![]() | Dr. Roberto Carlos Munoz Garay Grupo de la Dra. Maria Alejandra Bravo Teléfonos Oficina +52 (777) 311-4900 ext 227Laboratorio +52 (777) 329-1624 |
Portugal,L. Munoz-Garay,C. Martinez-deCastro,D.L. Soberon,M. Bravo,A.
2017. Toxicity of Cry1A toxins from Bacillus thuringiensis to CF1 cells does not involve activation of adenylate cyclase/PKA signaling pathway Insect Biochemistry and Molecular Biology, 80, 21-31.
Zhou,M.H. Zheng,H. Si,H. Jin,Y. Peng,J.M. He,L. Zhou,Y. Munoz-Garay,C. Zawieja,D.C. Kuo,L. Peng,X. Zhang,S.L.
2014. Stromal interaction molecule 1 (STIM1) and Orai1 mediate histamine-evoked calcium entry and nuclear factor of activated T-cells (NFAT) signaling in human umbilical vein endothelial cells Journal of Biological Chemistry, 289, 29446-29456 * .
Gomez,I. Sanchez,J. Munoz-Garay,C. Matus,V. Gill,S.S. Soberon,M. Bravo,A.
2014. Bacillus thuringiensis Cry1A toxins are versatile-proteins with multiple modes of action: two distinct pre-pores are involved in toxicity Biochemical Journal, 459, 383-396.
Portugal,L. Gringorten,J.L. Caputo,G.F. Soberon,M. Munoz-Garay,C. Bravo,A.
2014. Toxicity and mode of action of insecticidal Cry1A proteins from Bacillus thuringiensis in an insect cell line, CF-1 Peptides, 53, 292-299.
Sanchez-Vasquez,L. Silva-Sanchez,J. Jimenez-Vargas,J.M. Rodriguez-Romero,A. Munoz-Garay,C. Rodriguez,M.C. Gurrola,G.B. Possani,L.D.
2013. Enhanced antimicrobial activity of novel synthetic peptides derived from vejovine and hadrurin Biochimica et Biophysica Acta (BBA), 1830, 3427-3436.
Soberon,M. Rodriguez-Almazan,C. Munoz-Garay,C. Pardo-Lopez,L. Porta,H. Bravo,A.
2012. Bacillus thuringiensis Cry and Cyt mutants useful to counter toxin action in specific environments and to overcome insect resistance in the field Pesticide Biochemistry and Physiology, 104, 111-117.
Rodriguez-Almazan,C. Reyes,E.Z. Zuniga-Navarrete,F. Munoz-Garay,C. Gomez,I. Evans,A.M. Likitvivatanavong,S. Bravo,A. Gill,S.S. Soberon,M.
2012. Cadherin binding is not a limiting step for Bacillus thuringiensis subs. israelensis Cry4Ba toxicity to Aedes aegypti larvae Biochemical Journal, 443, 711-717.
Carmona,D. Rodriguez-Almazan,C. Munoz-Garay,C. Portugal,L. Perez,C. de Maagd,R.A. Bakker,P. Soberon,M. Bravo,A.
2011. Dominant Negative Phenotype of Bacillus thuringiensis Cry1Ab, Cry11Aa and Cry4Ba Mutants Suggest Hetero-Oligomer Formation among Different Cry Toxins PLoS ONE, 6, e19952.
Rodriguez-Almazan,C. Ruiz de Escudero,I. Canton,P.E. Munoz-Garay,C. Perez,C. Gill,S.S. Soberon,M. Bravo,A.
2011. The amino- and carboxyl-terminal fragments of the Bacillus thuringiensis Cyt1Aa toxin have differential roles on toxin oligomerization and pore formation Biochemistry, 50, 388-396.
Munoz-Garay,C. Soberon,M. Bravo,A.
2010. Mode of Action of Bacillus thuringiensis-Genetically Modified Cry1AbMod and Cry1AcMod Toxins Role of Alkaline pH in Toxin Oligomerization Southwestern Entomologist, 35, 383-386.
Munoz-Garay,C. Rodriguez-Almazan,C. Aguilar,J.N. Portugal,L. Gomez,I. Saab-Rincon,G. Soberon,M. Bravo,A.
2009. Oligomerization of Cry11Aa from Bacillus thuringiensis has an important role in toxicity against Aedes aegypti Applied and Environmental Microbiology, 75, 7548-7550 [Correction vol 79 (5) p 1762].
Munoz-Garay,C. Portugal,L. Pardo-Lopez,L. Jimenez-Juarez,N. Arenas,I. Gomez,I. Sanchez-Lopez,R. Arroyo,R. Holzenburg,A. Savva,C.G. Soberon,M. Bravo,A.
2009. Characterization of the mechanism of action of the genetically modified Cry1AbMod toxin that is active against Cry1Ab-resistant insects Biochimica Et Biophysica Acta-Biomembranes, 1788, 2229-2237.
Rodriguez-Almazan,C. Zavala,L.E. Munoz-Garay,C. Jimenez-Juarez,N. Pacheco,S. Masson,L. Soberon,M. Bravo,A.
2009. Dominant negative mutants of Bacillus thuringiensis Cry1Ab toxin function as anti-toxins: demonstration of the role of oligomerization in toxicity PLoS ONE, 4, e5545-[Erratum 2013 8 (2)].
Pardo-Lopez,L. Munoz-Garay,C. Porta,H. Rodriguez-Almazan,C. Soberon,M. Bravo,A.
2009. Strategies to improve the insecticidal activity of Cry toxins from Bacillus thuringiensis Peptides, 30, 589-595.
Jimenez-Juarez,N. Munoz-Garay,C. Gomez,I. Gill,S.S. Soberon,M. Bravo,A.
2008. The pre-pore from Bacillus thuringiensis Cry1Ab toxin is necessary to induce insect death in Manduca sexta Peptides, 29, 318-323.
Perez,C. Munoz-Garay,C. Portugal,L.C. Sanchez,J. Gill,S.S. Soberon,M. Bravo,A.
2007. Bacillus thuringiensis ssp. israelensis Cyt1Aa enhances activity of Cry11Aa toxin by facilitating the formation of a pre-pore oligomeric structure Cellular Microbiology, 9, 2931-2937.
Jimenez-Juarez,N. Munoz-Garay,C. Gomez,I. Saab-Rincon,G. Damian-Almazo,J.Y. Gill,S.S. Soberon,M. Bravo,A.
2007. Bacillus thuringiensis Cry1Ab mutants affecting oligomer formation are non toxic to Manduca sexta larvae Journal of Biological Chemistry, 282, 21222-21229 [correction 2013 vol 288 (12) 8560].
Gomez,I. Pardo-Lopez,L. Munoz-Garay,C. Fernandez,L.E. Perez,C. Sanchez,J. Soberon,M. Bravo,A.
2007. Role of receptor interaction in the mode of action of insecticidal Cry and Cyt toxins produced by Bacillus thuringiensis Peptides, 28, 169-173.
Munoz-Garay,C. Sanchez,J. Darszon,A. de Maagd,R.A. Bakker,P. Soberon,M. Bravo,A.
2006. Permeability Changes of Manduca sexta Midgut Brush Border Membranes Induced by Oligomeric Structures of Different Cry Toxins Journal of Membrane Biology, 212, 61-68 [Erratum: 245 (12) 859].
Pardo-Lopez,L. Gomez,I. Munoz-Garay,C. Jimenez-Juarez,N. Soberon,M. Bravo,A.
2006. Structural and functional analysis of the pre-pore and membrane-inserted pore of Cry1Ab toxin Journal of Invertebrate Pathology, 92, 172-177.
Bravo,A. Gomez,I. Conde,J. Munoz-Garay,C. Sanchez,J. Miranda,R. Zhuang,M. Gill,S.S. Soberon,M.
2004. Oligomerization triggers binding of a Bacillus thuringiensis Cry1Ab pore-forming toxin to aminopeptidase N receptor leading to insertion into membrane microdomains Biochimica Et Biophysica Acta-Biomembranes, 1667, 38-46.
Rausell,C. Pardo-Lopez,L. Sanchez,J. Munoz-Garay,C. Morera,C. Soberon,M. Bravo,A.
2004. Unfolding events in the water-soluble monomeric Cry1Ab toxin during transition to oligomeric pre-pore and to membrane inserted pore channel Journal of Biological Chemistry, 279, 55168-55175.
Rausell,C. Garcia-Robles,I. Sanchez,J. Munoz-Garay,C. Martinez-Ramirez,A.C. Real,M.D. Bravo,A.
2004. Role of toxin activation on binding and pore formation activity of the Bacillus thuringiensis Cry3 toxins in membranes of Leptinotarsa decemlineata (Say) Biochimica Et Biophysica Acta-Biomembranes, 1660, 99-105.
Rausell,C. Munoz-Garay,C. Miranda-CassoLuengo,R. Gomez,I. Rudino-Pinera,E. Soberon,M. Bravo,A.
2004. Tryptophan Spectroscopy Studies and Black Lipid Bilayer Analysis Indicate that the Oligomeric Structure of Cry1Ab Toxin from Bacillus thuringiensis Is the Membrane-Insertion Intermediate Biochemistry, 43, 166-174.
Golldack,D. Su,H. Quigley,F. Kamasani,U.R. Munoz-Garay,C. Balderas,E. Popova,O.V. Bennett,J. Bohnert,H.J. Pantoja,O.
2002. Characterization of a HKT-type transporter in rice as a general alkali cation transporter Plant Journal, 31, 529-542.
Felix,R. Serrano,C.J. Trevino,C.L. Munoz-Garay,C. Bravo,A. Navarro,A. Pacheco,J. Tsutsumi,V. Darszon,A.
2002. Identification of distinct K+ channels in mouse spermatogenic cells and sperm Zygote, 10, 183-188.
Munoz-Garay,C. de la Vega-Beltran,J.L. Delgado,R. Labarca,P. Felix,R. Darszon,A.
2001. Inwardly rectifying k(+) channels in spermatogenic cells: functional expression and implication in sperm capacitation Developmental Biology, 234, 261-274.
Espinosa,F. Lopez-Gonzalez,I. Munoz-Garay,C. Felix,R. de la Vega-Beltran,J.L. Kopf,G.S. Visconti,P.E. Darszon,A.
2000. Dual regulation of the T-type Ca(2+) current by serum albumin and beta-estradiol in mammalian spermatogenic cells FEBS Letters, 475, 251-256.
Martinez,F. Munoz-Garay,C. Gurrola,G. Darszon,A. Possani,L.D. Becerril,B.
1998. Site directed mutants of Noxiustoxin reveal specific interactions with potassium channels FEBS Letters, 429, 381-384.
Selisko,B. Garcia,C. Becerril,B. Gomez-Lagunas,F. Garay,C. Possani,L.D.
1998. Cobatoxins 1 and 2 from Centruroides noxius Hoffmann constitute a subfamily of potassium-channel-blocking scorpion toxins European Journal of Biochemistry, 254, 468-479.
Gaspar,R. Bene,L. Damjanovich,S. Munoz-Garay,C. Calderon-Aranda,E.S. Possani,L.D.
1995. Beta-scorpion toxin 2 from Centruroides noxius blocks voltage-gated K+ channels in human lymphocytes Biochemical and Biophysical Research Communications, 213, 419-423.
Bravo,A. Martinez-de-Castro,D.L. Sanchez,J. Munoz-Garay,C. Matus,V. Canton,P.E. Lopez-Diaz,J. Portugal,L. Mendoza,G. Soberon,M. 2014. Mode of action of Bacillus thuringiensis toxins and their use in transgenic crops to control insect pests en: Biotechnology: beyond borders. CSIR National Chemical Laboratory. pags. 122-134
Soberon,M. Pardo,L. Munoz-Garay,C. Sanchez,J. Gomez,I. Porta,H. Bravo,A. 2010. Pore Formation by Cry Toxins en: Lakey,J. Proteins: Membrane Binding and Pore Formation (serie Advances in Experimental Medicine and Biology vol 677). Austin, TX. Landes Bioscience y Springer. pags. 127-142
Pardo,L. Gomez,I. Munoz-Garay,C. Jimenez-Juarez,N. Sanchez,J. Perez,C. Soberon,M. Bravo,A. 2007. Oligomer Formation of Different Cry Toxins Indicates that a Pre-Pore is an Essential Intermediate in the Mode of Action of the Three-Domain Cry Family en: Proceedings of the 6th Pacific Rim Conference on the Biotechnology of Bacillus thuringiensis and its Environmental Impact. pags. 7-8
Munoz,R. Pardo,L. Sanchez-Quintana,J. Raussell.C. Soberon,M. Bravo,A. 2006. Mecanismos moleculares de insercion de la toxina Cry de Bacillus thuringiensis en membrana en: Garcia-Colin,L. La fisica biologica en Mexico. Mexico. El Colegio Nacional. pags. 1-27
Felix,R. Lopez-Gonzalez,I. Munoz-Garay,C. Darszon,A. 2004. Ion channels and sperm function en: Maue,R.A. Molecular Insights into Ion Channel Biology in Health and Disease. Elsevier. pags. 407-431
Ibarra,J.E. Castro,M.C. Galindo,E. Patino,M. Serrano,L. Garcia,R. Carrillo,J.A. Pereyra-Alferez,B. Alcazar-Pizana,A. Luna-Olvera,H. Galan-Wong,L. Pardo,L. Munoz-Garay,C. Gomez,I. Soberon,M. Bravo,A.
2006. [Microorganisms in the biological control of insects and phytopathogens] Revista Latinoamericana de Microbiologia, 48, 113-120.
* Indica publicación con otra institución de adscripción