IBT-UNAM : Dr. Luis Cardenas Torres
Dr. Luis Cardenas Torres Grupo
Departamento de Biología Molecular de Plantas
Teléfonos
Oficina +52 (777) 329-1653 red UNAM 27653 Laboratorio +52 (777) 329-1666 red UNAM 27666
- Licenciatura: en Biología, Universidad Veracruzana, Departamento de Biología (1991)
Travel award for young scientist The American Society of Microbiology (2000) Premio al merito universitario 2000 UNAM (2000)
Estudiantes Biol. Marissa Tavira
IBQ. Pamela Carolina Jiménez
M.C. Mariana Esther Cesario
Biol. Thelma Jacqueline Parra
M.C. Edgar José Pascual
Publicaciones recientes
Ortega-Ortega,Y. Carrasco-Castilla,J. Juarez-Verdayes,M.A. Toscano-Morales,R. Fonseca-Garcia,C. Nava,N. Cardenas,L. Quinto,C.
2020. Actin Depolymerizing Factor Modulates Rhizobial Infection and Nodule Organogenesis in Common Bean International Journal of Molecular Sciences, 21, .
Jimenez-Jimenez,S. Santana,O. Lara-Rojas,F. Arthikala,M.K. Armada,E. Hashimoto,K. Kuchitsu,K. Salgado,S. Aguirre,J. Quinto,C. Cardenas,L.
2019. Differential tetraspanin genes expression and subcellular localization during mutualistic interactions in Phaseolus vulgaris PLoS ONE, 14, e0219765.
Jimenez-Jimenez,S. Hashimoto,K. Santana,O. Aguirre,J. Kuchitsu,K. Cardenas,L.
2019. Emerging roles of tetraspanins in plant inter-cellular and inter-kingdom communication Plant Signaling and Behavior, 14, e1581559.
Mendieta-Serrano,M.A. Mendez-Cruz,F.J. Antunez-Mojica,M. Schnabel,D. Alvarez,L. Cardenas,L. Lomeli,H. Ruiz-Santiesteban,J.A. Salas-Vidal,E.
2019. NADPH-Oxidase-derived reactive oxygen species are required for cytoskeletal organization, proper localization of E-cadherin and cell motility during zebrafish epiboly Free Radical Biology and Medicine, 130, 82-98.
Gutierrez-Alanis,D. Ojeda-Rivera,J.O. Yong-Villalobos,L. Cardenas-Torres,L. Herrera-Estrella,L.
2018. Adaptation to Phosphate Scarcity: Tips from Arabidopsis Roots Trends in Plant Science, 23, 721-730.
Jimenez-Nopala,G. Salgado-Escobar,A.E. Cevallos-Porta,D. Cardenas,L. Sepulveda-Jimenez,G. Cassab,G. Porta,H.
2018. Autophagy mediates hydrotropic response in Arabidopsis thaliana roots Plant Science, 272, 1-13.
Arthikala,M.K. Montiel,J. Sanchez-Lopez,R. Nava,N. Cardenas,L. Quinto,C.
2017. Respiratory Burst Oxidase Homolog Gene A Is Crucial for Rhizobium Infection and Nodule Maturation and Function in Common Bean Frontiers in Plant Science, 8, 2003-2003.
Ponce,G. Corkidi,G. Eapen,D. Lledias,F. Cardenas,L. Cassab,G.
2017. Root hydrotropism and thigmotropism in Arabidopsis thaliana are differentially controlled by redox status Plant Signaling and Behavior, 12, e1305536.
Estrada-Navarrete,G. Cruz-Mireles,N. Lascano,R. Alvarado-Affantranger,X. Hernandez-Barrera,A. Barraza,A. Olivares,J.E. Arthikala,M.K. Cardenas,L. Quinto,C. Sanchez,F.
2016. An autophagy-related kinase is essential for the symbiotic relationship between Phaseolus vulgaris and both rhizobia and arbuscular mycorrhizal fungi Plant Cell, 28, 2326-2341.
Formey,D. Martin-Rodriguez,J.A. Leija,A. Santana,O. Quinto,C. Cardenas,L. Hernandez,G.
2016. Regulation of Small RNAs and Corresponding Targets in Nod Factor-Induced Phaseolus vulgaris Root Hair Cells International Journal of Molecular Sciences, 17, .
Montiel,J. Arthikala,M.K. Cardenas,L. Quinto,C.
2016. Legume NADPH Oxidases Have Crucial Roles at Different Stages of Nodulation International Journal of Molecular Sciences, 17, art no 680.
Hernandez-Barrera,A. Velarde-Buendia,A. Zepeda,I. Sanchez,F. Quinto,C. Sanchez-Lopez,R. Cheung,A.Y. Wu,H. Cardenas,L.
2015. Hyper, a Hydrogen Peroxide Sensor, Indicates the Sensitivity of the Arabidopsis Root Elongation Zone to Aluminum Treatment Sensors (Basel), 15, 855-867.
Quinto,C. Sanchez-Lopez,R. Cardenas,L. Montiel,J. Arthikala,M.K. Nava,N. Santana,O.
2014. The symbiosis between Phaseolus vulgaris and rhizobia Legume Perspectives, 2, 35-37.
Banuelos-Vazquez,L.A. Sanchez,R. Hernandez-Barrera,A. Zepeda-Jazo,I. Sanchez,F. Quinto,C. Cardenas-Torres,L.
2014. Actin polymerization drives polar growth in Arabidopsis root hair cells Plant Signaling and Behavior, 9, e29401.
Arthikala,M.K. Sanchez-Lopez,R. Nava,N. Santana,O. Cardenas,L. Quinto,C.
2014. RbohB, a Phaseolus vulgaris NADPH oxidase gene, enhances symbiosome number, bacteroid size, and nitrogen fixation in nodules and impairs mycorrhizal colonization New Phytologist, 202, 886-900.
Zepeda,I. Sanchez-Lopez,R. Kunkel,J. Banuelos,L.A. Hernandez-Barrera,A. Sanchez,F. Quinto,C. Cardenas,L.
2014. Visualization of highly dynamic F-actin plus ends in growing Phaseolus vulgaris root hair cells and their responses to Rhizobium etli Nod factors Plant and Cell Physiology, 55, 580-592.
Arthikala,M.K. Montiel,J. Nava,N. Santana,O. Sanchez-Lopez,R. Cardenas,L. Quinto,C.
2013. PvRbohB negatively regulates Rhizophagus irregularis colonization in Phaseolus vulgaris Plant and Cell Physiology, 54, 1391-1402.
Montiel,J. Nava,N. Cardenas,L. Sanchez-Lopez,R. Arthikala,M.K. Santana,O. Sanchez,F. Quinto,C.
2012. A Phaseolus vulgaris NADPH Oxidase Gene Is Required For Root Infection By Rhizobia Plant and Cell Physiology, 53, 1751-1767.
Varga,Z. Gurrola-Briones,G. Papp,F. Rodriguez de la Vega,R.C. Pedraza-Alva,G. Tajhya,R.B. Gaspar,R. Cardenas,L. Rosenstein,Y. Beeton,C. Possani,L.D. Panyi,G.
2012. Vm24, a Natural Immunosuppressant Peptide Potently and Selectively Blocks Kv1.3 Potassium Channels of Human T Cells Molecular Pharmacology, 82, 372-382.
De Los Santos-Briones,C. Cardenas,L. Estrada-Navarrete,G. Santana,O. Minero-Garcia,Y. Quinto,C. Sanchez,F.
2009. GTPgammaS antagonizes the mastoparan-induced in vitro activity of PIP-phospholipase C from symbiotic root nodules of Phaseolus vulgaris Physiologia Plantarum, 135, 237-245.
Cardenas,L.
2009. New findings in the mechanisms regulating polar growth in root hair cells Plant Signaling and Behavior, 4, 4-8.
Cardenas,L. Quinto,C.
2008. Reactive oxygen species (ROS) as early signals in root hair cells responding to rhizobial nodulation factors Plant Signaling and Behavior, 3, 1101-1102.
Cardenas,L. Martinez,A. Sanchez,F. Quinto,C.
2008. Fast, transient and specific intracellular ROS changes in living root hair cells responding to Nod factors (NFs) Plant Journal, 56, 802-813.
Cardenas,L. Lovy-Wheeler,A. Kunkel,J.G. Hepler,P.K.
2008. Pollen Tube Growth Oscillations and Intracellular Calcium Levels are Reversibly Modulated by Actin Polymerization Plant Physiology, 146, 1611-1621.
Lovy-Wheeler,A. Cardenas,L. Kunkel,J.G. Hepler,P.K.
2007. Differential organelle movement on the actin cytoskeleton in lily pollen tubes Cell Motility and the Cytoskeleton, 64, 217-232.
Cardenas,L. McKenna,S.T. Kunkel,J.G. Hepler,P.K.
2006. NAD(P)H Oscillates in Pollen Tubes and Is Correlated with Tip-Growth Plant Physiology, 142, 1460-1468.
Cardenas,L. Aleman,E. Nava,N. Santana,O. Sanchez,F. Quinto,C.
2006. Early responses to Nod factors and mycorrhizal colonization in a non-nodulating Phaseolus vulgaris mutant Planta, 223, 746-754.
Hepler,P.K. Bosch,M. Cardenas,L. Lovy-Wheeler,A. McKenna,S.T. Wilsen,K. Kunkel,J.
2005. Oscillatory Pollen Tube Growth: Imaging the Underlying Structures and Physiological Processes Microscopy and Microanalysis, 11, 148-149 * .
Lazzaro,M.D. Cardenas,L. Bhatt,A.P. Justus,C.D. Phillips,M.S. Holdaway-Clarke,T.L. Hepler,P.K.
2005. Calcium gradients in conifer pollen tubes; dynamic properties differ from those seen in angiosperms Journal of Experimental Botany, 56, 2619-2628.
Cardenas,L. Lovy-Wheeler,A. Wilsen,K.L. Hepler,P.K.
2005. Actin polymerization promotes the reversal of streaming in the apex of pollen tubes Cell Motility and the Cytoskeleton, 61, 112-127.
Cardenas,L. Thomas-Oates,J.E. Nava,N. Lopez-Lara,I. Hepler,P.K. Quinto,C.
2003. The role of nod factor substituents in actin cytoskeleton rearrangements in Phaseolus vulgaris Molecular Plant-Microbe Interactions, 16, 326-334.
Camas,A. Cardenas,L. Quinto,C. Lara,M.
2002. Expression of different calmodulin genes in bean (Phaseolus vulgaris L.): role of nod factor on calmodulin gene regulation Molecular Plant-Microbe Interactions, 15, 428-436.
Cardenas,L. Holdaway-Clarke,T.L. Sanchez,F. Quinto,C. Feijo,J.A. Kunkel,J.G. Hepler,P.K.
2000. Ion changes in legume root hairs responding to Nod factors Plant Physiology, 123, 443-452.
Nunez,C. Moreno,S. Cardenas,L. Soberon-Chavez,G. Espin,G.
2000. Inactivation of the ampDE operon increases transcription of algD and affects morphology and encystment of Azotobacter vinelandii Journal of Bacteriology, 182, 4829-4835.
Sanchez,F. Cardenas,L. Quinto,C.
1999. Biological nitrogen fixation and future challenges of agriculture. The endophytic connection Advances in Experimental Medicine and Biology, 464, 107-115.
Cardenas,L. Feijo,J.A. Kunkel,J.G. Sanchez,F. Holdaway-Clarke,T. Hepler,P.K. Quinto,C.
1999. Rhizobium nod factors induce increases in intracellular free calcium and extracellular calcium influxes in bean root hairs Plant Journal, 19, 347-352.
Cardenas,L. Vidali,L. Dominguez,J. Perez,H. Sanchez,F. Hepler,P.K. Quinto,C.
1998. Rearrangement of actin microfilaments in plant root hairs responding to rhizobium etli nodulation signals Plant Physiology, 116, 871-877.
Cardenas,L. Dominguez,J. Santana,O. Quinto,C.
1996. The role of the nodI and nodJ genes in the transport of Nod metabolites in Rhizobium etli Gene, 173, 183-187.
Cardenas,L. Dominguez,J. Quinto,C. Lopez-Lara,I.M. Lugtenberg,B.J. Spaink,H.P. Rademaker,G.J. Haverkamp,J. Thomas-Oates,J.E.
1995. Isolation, chemical structures and biological activity of the lipo-chitin oligosaccharide nodulation signals from Rhizobium etli Plant Molecular Biology, 29, 453-464.
Cardenas-Torres,L. 2014. Las bacterias del suelo y su enorme contribucion al bienestar de las plantas: una historia de ayuda mutua en: Rebolledo,F. Un Mundo de Bacterias. UNAM, Campus Morelos. pags. 47-53
Hernandez-Barrera,A. Quinto,C. Johnson,E.A. Wu,H.M. Cheung,A.Y. Cardenas,L. 2013. Using hyper as a molecular probe to visualize hydrogen peroxide in living plant cells: a method with virtually unlimited potential in plant biology en: Packer,L. Methods in Enzymology. pags. 275-290
Quinto,C. Cardenas,L. 2008. Diálogo para ganar: interacción simbiótica entre una bacteria del suelo y el frijol en: *agustin Una ventana al quehacer científico. Instituto de Biotecnología de la UNAM 25 aniversario, cap 24. Mexico, D.F.. UNAM. pags. 273-280
Quinto,C. Cardenas,L. Aleman,E. Nava,N. (error para dajazu@yahoo.com) Santana,O. 2006. Cellular and molecular approaches to study the primary events od the phaseolus vulgaris-Rhizobium etli interaction en: Geiger,O. Biology of Plant-Microbe Interactions, vol 5. St Paul, Minnesota. pags. 500-503
Cardenas,L. Santana,O. Nava,N. Quinto,C. 2006. Early actin polymerization and ROS changes in Phaseolis vulgaris root hairs responding to Rhizobium Etli Nod factors en: Geiger,O. Biology of Plant-Microbe Interactions, vol 5. St Paul, Minnesota. International Society for Molecular Plant-Microbe Interactions. pags. 86-89
Cardenas,L. Hepler,P. Sanchez,F. Quinto,C. 2002. Early reponses in the rhizobium legume interaction en: Recent research developments in plant physiology. Research Signposts. pags. 1-5
Quinto,C. Cardenas,L. Balleza,D. Gomez,F. Nava,N. Aleman,N. Hernandez,N. Santana,O. 2001. Early reponses in the rhizobium-legume interaction en: Nitrogen Fixation Research Center XX Anniversary. pags. 20-26
Cardenas,L. Feijo,J.A. Kunkel,J.G. Vidali,L. Dominguez,C. Sanchez,F. Hepler,P.K. Quinto,C. 1999. Extracellular Calcium Flux in Root Hairs Responding to Nodulation Factors en: Hernandez,G. Highlights of nitrogen fixation research. New York. Kluwer Academic/Plenum Publishers. pags. 149-152
Otras Publicaciones Pacheco-Coeto,R. Cardenas-Torres,L. Hernandez-Rosas,F. Hidalgo-Contreras,J. Aquino-Pérez,G.
2019. Calosa y especies reactivas de oxígeno expresadas en hojas de caña de azúcar por daño mecánico de mosca pinta (Aeneolamia albofasciata) Revista Mexicana de Ciencias Agricolas, No esp 22, 105-114.
* Indica publicación con otra institución de adscripción
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