolivar,F., Ramirez,O.T. (2009). The effect of heating rate on Escherichia coli metabolism, physiological stress, transcriptional response, and production of temperature-induced recombinant protein: a scale-down study.
Biotechnology and Bioengineering,
102 (2),
468-482.
Artículo
16 - Lara,A.R., Caspeta,L., Gosset,G., Bolivar,F., Ramirez,O.T. (2008). Utility of an Escherichia coli strain engineered in the substrate uptake system for improved culture performance at high glucose and cell concentrations: An alternative to fed-batch cultures.
Biotechnology and Bioengineering,
99 (4),
893-901.
Artículo
17 - Villarreal,M.L., Caspeta,L., Quintero-Ramirez,R. (2008). From the Mayan Highlands to the Bioreactors: In Vitro Tissue Culture of the Mexican Medicinal Plant Solanum chrysotrichum.
Electronic Journal of Integrative Biosciences,
3 (1),
20-28.
*
Artículo
18 - Caspeta,L., Quintero,R., Villarreal,M.L. (2005). Novel airlift reactor fitting for hairy root cultures: developmental and performance studies.
Biotechnology Progress,
21 (3),
735-740.
*
Artículo
19 - Caspeta,L., Nieto,I., Zamilpa,A., Alvarez,L., Quintero,R., Villarreal,M.L. (2005). Solanum chrysotrichum hairy root cultures: characterization, scale-up and production of five antifungal saponins for human use.
Planta Medica,
71 (11),
1084-1087.
*
Internacional
20 - Caspeta,L., Salas-Navarrete,P.C. (2019). Reduction of the Saccharomyces cerevisiae Genome: Challenges and Perspectives. Minimal Cells: Design, Construction, Biotechnological Applications.
117-139,
Cham: Springer International Publishing.
Internacional
21 - Caspeta, L., Castillo, T. (2017). Systems Metabolic Engineering of Saccharomyces cerevisiae for Production of Biochemicals from Biomass. Engineering of Microorganisms for the Production of Chemicals and Biofuels from Renewable Resources.
31-65,
Cham.
*
Editorial Material
22 - Caspeta,L., Buijs,N.A.A., Nielsen,J. (2013). The role of biofuels in the future energy supply.
Energy & Environmental Science,
6 (4),
1077-1082.
*
23 - Caspeta Guadarrama, Luis (2009). Escalamiento descendente del proceso de produccion de proteina heterologa por termoinduccion de cultivos de alta densidad celular de Escherichia coli : estudio de la respuesta transcripcional al choque termico .
Instituto de Biotecnologia,
Doctorado en Ciencias Bioquimicas,
UNAM.
Asesor: Ramirez, Octavio T.
Artículo
24 - Caspeta, L., Coronel, J., de Oca, A. M., Abarca, E., Gonzalez, L., Martinez, A.. Engineering high-gravity fermentations for ethanol production at elevated-temperature with Saccharomyces cerevisiae.
Biotechnology and Bioengineering,
116 (10),
2587-2597.
Internacional
25 - Caspeta,L., Salas-Navarrete,P.C.. Reduction of the Saccharomyces cerevisiae Genome: Challenges and Perspectives. Minimal Cells: Design, Construction, Biotechnological Applications.
117-139,
Cham: Springer International Publishing.
Internacional
26 - Caspeta, L., Castillo, T.. Systems Metabolic Engineering of Saccharomyces cerevisiae for Production of Biochemicals from Biomass. Engineering of Microorganisms for the Production of Chemicals and Biofuels from Renewable Resources.
31-65,
Cham.
*
Artículo
27 - Bertrand,B., Trejo-Hernandez,M.R., Morales-Guzman,D., Caspeta,L., Suarez-Rodriguez R., Martinez-Morales,F.. Functional expression, production, and biochemical characterization of a laccase using yeast surface display technology.
Fungal Biology,
120 (12),
1609-1622.
*
Artículo
28 - Caspeta,L., Chen,Y., Nielsen,J.. Thermotolerant yeasts selected by adaptive evolution express heat stress response at 30 degrees C.
Scientific Reports,
6,
27003.
*
Revisión
29 - Caspeta,L., Castillo,T., Nielsen,J.. Modifying Yeast Tolerance to Inhibitory Conditions of Ethanol Production Processes.
Frontiers in Bioengineering and Biotechnology,
3,
184.
*
Artículo
30 - Caspeta,L., Nielsen,J.. Thermotolerant Yeast Strains Adapted by Laboratory Evolution Show Trade-Off at Ancestral Temperatures and Preadaptation to Other Stresses.
MBio,
6 (4),
e00431.
*
Artículo
31 - Caspeta,L., Caro-Bermudez,M.A., Ponce-Noyola,T., Martinez,A.. Enzymatic hydrolysis at high-solids loadings for the conversion of agave bagasse to fuel ethanol.
Applied Energy,
113,
277-286.
Artículo
32 - Caspeta,L., Chen,Y., Ghiaci,P., Feizi,A., Buskov,S., Hallstrom,B.M., Petranovic,D., Nielsen,J.. Biofuels. Altered sterol composition renders yeast thermotolerant.
Science,
346 (6205),
75-78.
*
Revisión
33 - Caspeta,L., Nielsen,J.. Toward systems metabolic engineering of Aspergillus and Pichia species for the production of chemicals and biofuels.
Biotechnology Journal,
8 (5),
534-544.
*
Carta
34 - Caspeta,L., Nielsen,J.. Economic and environmental impacts of microbial biodiesel.
Nature Biotechnology,
31 (9),
789-793.
*
Artículo
35 - Caspeta,L., Lara,A.R., Perez,N.O., FLORES,N., Bolivar,F., Ramirez,O.T.. Enhancing thermo-induced recombinant protein production in Escherichia coli by temperature oscillations and post-induction nutrient feeding strategies.
Journal of Biotechnology,
167 (1),
47-55.
Editorial Material
36 - Caspeta,L., Buijs,N.A.A., Nielsen,J.. The role of biofuels in the future energy supply.
Energy & Environmental Science,
6 (4),
1077-1082.
*
Artículo
37 - Caspeta,L., Shoaie,S., Agren,R., Nookaew,I., Nielsen,J.. Genome-scale metabolic reconstructions of Pichia stipitis and Pichia pastoris and in silico evaluation of their potentials.
BMC Systems Biology,
6,
24.
*
Artículo
38 - Lara,A.R., Knabben,I., Regestein,L., Sassi,J., Caspeta,L., Ramirez,O.T., Buchs,J.. Comparison of oxygen enriched air vs. pressure cultivations to increase oxygen transfer and to scale-up plasmid DNA production fermentations.
Engineering in Life Sciences,
11 (4),
382-386.
Artículo
39 - Soto,R., Caspeta,L., Barron,B., Gosset,G., Ramirez,O.T., Lara,A.R.. High cell-density cultivation in batch mode for plasmid DNA production by a metabolically engineered E. coli strain with minimized overflow metabolism.
Biochemical Engineering Journal,
56 (3),
165-171.
Revisión
40 - Valdez-Cruz,N.A., Caspeta,L., Perez,N.O., Ramirez,O.T., Trujillo-Roldan,M.A.. Production of recombinant proteins in E. coli by the heat inducible expression system based on the phage lambda pL and/or pR promoters.
Microbial Cell Factories,
9 (1),
18.
Artículo
41 - Caspeta,L., FLORES,N., Perez,N.O., Bolivar,F., Ramirez,O.T.. The effect of heating rate on Escherichia coli metabolism, physiological stress, transcriptional response, and production of temperature-induced recombinant protein: a scale-down study.
Biotechnology and Bioengineering,
102 (2),
468-482.
42 - Caspeta Guadarrama, Luis. Escalamiento descendente del proceso de produccion de proteina heterologa por termoinduccion de cultivos de alta densidad celular de Escherichia coli : estudio de la respuesta transcripcional al choque termico .
Instituto de Biotecnologia,
Doctorado en Ciencias Bioquimicas,
UNAM.
Asesor: Ramirez, Octavio T.
Artículo
43 - Lara,A.R., Caspeta,L., Gosset,G., Bolivar,F., Ramirez,O.T.. Utility of an Escherichia coli strain engineered in the substrate uptake system for improved culture performance at high glucose and cell concentrations: An alternative to fed-batch cultures.
Biotechnology and Bioengineering,
99 (4),
893-901.
Artículo
44 - Villarreal,M.L., Caspeta,L., Quintero-Ramirez,R.. From the Mayan Highlands to the Bioreactors: In Vitro Tissue Culture of the Mexican Medicinal Plant Solanum chrysotrichum.
Electronic Journal of Integrative Biosciences,
3 (1),
20-28.
*
Artículo
45 - Caspeta,L., Quintero,R., Villarreal,M.L.. Novel airlift reactor fitting for hairy root cultures: developmental and performance studies.
Biotechnology Progress,
21 (3),
735-740.
*
Artículo
46 - Caspeta,L., Nieto,I., Zamilpa,A., Alvarez,L., Quintero,R., Villarreal,M.L.. Solanum chrysotrichum hairy root cultures: characterization, scale-up and production of five antifungal saponins for human use.
Planta Medica,
71 (11),
1084-1087.
*