IBT-UNAM : Dra. Liliana Pardo Lopez
Estudiantes Itzel Anahí Hidalgo
Tec. Charly David Barrera
Tec. Jessica Rendón
Biol. Jaime Rosas
Ing. Arturo Alberto Martin del Campo
Itzel Rojas
M.C. Diego Humberto Cuervo
Dra. Selma Julieta Rodriguez
Jaqueline Xochicueponi Molina
Lic. Carlos Alfredo Amaro
Biol. Isaac Guzman
M.C. Jorge Alexander Rojas
Biol. Martha Alejandra Catalán
Publicaciones recientes
Raggi,L. Garcia-Guevara,F. Godoy-Lozano,E.E. Martinez-Santana,A. Escobar-Zepeda,A. Gutierrez-Rios,R.M. Loza,A. Merino,E. Sanchez-Flores,A. Licea-Navarro,A. Pardo-Lopez,L. Segovia,L. Juarez,K.
2020. Metagenomic Profiling and Microbial Metabolic Potential of Perdido Fold Belt (NW) and Campeche Knolls (SE) in the Gulf of Mexico Frontiers in Microbiology, 11, .
Rodriguez-Salazar,J. Almeida-Juarez,A.G. Ornelas-Ocampo,K. Millan-Lopez,S. Raga-Carbajal,E. Rodriguez-Mejia,J.L. Muriel-Millan,L.F. Godoy-Lozano,E.E. Rivera-Gomez,N. Rudino-Pinera,E. Pardo-Lopez,L.
2020. Characterization of a Novel Functional Trimeric Catechol 1,2-Dioxygenase From a Pseudomonas stutzeri Isolated From the Gulf of Mexico Frontiers in Microbiology, 11, 1100.
Muriel-Millan,L.F. Rodriguez-Mejia,J.L. Godoy-Lozano,E.E. Rivera-Gomez,N. Gutierrez-Rios,R.M. Morales-Guzman,D. Trejo-Hernandez,M.R. Estradas-Romero,A. Pardo-Lopez,L.
2019. Functional and Genomic Characterization of a Pseudomonas aeruginosa Strain Isolated From the Southwestern Gulf of Mexico Reveals an Enhanced Adaptation for Long-Chain Alkane Degradation Frontiers in Marine Science, 6, 572.
Rabone,M. Harden-Davies,H. Collins,J.E. Zajderman,S. Appeltans,W. Droege,G. Brandt,A. Pardo-Lopez,L. Dahlgren,T.G. Glover,A.G. Horton,T.
2019. Access to Marine Genetic Resources (MGR): Raising Awareness of Best-Practice Through a New Agreement for Biodiversity Beyond National Jurisdiction (BBNJ) Frontiers in Marine Science, 6, UNSP 520.
Cornejo-Granados,F. Calderon de la Barca AM Torres,N. Martinez-Romero,E. Torres,J. Lopez-Vidal,Y. Soberon,X. Partida-Martinez,L.P. Pinto-Cardoso,S. Alcaraz,L.D. Pardo-Lopez,L. Canizales-Quinteros,S. Puente,J.L. Ochoa-Leyva,A.
2019. Microbiome-MX 2018: Microbiota and Microbiome opportunities in Mexico, a megadiverse country Research in Microbiology, 170, 235-241.
Godoy-Lozano,E.E. Escobar-Zepeda,A. Raggi,L. Merino,E. Gutierrez-Rios,R.M. Juarez,K. Segovia,L. Licea-Navarro,A.F. Gracia,A. Sanchez-Flores,A. Pardo-Lopez,L.
2018. Bacterial diversity and the geochemical landscape in the southwestern Gulf of Mexico Frontiers in Microbiology, 9, 2528.
Escobar-Zepeda,A. Godoy-Lozano,E.E. Raggi,L. Segovia,L. Merino,E. Gutierrez-Rios,R.M. Juarez,K. Licea-Navarro,A.F. Pardo-Lopez,L. Sanchez-Flores,A.
2018. Analysis of sequencing strategies and tools for taxonomic annotation: Defining standards for progressive metagenomics Scientific Reports, 8, 12034 [correction 10(1) 4259].
Vega-Cabrera,L.A. Wood,C.D. Pardo-Lopez,L.
2018. Spo0M: structure and function beyond regulation of sporulation Current Genetics, 64, 17-23.
Maissa,N. Covarelli,V. Janel,S. Durel,B. Simpson,N. Bernard,S.C. Pardo-Lopez,L. Bouzinba-Segard,H. Faure,C. Scott,M.G.H. Coureuil,M. Morand,P.C. Lafont,F. Nassif,X. Marullo,S. Bourdoulous,S.
2017. Strength of Neisseria meningitidis binding to endothelial cells requires highly-ordered CD147/beta2-adrenoceptor clusters assembled by alpha-actinin-4 Nature Communications, 8, 15764 * .
Escobedo-Hinojosa,W. Pardo-Lopez,L.
2017. Analysis of bacterial metagenomes from the Southwestern Gulf of Mexico for pathogens detection Pathogens and Disease, 75, ftx058.
Vega-Cabrera,L.A. Guerrero,A. Rodriguez-Mejia,J.L. Tabche,M.L. Wood,C.D. Gutierrez-Rios,R.M. Merino,E. Pardo-Lopez,L.
2017. Analysis of Spo0M function in Bacillus subtilis PLoS ONE, 12, e0172737.
Vega-Cabrera,L.A. Pardo-Lopez,L.
2017. Membrane remodeling and organization: Elements common to prokaryotes and eukaryotes IUBMB Life, 69, 55-62.
Doly,S. Shirvani,H. Gata,G. Meye,F.J. Emerit,M.B. Enslen,H. Achour,L. Pardo-Lopez,L. Yang,S.K. Armand,V. Gardette,R. Giros,B. Gassmann,M. Bettler,B. Mameli,M. Darmon,M. Marullo,S.
2016. GABA receptor cell-surface export is controlled by an endoplasmic reticulum gatekeeper Molecular Psychiatry, 21, 480-490 * .
Peguero-Sanchez,E. Pardo-Lopez,L. Merino,E.
2015. IRES-dependent translated genes in fungi: computational prediction, phylogenetic conservation and functional association BMC Genomics, 16, 1059.
Vega-Cabrera,A. Cancino-Rodezno,A. Porta,H. Pardo-Lopez,L.
2014. Aedes aegypti Mos20 Cells Internalizes Cry Toxins by Endocytosis, and Actin Has a Role in the Defense against Cry11Aa Toxin Toxins (Basel), 6, 464-487.
Pardo-Lopez,L. Soberon,M. Bravo,A.
2013. Bacillus thuringiensis insecticidal 3-domain Cry toxins: Mode of action, insect resistance and consequences for crop protection FEMS Microbiology Reviews, 37, 3-22.
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.
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.
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].
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.
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.
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].
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.
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.
Pena,G. Miranda-Rios,J. de la Riva,G. Pardo-Lopez,L. Soberon,M. Bravo,A.
2006. A Bacillus thuringiensis S-Layer Protein Involved in Toxicity against Epilachna varivestis (Coleoptera: Coccinellidae) Applied and Environmental Microbiology, 72, 353-360.
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.
Coronas,F.I. Balderas,C. Lopez,L.P. Possani,L.D. Gurrola,G.B.
2005. Amino acid sequence determination and chemical synthesis of CllErg1 (gamma-KTx1.5), a K+ channel blocker peptide isolated from the scorpion Centruroides limpidus limpidus Journal of the Brazilian Chemical Society, 16, 404-411.
Braud,S. Belin,P. Dassa,J. Pardo,L. Mourier,G. Caruana,A. Priest,B.T. Dulski,P. Garcia,M.L. Menez,A. Boulain,J.C. Gasparini,S.
2004. BgK, a disulfide-containing sea anemone toxin blocking K+ channels, can be produced in Escherichia coli cytoplasm as a functional tagged protein Protein Expression and Purification, 38, 69-78 * .
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.
Pardo-Lopez,L. Zhang,M. Liu,J. Jiang,M. Possani,L.D. Tseng,G.N.
2002. Mapping the binding site of a human ether-a-go-go-related gene-specific peptide toxin (ErgTx) to the channel's outer vestibule Journal of Biological Chemistry, 277, 16403-16411.
Pardo-Lopez,L. Garcia-Valdes,J. Gurrola,G.B. Robertson,G.A. Possani,L.D.
2002. Mapping the receptor site for ergtoxin, a specific blocker of ERG channels FEBS Letters, 510, 45-49.
Libros y capítulos recientes Pardo-Lopez,L. 2019. Marine bioprospecting en: Monteferri,B. Marine and Fisheries Policies in Latin America: A Comparison of Selected Countries. Routledge.
Marullo,S. Pardo,L. Achour,L. 2011. Identifying GPCR escorts, chaperones and intracellular tethers regulating receptor en: Stevens,C.W. Methods for the Discovery and Characterization of G Protein-Coupled Receptors. Springer. pags. 167-185
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
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
Otras Publicaciones Flores-Gaytan,L.P. Pardo-Lopez,L. Muriel-Millan,L.F.
2020. Las bacterias marinas como fuente de aplicaciones biotecnológicas novedosas Biotecnología en Movimiento.Revista de divulgación del Instituto de Biotecnología de la UNAM, 23, 12-17.
Flores Martin del Campo,A. Muriel-Millan,L.F. Pardo-Lopez,L.
2018. Microplásticos en el ambiente marino Biotecnología en Movimiento.Revista de divulgación del Instituto de Biotecnología de la UNAM, 14, 24-27.
Rodriguez,J.L. Pardo-Lopez,L.
2016. Bacterias del Golfo de México: su distribución y potencial aplicación biotecnológica Biotecnología en Movimiento.Revista de divulgación del Instituto de Biotecnología de la UNAM, 7, 29-32.
Peguero-Sanchez,E. Pardo-Lopez,L. Merino-Perez,E.
2016. Descifrando el lenguaje de la vida Biotecnología en Movimiento.Revista de divulgación del Instituto de Biotecnología de la UNAM, 4, 3-4.
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.
Patentes L. Pardo-López, J.L. Rodriguez-Mejia, L.F. Muriel-Millan, 2020 Nueva esteresa con autotransportador de Pseudomonas alcaligenes, y métodos de uso.UNAM México. (en trámite)
Pardo-López, L., Rodriguez-Mejia, S., Rodriguez-Salazar, J., 2019 Nueva dioxigenasa de pseuoomonas stutzeri, y métodos de uso.UNAM México. (en trámite)
L. Pardo-López, E. B. Tabashnik, M. Soberón-Chavéz y M. A. Bravo-De La Parra 2009 Supresión de resistencia en insectos hacia las toxinas Cry de Bacillus thuringiensis utilizando toxinas que no requieren al receptor caderina.UNAM Europa, China, Canadá, India, Brasil y México (Números de solicitud pendientes). (en trámite)
L. Pardo-López, E. B. Tabashnik, M. Soberón-Chavéz y M. A. Bravo-De La Parra 2007 Supresión de resistencia en insectos hacia las toxinas Cry de Bacillus thuringiensis utilizando toxinas que no requieren al receptor caderina.UNAM PCT. (en trámite)
* Indica publicación con otra institución de adscripción
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