. Instituto de Biotecnologia UNAM

IBT-UNAM : Dr. Francisco Campos Alvarez

Dr. Francisco Campos Alvarez

Investigador
Tutor de Maestría y Doctorado
Nivel I del SNI
Grupo de la Dra. Alejandra Alicia Covarrubias

email: campos @ibt.unam.mx
Teléfonos
Oficina +52 (777) 311-4900 ext 293

Laboratorio +52 (777) 329-1668
desde la CDMX 562-27668
red UNAM 27668
+52 (777) 311-4900 ext 293

- Licenciatura: en Biología, ENEP-Iztacala-UNAM (1982)
- Maestría: en Investigacion Biomedica Basica, CIFN-UNAM (1986)
- Doctorado: en Investigacion Biomedica Basica, IBt-UNAM (1995)
- Mencion honorífica en Licenciatura y Maestría.
- Estancia de Investigación: en el laboratorio del Dr. Ramon Serrano, del Departamento de Biotecnología, Universidad Politecnica de Valencia, Espana (1993-1994)

Miembro de la Academia Mexicana de Ciencias (2001)

Publicaciones recientes

Bueso,E. Munoz-Bertomeu,J. Campos,F. Martinez,C. Tello,C. Martinez-Almonacid,I. Ballester,P. Simon-Moya,M. Brunaud,V. Yenush,L. Ferrandiz,C. Serrano,R. 2016. Arabidopsis COGWHEEL1 links light perception and gibberellins with seed tolerance to deterioration Plant Journal, 87, 583-596.

Covarrubias,A.A. Reyes,J.L. Battaglia,M. Rosales,M.A. Cuellar,S. Contreras,C. Rivera,L. De la Rosa C. Sosa,G. Rabanal,F. Velarde,A. Campos,F. Ocampo,E. Solorzano,R.M. 2014. The response to water deficit in Phaseolus vulgaris Legume Perspectives, 2, 38-41.

Bueso,E. Munoz-Bertomeu,J. Campos,F. Brunaud,V. Martinez,L. Sayas,E. Ballester,P. Yenush,L. Serrano,R. 2014. ARABIDOPSIS THALIANA HOMEOBOX 25 uncovers a role for gibberellins in seed longevity Plant Physiology, 164, 999-1010.

Rodriguez-Valentin,R. Campos,F. Battaglia,M. Solorzano,R.M. Rosales,M.A. Covarrubias,A.A. 2014. Group 6 Late Embryogenesis Abundant (LEA) Proteins in Monocotyledonous Plants: Genomic Organization and Transcript Accumulation Patterns in Response to Stress in Oryza sativa Plant Molecular Biology Reporter, 32, 198-208.

Campos,F. Cuevas-Velazquez,C. Fares,M.A. Reyes,J.L. Covarrubias,A.A. 2013. Group 1 LEA proteins, an ancestral plant protein group, are also present in other eukaryotes, and in the archeae and bacteria domains Molecular Genetics and Genomics, 288, 503-517.

Campos,F. Guillen,G. Reyes,J.L. Covarrubias,A.A. 2011. A general method of protein purification for recombinant unstructured non-acidic proteins Protein Expression and Purification, 80, 47-51.

Olvera-Carrillo,Y. Campos,F. Reyes,J.L. Garciarrubio,A. Covarrubias,A.A. 2010. Functional Analysis of the Group 4 Late Embryogenesis Abundant proteins reveals their relevance in the adaptive response during water deficit in Arabidopsis thaliana Plant Physiology, 154, 373-390.

Battaglia,M. Olvera-Carrillo,Y. Garciarrubio,A. Campos,F. Covarrubias,A.A. 2008. The Enigmatic LEA Proteins and Other Hydrophilins Plant Physiology, 148, 6-24.

Reyes,J.L. Campos,F. Wei,H. Arora,R. Yang,Y. Karlson,D.T. Covarrubias,A.A. 2008. Functional Dissection of Hydrophilins during in vitro Freeze Protection Plant Cell And Environment, 31, 1781-1790.

Estrada-Navarrete,G. Alvarado-Affantranger,X. Olivares,J.E. Guillen,G. Diaz-Camino,C. Campos,F. Quinto,C. Gresshoff,P.M. Sanchez,F. 2007. Fast, efficient and reproducible genetic transformation of Phaseolus spp. by Agrobacterium rhizogenes Nature Protocols, 2, 1819-1824.

Campos,F. Zamudio,F. Covarrubias,A.A. 2006. Two different late embryogenesis abundant proteins from Arabidopsis thaliana contain specific domains that inhibit Escherichia coli growth Biochemical and Biophysical Research Communications, 342, 406-413.

Reyes,J.L. Rodrigo,M.J. Colmenero-Flores,J.M. Gil,J.V. Garay-Arroyo,A. Campos,F. Salamini,F. Bartels,D. Covarrubias,A.A. 2005. Hydrophilins from distant organisms can protect enzymatic activities from water limitation effects in vitro Plant, Cell and Environment, 28, 709-718.

Campos-Alvarez,F. Cruz-Garcia,F. Torres-Espinosa,A. Sanchez-Jimenez,M.P. Colmenero-Flores,J.M. Smith-Espinoza,C. Covarrubias-Robles,A.A. Vazquez-Ramos,J.M. 2002. Expresión De Genes Codificantes Para Proteína, Abundantes En Embriogénesis Tardía (Lea), Durante El Osmoacondicionamiento De Semillas De Maíz Y Frijol Agrociencia, 36, 461-470.

Campos,F. Garcia-Gomez,B.I. Solorzano,R.M. Salazar,E. Estevez,J. Leon,P. Alvarez-Buylla,E.R. Covarrubias,A.A. 2001. A cDNA for nuclear-encoded chloroplast translational initiation factor 2 from a higher plant is able to complement an infB Escherichia coli null mutant Journal of Biological Chemistry, 276, 28388-28394.

Garcia-Gomez,B.I. Campos,F. Hernandez,M. Covarrubias,A.A. 2000. Two bean cell wall proteins more abundant during water deficit are high in proline and interact with a plasma membrane protein Plant Journal, 22, 277-288.

Porta,H. Rueda-Benitez,P. Campos,F. Colmenero-Flores,J.M. Colorado,J.M. Carmona,M.J. Covarrubias,A.A. Rocha-Sosa,M. 1999. Analysis of lipoxygenase mRNA accumulation in the common bean (Phaseolus vulgaris L.) during development and under stress conditions Plant and Cell Physiology, 40, 850-858.

Colmenero-Flores,J.M. Campos,F. Garciarrubio,A. Covarrubias,A.A. 1997. Characterization of Phaseolus vulgaris cDNA clones responsive to water deficit: identification of a novel late embryogenesis abundant-like protein Plant Molecular Biology, 35, 393-405.

Campos,F. Perez-Castineira,J.R. Villalba,J.M. Culianez-Marcia,F.A. Sanchez,F. Serrano,R. 1996. Localization of plasma membrane H+-ATPase in nodules of Phaseolus vulgaris L Plant Molecular Biology, 32, 1043-1053 * .

Campos,F. Carsolio,C. Kuin,H. Bisseling,T. Rocha-Sosa,M. Sanchez,F. 1995. Characterization and gene expression of nodulin Npv30 from common bean Plant Physiology, 109, 363-370.

Carsolio,C. Campos,F. Sanchez,F. Rocha-Sosa,M. 1994. The expression of a chimeric Phaseolus vulgaris nodulin 30-GUS gene is restricted to the rhizobially infected cells in transgenic Lotus corniculatus nodules Plant Molecular Biology, 26, 1995-2001.

Campos,F. Corona-Reyes,M. Zinker,S. 1990. The yeast 5S rRNA binding ribosomal protein YL3 is phosphorylated in vivo BBA, 1087, 142-146 * .

Padilla,J.E. Campos,F. Conde,V. Lara,M. Sanchez,F. 1987. Nodule-specific glutamine synthetase is expressed before the onset of nitrogen fixation in Phaseolus vulgaris L. Plant Molecular Biology, 9, 65-74 * .

Sanchez,F. Campos,F. Padilla,J. Bonneville,J.M. Enriquez,C. Caput,D. 1987. PURIFICATION, CDNA CLONING, AND DEVELOPMENTAL EXPRESSION OF THE NODULE-SPECIFIC URICASE FROM PHASEOLUS-VULGARIS L Plant Physiology, 84, 1143-1147 * .

Campos,F. Padilla,J. Vazquez,M. Ortega,J.L. Enriquez,C. Sanchez,F. 1987. Expression of nodule-specific genes in Phaseolus vulgaris L. Plant Molecular Biology, 9, 521-532 * .

Ortega,J.L. Campos,F. Sanchez,F. Lara,M. 1986. Expression of Two Different Glutamine Synthetase Polypeptides during Root Development in Phaseolus vulgaris L. Plant Physiology, 80, 1051-1054 * .

Covarrubias,A. Reyes-Taboada,J. Rodrigo,M.J. Campos,F. Colmenero,J. Garay,A. Garciarrubio,A. Bartels,D. 2001. Hydrophylins and their possible role in drought tolerance en: Nitrogen Fixation Research Center XX Anniversary. pags. 113-117

Sanchez,F. Quinto,C. Vazquez,M. Spaink,H. Wijffelman,C.A. Cevallos,M.A. de la Penas,A. Campos,F. Padilla,J. Lara,M. 1988. The symbiotic association of Phaseolus vulgaris-Rhizobium leguminosarum bv. phaseo en: Desh Pal S.Verma Molecular genetics of plant-microbe interactions, 1988 : proceedings of the 4th International Symposium on Molecular Genetics of Plant-Microbe Interactions, Acapulco, México, May 15-20, 1988. St. Paul, Minn., USA. APS Press. pags. 370-375

* Indica publicación con otra institución de adscripción