IBT-UNAM : Dra. Claudia Martínez Anaya | Dra. Claudia Martínez Anaya
Investigador Tutor de Maestría y Doctorado Nivel I del SNI Grupo del Dr. Lorenzo Patrick Segovia Teléfonos Laboratorio +52 (777) 329-1655 desde la CDMX 562-27655 red UNAM 27655
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Estudiantes
Juan José Salazar Ing. Maricela Cruz Ma. Guadalupe Pineda M.C. Delia Angelica Narvaez M.C. Andres De sandozequi Yazmín Anzurez Biol. Eric Daniel Morales Ing. Luis Armando Acosta
Publicaciones recientes
Vargas-Peralta,D. Narvaez-Barragan,D. de Sandozequi A. Segovia,L. Martinez-Anaya,C. Romero-Gutierrez,M. Alcaraz,L.D. de la Torre Almaraz,R.
2021. Identification of Pectobacterium species isolated from the soft rot of tetecho (Neobuxbaumia tetetzo), a columnar cactus, and associated metagenomics bioRxiv, Preprint posted February 01, 2021.
Narvaez-Barragan,D.A. Tovar-Herrera,O. Segovia,L. Serrano,M. Martinez-Anaya,C.
2020. Expansin-related proteins: biology, microbe-plant interactions and associated plant-defense responses Microbiology (Reading.), 166, 1007-1018.
Narvaez-Barragan,D.A. Tovar-Herrera,O.E. Torres,M. Rodriguez,M. Humphris,S. Toth,I.K. Segovia,L. Serrano,M. Martinez-Anaya,C.
2020. Expansin-like Exl1 from Pectobacterium is a virulence factor required for host infection, and induces a defence plant response involving ROS, and jasmonate, ethylene and salicylic acid signalling pathways in Arabidopsis thaliana Scientific Reports, 10, 7747.
Narvaez-Barragan,D.A. de Sandozequi A. Rodriguez,M. Estrada,K. Tovar-Herrera,O.E. Martinez-Anaya,C.
2020. Analysis of two Mexican Pectobacterium brasiliense strains reveals an inverted relationship between c-di-GMP levels with exopolysaccharide production and swarming motility Microbiological Research, 235, 126427.
Tovar-Herrera,O.E. Rodriguez,M. Olarte-Lozano,M. Sampedro-Guerrero,J.A. Guerrero,A. Pinto-Camara,R. Alvarado-Affantranger,X. Wood,C.D. Moran-Mirabal,J.M. Pastor,N. Segovia,L. Martinez-Anaya,C.
2018. Analysis of the Binding of Expansin Exl1, from Pectobacterium carotovorum, to Plant Xylem and Comparison to EXLX1 from Bacillus subtilis ACS Omega, 3, 7008-7018.
Quinones-Pena,M.A. Tavizon,G. Puente,J.L. Martinez-Anaya,C. Hernandez-Chinas,U. Eslava,C.A.
2017. Effects of static magnetic fields on the enteropathogenic Escherichia coli Bioelectromagnetics, 38, 570-578.
Garcia-Guevara,F. Bravo,I. Martinez-Anaya,C. Segovia,L.
2017. Cofactor specificity switch in Shikimate dehydrogenase by rational design and consensus engineering Protein Engineering Design & Selection, 30, 533-541.
Martinez-Anaya,C.
2016. Understanding the structure and function of bacterial expansins: a prerequisite towards practical applications for the bioenergy and agricultural industries Microbial Biotechnology, 9, 727-736.
Perez-Landero,S. Sandoval-Motta,S. Martinez-Anaya,C. Yang,R. Folch-Mallol,J.L. Martinez,L.M. Ventura,L. Guillen-Navarro,K. Aldana-Gonzalez,M. Nieto-Sotelo,J.
2015. Complex regulation of Hsf1-Skn7 activities by the catalytic subunits of PKA in Saccharomyces cerevisiae: experimental and computational evidences BMC Systems Biology, 9, 42.
Pastor,N. Davila,S. Perez-Rueda,E. Segovia,L. Martinez-Anaya,C.
2015. Electrostatic analysis of bacterial expansins Proteins: Structure, Function and Bioinformatics, 83, 215-223.
Olarte-Lozano,M. Mendoza-Nuñez,M.A. Pastor,N. Segovia,L. Folch-Mallol,J. Martinez-Anaya,C.
2014. PcExl1 a Novel Acid Expansin-Like Protein from the Plant Pathogen Pectobacterium carotovorum, Binds Cell Walls Differently to BsEXLX1 PLoS ONE, 9, e95638.
Vazquez-Lima,H. Guadarrama,P. Martinez-Anaya,C.
2012. Geometric distortions on a three-coordinated T1 Cu site model as a potential strategy to modulate redox potential. A theoretical study Journal of Molecular Modeling, 18, 455-466.
Quiroz-Castaneda,R.E. Martinez-Anaya,C. Cuervo-Soto,L.I. Segovia,L. Folch-Mallol,J.L.
2011. Loosenin, a novel protein with cellulose-disrupting activity from Bjerkandera adusta Microbial Cell Factories, 10, 8.
Quiroz-Castaneda,R.E. Perez-Mejia,N. Martinez-Anaya,C. Acosta-Urdapilleta,L. Folch-Mallol,J.
2011. Evaluation of different lignocellulosic substrates for the production of cellulases and xylanases by the basidiomycete fungi Bjerkandera adusta and Pycnoporus sanguineus Biodegradation, 22, 565-572.
Quiroz-Castaneda,R.E. Balcazar-Lopez,E. Dantan-Gonzalez,E. Martinez,A. Folch-Mallol,J. Martínez-Anaya,C.
2009. Characterization of cellulolytic activities of Bjerkandera adusta and Pycnoporus sanguineus on solid wheat straw medium Electronic Journal of Biotechnology, 12, Oct 15.
Fernandez,L.E. Martinez-Anaya,C. Lira,E. Chen,J. Evans,A. Hernandez-Martinez,S. Lanz-Mendoza,H. Bravo,A. Gill,S.S. Soberon,M.
2009. Cloning and epitope mapping of Cry11Aa-binding sites in the Cry11Aa-receptor alkaline phosphatase from Aedes aegypti Biochemistry, 48, 8899-8907.
Vite-Vallejo,O. Palomares,L.A. Dantan-Gonzalez,E. Ayala-Castro,H.G. Martinez-Anaya,C. Valderrama,B. Folch-Mallol,J.
2009. The role of N-glycosylation on the enzymatic activity of a Pycnoporus sanguineus laccase Enzyme and Microbial Technology, 45, 233-239.
Dantan-Gonzalez,E. Vite-Vallejo,O. Martinez-Anaya,C. Mendez-Sanchez,M. Gonzalez,M.C. Palomares,L.A. Folch-Mallol,J.
2008. Production of two novel laccase isoforms by a thermotolerant strain of Pycnoporus sanguineus isolated from an oil-polluted tropical habitat International Microbiology, 11, 163-169.
Rodriguez-Mejia,J.L. Martinez-Anaya,C. Folch-Mallol,J.L. Dantan-Gonzalez,E.
2008. A two-step electrodialysis method for DNA purification from polluted metallic environmental samples Electrophoresis, 29, 3239-3244 * .
Folch-Mallol,J.L. Martinez,L.M. Casas,S.J. Yang,R. Martinez-Anaya,C. Lopez,L. Hernandez,A. Nieto-Sotelo,J.
2004. New roles for CDC25 in growth control, galactose regulation and cellular differentiation in Saccharomyces cerevisiae Microbiology, 150, 2865-2879.
Martinez-Anaya,C. Dickinson,J.R. Sudbery,P.E.
2003. In yeast, the pseudohyphal phenotype induced by isoamyl alcohol results from the operation of the morphogenesis checkpoint Journal of Cell Science, 116, 3423-3431 * .
Otras Publicaciones
Martinez-Anaya,C. Ramos-Cervantes,P. Vidaltamayo,R.
2020. Coronavirus, diagnóstico y estrategias epidemiológicas contra COVID-19 en México Educación Química, 31, 12-22.
Tovar-Herrera,O. Martinez-Anaya,C.
2020. ¿Para qué sirven proteínas como las expansinas de microbios patógenos para infectar plantas? Biotecnología en Movimiento.Revista de divulgación del Instituto de Biotecnología de la UNAM, 21, 19-23.
Carcamo-Noriega,E.N. Martinez-Anaya,C. Gaytan-Colin,P.
2018. Mutando con genes sintéticos: una buena manera de obtener proteínas mejoradas Biotecnología en Movimiento.Revista de divulgación del Instituto de Biotecnología de la UNAM, 12, 3-5.
Martinez-Anaya,C.
2015. La Bioinformática a la ayuda de la Bioquímica Biotecnología en Movimiento.Revista de divulgación del Instituto de Biotecnología de la UNAM, 1, 6-7.
Martinez-Anaya,C. Garcia-Guevara,J.F.
2014. Ingeniería de proteínas para el mejoramiento de enzimas Revista Digital Universitaria, 15, art 93.
Martinez-Anaya,C.
2008. Bacillus thiringiensis, una herramienta de control biologico Claridades Agropecuarias, 183, 51-56.
Martinez-Anaya,C. Balcazar-Lopez,E. Dantan-Gonzalez,E. Folch-Mallol,J.
2008. Fungal cellulases. Biological aspects and applications in the energy industry Revista Latinoamericana de Microbiologia, 50, 119-131 * .
Martinez-Anaya,C. Folch-Mallol,J.
2007. La produccion de bioetanol como una alternativa para enfrentar el calentamiento global.Revista UIC, 6, 6-9 * .
* Indica publicación con otra institución de adscripción