IBT-UNAM : Dra. Isabel Gomez Gomez
Dra. Isabel Gomez Gomez
Grupo del Dr. Mario Soberón
email: isabelg @ibt.unam.mx
Teléfonos
Oficina +52 (777) 311-4900 ext 227 Laboratorio +52 (777) 329-1624 red UNAM 27624 +52 (777) 311-4900 ext 227
Distinción Universidad Nacional para Jóvenes Académicos (DUNJA) UNAM (2012) Premio Weizmann Academia Mexicana de Ciencias (2003)
Estudiantes Biol. Francisco Javier Portugal
Lic. Daniela Carmona
M.C. Arlen Idalia Peña
Publicaciones recientes
Sena da Silva,I.H. Gomez,I. Pacheco,S. Sanchez,J. Zhang,J. Luque Castellane,T.C. Aparecida Desiderio J. Soberon,M. Bravo,A. Polanczyk,R.A.
2021. Bacillus thuringiensis Cry1Ab domain III beta-16 is involved in binding to prohibitin which correlates with toxicity against Helicoverpa armigera (Lepidoptera: Noctuidae) Applied and Environmental Microbiology, 87, e01930-20.
Pacheco,S. Quiliche,J.P.J. Gomez,I. Sanchez,J. Soberon,M. Bravo,A.
2020. Rearrangement of N-Terminal alpha-Helices of Bacillus thuringiensis Cry1Ab Toxin Essential for Oligomer Assembly and Toxicity Toxins (Basel), 12, E647.
Gomez,I. Ocelotl,J. Sanchez,J. Aguilar-Medel,S. Pena-Chora,G. Lina-Garcia,L. Bravo,A. Soberon,M.
2020. Bacillus thuringiensis Cry1Ab domain III beta-22 mutants with enhanced toxicity to Spodoptera frugiperda (J. E. Smith) Applied and Environmental Microbiology, 86, e01580-20.
Almanza-Martinez,N. Martinez-Diaz,S.F. Flores-Ramirez,G. Zuniga-Navarrete,F. Gomez,I. Cardona-Felix,C.S.
2020. An a-amylase-like protein interacts with PirB toxin from Vibrio parahaemolyticus in digestive tract tissue of white shrimp Litopenaeus vannamei Aquaculture Research, 51, 3910-3914.
Zhang,J. Jin,M. Yang,Y. Liu,L. Yang,Y. Gomez,I. Bravo,A. Soberon,M. Xiao,Y. Liu,K.
2020. The Cadherin Protein Is Not Involved in Susceptibility to Bacillus thuringiensis Cry1Ab or Cry1Fa Toxins in Spodoptera frugiperda Toxins (Basel), 12, 375.
Sena de Silva,I. Gomez,I. Sanchez,J. Martinez de Castro,D.L. Valicente,F.H. Soberon,M. Polanczyk,R.A. Bravo,A.
2018. Identification of midgut membrane proteins from different instars of Helicoverpa armigera (Lepidoptera: Noctuidae) that bind to Cry1Ac toxin PLoS ONE, 13, e0207789.
Pena-Cardena,A. Grande,R. Sanchez,J. Tabashnik,B.E. Bravo,A. Soberon,M. Gomez,I.
2018. The C-terminal protoxin domain of Bacillus thuringiensis Cry1Ab toxin has a functional role in binding to GPI-anchored receptors in the insect midgut Journal of Biological Chemistry, 293, 20263-20272.
Gomez,I. Ocelotl,J. Sanchez,J. Lima,C. Martins,E. Rosales-Juarez,A. Aguilar-Medel,S. Abad,A. Dong,H. Monnerat,R. Pena,G. Zhang,J. Nelson,M. Wu,G. Bravo,A. Soberon,M.
2018. Enhancement of Bacillus thuringiensis Cry1Ab and Cry1Fa toxicity to Spodoptera frugiperda by domain III mutations indicates two limiting steps in toxicity as defined by receptor binding and protein stability Applied and Environmental Microbiology, 84, e01393-18.
Gomez,I. Rodriguez-Chamorro,D.E. Flores-Ramirez,G. Grande,R. Zuniga,F. Portugal,F.J. Sanchez,J. Pacheco,S. Bravo,A. Soberon,M.
2018. Spodoptera frugiperda (J. E. Smith) aminopeptidase N1 is functional receptor of Bacillus thuringiensis Cry1Ca toxin Applied and Environmental Microbiology, 84, UNSP e01089-18.
Pacheco,S. Gomez,I. Sanchez,J. Garcia-Gomez,B.I. Czajkowsky,D.M. Zhang,J. Soberon,M. Bravo,A.
2018. Helix alpha-3 inter-molecular salt bridges and conformational changes are essential for toxicity of Bacillus thuringiensis 3D-Cry toxin family Scientific Reports, 8, 10331.
Wang,Z. Fang,L. Zhou,Z. Pacheco,S. Gomez,I. Song,F. Soberon,M. Zhang,J. Bravo,A.
2018. Specific binding between Bacillus thuringiensis Cry9Aa and Vip3Aa toxins synergizes their toxicity against Asiatic rice borer (Chilo suppressalis) Journal of Biological Chemistry, 293, 11447.
Torres-Quintero,M.C. Gomez,I. Pacheco,S. Sanchez,J. Flores,H. Osuna,J. Mendoza,G. Soberon,M. Bravo,A.
2018. Engineering Bacillus thuringiensis Cyt1Aa toxin specificity from dipteran to lepidopteran toxicity Scientific Reports, 8, 4989.
Soberon,M. Portugal,L. Garcia-Gomez,B.I. Sanchez,J. Onofre,J. Gomez,I. Pacheco,S. Bravo,A.
2018. Cell lines as models for the study of Cry toxins from Bacillus thuringiensis Insect Biochemistry and Molecular Biology, 93, 66-78.
Martinez de Castro,D.L. Garcia-Gomez,B.I. Gomez,I. Bravo,A. Soberon,M.
2017. Identification of Bacillus thuringiensis Cry1AbMod binding-proteins from Spodoptera frugiperda Peptides, 98, 99-105.
Pacheco,S. Gomez,I. Sanchez,J. Garcia-Gomez,B.I. Soberon,M. Bravo,A.
2017. Intra-molecular salt bridge in Bacillus thuringiensis Cry4Ba toxin is involved in the stability of helix alpha-3 that is needed for oligomerization and insecticidal activity Applied and Environmental Microbiology, 83, e01515-e01517.
Ocelotl,J. Sanchez,J. Gomez,I. Tabashnik,B.E. Bravo,A. Soberon,M.
2017. ABCC2 is associated with Bacillus thuringiensis Cry1Ac toxin oligomerization and membrane insertion in diamondback moth Scientific Reports, 7, 2386.
Onofre,J. Gaytan,M.O. Pena-Cardena,A. Garcia-Gomez,B.I. Pacheco,S. Gomez,I. Bravo,A. Soberon,M.
2017. Identification of Aminopeptidase-N2 as a Cry2Ab binding protein in Manduca sexta Peptides, 98, 93-98.
Serratos,I.N. Castellanos,P. Pastor,N. Millan-Pacheco,C. Colin-Gonzalez,A.L. Rembao,D. Perez-Montfort,R. Cabrera,N. Sanchez-Garcia,A. Gomez,I. Rangel-Lopez,E. Santamaria,A.
2016. Early expression of the receptor for advanced glycation end products in a toxic model produced by 6-hydroxydopamine in the rat striatum Chemico-Biological Interactions, 249, 10-18.
Ocelotl,J. Sanchez,J. Arroyo,R. Garcia-Gomez,B.I. Gomez,I. Unnithan,G.C. Tabashnik,B.E. Bravo,A. Soberon,M.
2015. Binding and Oligomerization of Modified and Native Bt Toxins in Resistant and Susceptible Pink Bollworm PLoS ONE, 10, e0144086.
Zuniga-Navarrete,F. Gomez,I. Pena,G. Amaro,I. Ortiz,E. Becerril,B. Ibarra,J.E. Bravo,A. Soberon,M.
2015. Identification of Bacillus thuringiensis Cry3Aa toxin domain II loop 1 as the binding site of Tenebrio molitor cadherin repeat CR12 Insect Biochemistry and Molecular Biology, 59, 50-57.
Gomez,I. Flores,B. Bravo,A. Soberon,M.
2015. Bacillus thuringiensis Cry1AbMod toxin counters tolerance associated with low cadherin expression but not that associated with low alkaline phosphatase expression in Manduca sexta Peptides, 68, 130-133.
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.
Flores-Escobar,B. Rodriguez-Magadan,H. Bravo,A. Soberon,M. Gomez,I.
2013. Differential role of Manduca sexta aminopeptidase-N and alkaline phosphatase in the mode of action of Cry1Aa, Cry1Ab, and Cry1Ac toxins from Bacillus thuringiensis Applied and Environmental Microbiology, 79, 4543-4550.
Zuniga-Navarrete,F. Gomez,I. Pena,G. Bravo,A. Soberon,M.
2013. A Tenebrio molitor GPI-anchored alkaline phosphatase is involved in binding of Bacillus thuringiensis Cry3Aa to brush border membrane vesicles Peptides, 41, 81-86.
Bravo,A. Gomez,I. Porta,H. Garcia-Gomez,B.I. Rodriguez-Almazan,C. Pardo,L. Soberon,M.
2013. Evolution of Bacillus thuringiensis Cry toxins insecticidal activity Microbial Biotechnology, 6, 17-26.
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.
Zavala,L.E. Pardo-Lopez,L. Canton,P.E. Gomez,I. Soberon,M. Bravo,A.
2011. Domains II and III of Bacillus thuringiensis Cry1Ab toxin remain exposed to the solvent after insertion of part of domain I into the membrane Journal of Biological Chemistry, 286, 19109-19117 [Correction: vol 287 p 34499].
Terenius,O. Papanicolaou,A. Garbutt,J.S. Eleftherianos,I. Huvenne,H. Sriramana,K. Albrechtsen,M. An,C. Aymeric,J.L. Barthel,A. Bebas,P. Bitra,K. Bravo,A. Chevalier,F. Collinge,D.P. Crava,C.M. de Maagd,R.A. Duvic,B. Erlandson,M. Faye,I. Felfoldi,G. Fujiwara,H. Futahashi,R. Gandhe,A.S. Gatehouse,H.S. Gatehouse,L.N. Giebultowicz,J. Gomez,I. Grimmelikhuijzen,C.J. Groot,A.T. Hauser,F. Heckel,D.G. Hegedus,D.D. Hrycaj,S. Huang,L. Hull,J.J. Iatrou,K. Iga,M. Kanost,M.R. Kotwica,J. Li,C. Li,J. Liu,J. Lundmark,M. Matsumoto,S. Meyering-Vos,M. Millichap,P.J. Monteiro,A. Mrinal,N. Niimi,T. Nowara,D. Ohnishi,A. Oostra,V. Ozaki,K. Papakonstantinou,M. Popadic,A. Rajam,M.V. Saenko,S. Simpson,R.M. Soberon,M. Strand,M.R. Tomita,S. Toprak,U. Wang,P. Wee,C.W. Whyard,S. Zhang,W. Nagaraju,J. Ffrench-Constant,R.H. Herrero,S. Gordon,K. Swevers,L. Smagghe,G. et al
2011. RNA interference in Lepidoptera: an overview of successful and unsuccessful studies and implications for experimental design Journal of Insect Physiology, 57, 231-245.
Gomez,I. Arenas,I. Pacheco,S. Bravo,A. Soberon,M.
2010. New Insights into the Mode of Action of Cry1Ab Toxin Used in Transgenic Insect-resistant Crops Southwestern Entomologist, 35, 387-390.
Arenas,I. Bravo,A. Soberon,M. Gomez,I.
2010. Role of alkaline phosphatase from Manduca sexta in the mechanism of action of Bacillus thuringiensis Cry1Ab toxin Journal of Biological Chemistry, 285, 12497-503.
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].
Pacheco,S. Gomez,I. Arenas,I. Saab-Rincon,G. Rodriguez-Almazan,C. Gill,S.S. Bravo,A. Soberon,M.
2009. Domain II loop 3 of Bacillus thuringiensis Cry1Ab toxin is involved in a "ping-pong" binding mechanism with Manduca sexta aminopetidase-N and cadherin receptors Journal of Biological Chemistry, 284, 32750-32757.
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.
Pacheco,S. Gomez,I. Gill,S.S. Bravo,A. Soberon,M.
2009. Enhancement of insecticidal activity of Bacillus thuringiensis Cry1A toxins by fragments of a toxin-binding cadherin correlates with oligomer formation Peptides, 30, 583-588.
Fernandez,L.E. Gomez,I. Pacheco,S. Arenas,I. Gill,S.S. Bravo,A. Soberon,M.
2008. Employing phage display to study the mode of action of Bacillus thuringiensis Cry toxins Peptides, 29, 324-329.
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.
Soberon,M. Pardo-Lopez,L. Lopez,I. Gomez,I. Tabashnik,B.E. Bravo,A.
2007. Engineering Modified Bt Toxins to Counter Insect Resistance Science, 318, 1640-1642 [erratum vol 345 (6198) art num 1256132].
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.
Gomez,I. Arenas,I. Benitez,I. Miranda-Rios,J. Becerril,B. Grande,R. Almagro,J.C. Bravo,A. Soberon,M.
2006. Specific epitopes of domains II and IIII of bacillus thuringiensis Cry1Ab toxin involved in the sequential interaction with cadherin and aminopeptidase-N receptors in manduca sexta Journal of Biological Chemistry, 281, 34032-34039.
Pardo-Lopez,L. Gomez,I. Rausell,C. Sanchez,J. Soberon,M. Bravo,A.
2006. Structural Changes of the Cry1Ac Oligomeric Pre-Pore from Bacillus thuringiensis Induced by N-Acetylgalactosamine Facilitates Toxin Membrane Insertion Biochemistry, 45, 10329-10336.
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.
Pacheco,S. Gomez,I. Sato,R. Bravo,A. Soberon,M.
2006. Functional display of Bacillus thuringiensis Cry1Ac toxin on T7 phage Journal of Invertebrate Pathology, 92, 45-49.
Padilla,C. Pardo-Lopez,L. de la Riva,G. Gomez,I. Sanchez,J. Hernandez,G. Nunez,M.E. Carey,M.P. Dean,D.H. Alzate,O. Soberon,M. Bravo,A.
2006. Role of Tryptophan Residues in Toxicity of Cry1Ab Toxin from Bacillus thuringiensis Applied and Environmental Microbiology, 72, 901-907.
Xie,R. Zhuang,M. Ross,L.S. Gomez,I. Oltean,D.I. Bravo,A. Soberon,M. Gill,S.S.
2005. Single amino acid mutations in the cadherin receptor from heliothis virescens affect its toxin binding ability to Cry1A toxins Journal of Biological Chemistry, 280, 8416-8425.
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. 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.
Gomez,I. Dean,D.H. Bravo,A. Soberon,M.
2003. Molecular Basis for Bacillus thuringiensis Cry1Ab Toxin Specificity: Two Structural Determinants in the Manduca sexta Bt-R(1) Receptor Interact with Loops alpha-8 and 2 in Domain II of Cy1Ab Toxin Biochemistry, 42, 10482-10489.
Gomez,I. Miranda-Rios,J. Rudino-Pinera,E. Oltean,D.I. Gill,S.S. Bravo,A. Soberon,M.
2002. Hydropathic complementarity determines interaction of epitope 869HITDTNNK876 in Manduca sexta Bt-R1 receptor with loop 2 of domain II of Bacillus thuringiensis Cry1A toxins Journal of Biological Chemistry, 277, 30137-30143.
Bravo,A. Miranda,R. Gomez,I. Soberon,M.
2002. Pore formation activity of Cry1Ab toxin from Bacillus thuringiensis in an improved membrane vesicle preparation from Manduca sexta midgut cell microvilli Biochimica Et Biophysica Acta-Biomembranes, 1562, 63-69.
Gomez,I. Sanchez,J. Miranda,R. Bravo,A. Soberon,M.
2002. Cadherin-like receptor binding facilitates proteolytic cleavage of helix alpha-1 in domain I and oligomer pre-pore formation of Bacillus thuringiensis Cry1Ab toxin FEBS Letters, 513, 242-246.
Zhuang,M. Oltean,D.I. Gomez,I. Pullikuth,A.K. Soberon,M. Bravo,A. Gill,S.S.
2002. Heliothis virescens and Manduca sexta lipid rafts are involved in Cry1A toxin binding to the midgut epithelium and subsequent pore formation Journal of Biological Chemistry, 277, 13863-13872.
Gomez,I. Oltean,D.I. Gill,S. Bravo,A. Soberon,M.
2001. Mapping the epitope in cadherin-like receptors involved in Bacillus thuringiensis Cry1A toxins interaction using phage display Journal of Biological Chemistry, 276, 28906-28912.
Soberon,M. Perez,R.V. Nunez-Valdez,M.E. Lorence,A. Gomez,I. Sanchez,J. Bravo,A.
2000. Evidence for intermolecular interaction as a necessary step for pore-formation activity and toxicity of Bacillus thuringiensis Cry1Ab toxin Fems Microbiology Letters, 191, 221-225.
Bravo,A. Pacheco,S. Gomez,I. Garcia-Gomez,B. Onofre,J. Soberon,M. 2017. Insecticidal Proteins from Bacillus thuringiensis and Their Mechanism of Action en: Crickmore,N. Bacillus thuringiensis and Lysinibacillus sphaericus: Characterization and use in the field of biocontrol. Cham. Springer International Publishing. pags. 53-66
Grande-Cano,R.A. Gomez I. 2015. Identification and characterization of receptors for insecticidal toxins from Bacillus thuringiensis en: Varma,A. Biocontrol of Lepidopteran Pests: Use of Soil Microbes and their Metabolites. Springer. pags. 71-88
Bravo,A. Martinez-de-Castro,D.L. Sanchez-Quintana,J. Canton,P.E. Mendoza,G. Gomez,I. Pacheco,S. Garcia-Gomez,B.I. Onofre,J. Ocelotl,J. Soberon,M. 2015. Mechanism of action of Bacillus thuringiensis insecticidal toxins and their use in the control of insect pests en: Alouf,J.E. Comprehensive Sourcebook of Bacterial Protein Toxins 4a ed. Elsevier. pags. 858-873
Bravo,A. Gomez,I. Mendoza,G. Gaytan,M. Soberon,M. 2015. Different models of the mode of action of Bt 3d-Cry toxins en: *bravo Bt resistance – characterization and strategies for GM crops expressing Bacillus thuringiensis toxins. Oxford. CABI. pags. 56-68
Soberon,M. Gomez,I. Garcia-Gomez,B.I. Carmona,D. Ocelotl,J. Villanueva,F. Flores,B. Bravo,A. 2014. Mode of action of mosquitocidal toxins from Bacillus thuringiensis and their use in control of insect vectors of human diseases en: Biotechnology: beyond borders. CSIR National Chemical Laboratory. pags. 279-288
Zuniga-Navarrete,F. Bravo,A. Soberon,M. Gomez,I. 2012. Role of GPI-anchored membrane receptors in the mode of action of Bacillus thuringiensis Cry toxins en: Larramendy,M.L. Integrated Pest Management and Pest Control- Current and Future Tactics. Intech. pags. 551-566
Flores-Escobar,B. Zuniga-Navarrete,F. Sanchez,J. Gomez,I. 2012. Protein-protein interaction detection on membrane supports en: *isabelg Tools to Understand Protein-Protein Interactions. Kerala. Transworld Research Network. pags. 55-70
Grande-Cano,R. Gomez,I. 2012. Protein expression and purification en: *isabelg Tools to Understand Protein-Protein Interactions. Kerala. Transworld Research Network. pags. 41-54
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
Soberon,M. Gomez,I. Pardo,L. Munoz,C. Fernandez,L.E. Perez,C. Gill,S.S. Bravo,A. 2007. Important Interactions with membrane Receptors in the Mode of Action of Bacillus thuringiensis Cry toxins en: Vincent,C. 6th Pacific Rim Conference on the biotechnology of Bacillus thuringiensis and its Environmental Impact, cap 1. Montreal. Erudit. pags. 1-6
Gomez,I. Miranda-Rios,J. Arenas,I. Grande,R. Becerril,B. Bravo,A. Soberon,M. 2007. Identification of scFv Molecules that Recognize Loop 3 of Domain II and Domain III of Cry1Ab Toxin from Bacillus thuringiensis en: Vincent,C. 6th Pacific Rim Conference on the biotechnology of Bacillus thuringiensis and its Environmental Impact,. Montreal. Erudit. pags. 12-14
Soberon,M. Nuñez,M. Gomez I. Sanchez-Quintana,J. Bravo,A. 2004. Functional studies of helix a-5 region from Bacillus thuringiensis Cry1Ab d-endotoxin shows that conserved residues are important for pore formation and stability but not for oligomer formation. en: Lazarovici,P. Pore-forming peptides and protein toxins. London ;New York. Taylor & Francis. pags. 90-101
Otras Publicaciones 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.
Miranda,R. Gomez,I. Soberon,M. Bravo,A.
2002. Mecanismo de accion de las toxinas Cry de Bacillus Thuringiensis.TIP revista especializada en Ciencias Quimico-Biologicas, 5, 5-13.
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