IBT-UNAM : Dr. Enrique Salas Vidal
Dr. Enrique Salas Vidal Investigador
Tutor de Maestría y Doctorado
Grupo de la Dra. Hilda Maria Lomeli
email: esalas @ibt.unam.mx
Teléfonos
Oficina +52 (777) 311-4900 ext 307 Laboratorio +52 (777) 329-1663 desde la CDMX 562-27663 red UNAM 27663 +52 (777) 311-4900 ext 307
- Licenciatura: Biología, UNAM (1990) - Maestría: en Investigacion Biomedica Basica, Instituto de Investigaciones Biomedicas-UNAM, (1994) - Doctorado: en Investigacion Biomedica Basica, IBt-UNAM (1998) - Mencion honorífica en examen de Doctorado
Estudiantes Brenda Reza
Lic. Arlen Ramirez
M.C. Francisco Javier Mendez
M.C. Elizabeth Undiano
Publicaciones recientes
Salas-Vidal,E. Mendez-Cruz,F.J. Ramirez-Corona,A. Reza-Medina,B.
2020. Oxygen, reactive oxygen species and developmental redox networks: Evo-Devo Evil-Devils? International Journal of Developmental Biology, Aug 26 Online ahead of print, .
Palacios-Martinez,J. Caballero-Perez,J. Espinal-Centeno,A. Marquez-Chavoya,G. Lomeli,H. Salas-Vidal,E. Schnabel,D. Chimal-Monroy,J. Cruz-Ramirez,A.
2020. Multi-organ transcriptomic landscape of Ambystoma velasci metamorphosis Developmental Biology, 466, 22-35.
Sanchez-Carranza,J.N. Gonzalez-Maya,L. Razo-Hernandez,R.S. Salas-Vidal,E. Nolasco-Quintana,N.Y. Clemente-Soto,A.F. Garcia-Arizmendi,L. Sanchez-Ramos,M. Marquina,S. Alvarez,L.
2019. Achillin Increases Chemosensitivity to Paclitaxel, Overcoming Resistance and Enhancing Apoptosis in Human Hepatocellular Carcinoma Cell Line Resistant to Paclitaxel (Hep3B/PTX) Pharmaceutics, 11, 512.
Clemente-Soto,A.F. Salas-Vidal,E. Milan-Pacheco,C. Sanchez-Carranza,J.N. Peralta-Zaragoza,O. Gonzalez-Maya,L.
2019. Quercetin induces G2 phase arrest and apoptosis with the activation of p53 in an E6 expression independent manner in HPV positive human cervical cancerderived cells Molecular Medicine Reports, 19, 2097-2106.
Antunez-Mojica,M. Rojas-Sepulveda,A.M. Mendieta-Serrano,M.A. Gonzalez-Maya,L. Marquina,S. Salas-Vidal,E. Alvarez,L.
2019. Lignans from Bursera fagaroides Affect In Vivo Cell Behavior by Disturbing the Tubulin Cytoskeleton in Zebrafish Embryos Molecules, 24, E8.
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.
Sanchez-Carranza,J.N. Alvarez,L. Marquina-Bahena,S. Salas-Vidal,E. Cuevas,V. Jimenez,E.W. Veloz,G.R. Carraz,M. Gonzalez-Maya,L.
2017. Phenolic Compounds Isolated from Caesalpinia coriaria Induce S and G2/M Phase Cell Cycle Arrest Differentially and Trigger Cell Death by Interfering with Microtubule Dynamics in Cancer Cell Lines Molecules, 22, .
Miranda-Rodriguez,J.R. Salas-Vidal,E. Lomeli,H. Zurita,M. Schnabel,D.
2017. RhoA/ROCK pathway activity is essential for the correct localization of the germ plasm mRNAs in zebrafish embryos Developmental Biology, 421, 27-42.
Antunez-Mojica,M. Leon,A. Rojas-Sepulveda,A.M. Marquina,S. Mendieta-Serrano,M.A. Salas-Vidal,E. Villarreal,M.L. Alvarez,L.
2016. Aryldihydronaphthalene-type lignans from Bursera fagaroides var. fagaroides and their antimitotic mechanism of action RSC Adv., 6, 4950-4959.
Mendieta-Serrano,M.A. Schnabel-Peraza,D. Lomeli,H. Salas-Vidal,E.
2015. Spatial and temporal expression of zebrafish glutathione peroxidase 4 a and b genes during early embryo development Gene Expression Patterns, 19, 98-107.
Alejandre-Garcia,I. Alvarez,L. Cardoso-Taketa,A. Gonzalez-Maya,L. Antunez,M. Salas-Vidal,E. Diaz,J.F. Marquina-Bahena,S. Villarreal,M.L.
2015. Cytotoxic Activity and Chemical Composition of the Root Extract from the Mexican Species Linum scabrellum: Mechanism of Action of the Active Compound 6-Methoxypodophyllotoxin Evidence-Based Complementary and Alternative Medicine, 2015, 298463.
Moreno-Ayala,R. Schnabel,D. Salas-Vidal,E. Lomeli,H.
2015. PIAS-like protein Zimp7 is required for the restriction of the Zebrafish organizer and mesoderm development Developmental Biology, 403, 89-100.
Mendieta-Serrano,M.A. Schnabel,D. Lomeli,H. Salas-Vidal,E.
2013. Cell proliferation patterns in early zebrafish development Anatomical Record, 296, 759-773.
Rojas-Sepulveda,A.M. Mendieta-Serrano,M. Mojica,M.Y. Salas-Vidal,E. Marquina,S. Villarreal,M.L. Puebla,A.M. Delgado,J.I. Alvarez,L.
2012. Cytotoxic Podophyllotoxin Type-Lignans from the Steam Bark of Bursera fagaroides var. fagaroides Molecules, 17, 9506-9519.
Covarrubias,L. Hernandez-Garcia,D. Schnabel,D. Salas-Vidal,E. Castro-Obregon,S.
2008. Function of reactive oxygen species during animal development: Passive or active? Developmental Biology, 320, 1-11.
Besser,J. Bagowski,C.P. Salas-Vidal,E. van Hemert,M.J. Bussmann,J. Spaink,H.P.
2007. Expression analysis of the family of 14-3-3 proteins in zebrafish development Gene Expression Patterns, 7, 511-520 * .
He,S. Salas-Vidal,E. Rueb,S. Krens,S.F. Meijer,A.H. Snaar-Jagalska,B.E. Spaink,H.P.
2006. Genetic and transcriptome characterization of model zebrafish cell lines Zebrafish, 3, 441-453 * .
Schnabel,D. Salas-Vidal,E. Narvaez,V. Sanchez-Carbente,M.R. Hernandez-Garcia,D. Cuervo,R. Covarrubias,L.
2006. Expression and regulation of antioxidant enzymes in the developing limb support a function of ROS in interdigital cell death Developmental Biology, 291, 291-299.
Meijer,A.H. Verbeek,F.J. Salas-Vidal,E. Corredor-Adamez,M. Bussman,J. van der Sar,A.M. Otto,G.W. Geisler,R. Spaink,H.P.
2005. Transcriptome profiling of adult zebrafish at the late stage of chronic tuberculosis due to Mycobacterium marinum infection Molecular Immunology, 42, 1185-1203 * .
Salas-Vidal,E. Meijer,A.H. Cheng,X. Spaink,H.P.
2005. Genomic annotation and expression analysis of the zebrafish Rho small GTPase family during development and bacterial infection Genomics, 86, 25-37.
Salas-Vidal,E. Lomeli,H.
2004. Imaging filopodia dynamics in the mouse blastocyst Developmental Biology, 265, 75-89.
Cruz-Munoz,M.E. Salas-Vidal,E. Salaiza-Suazo,N. Becker,I. Pedraza-Alva,G. Rosenstein,Y.
2003. The CD43 Coreceptor Molecule Recruits the zeta-Chain as Part of Its Signaling Pathway Journal of Immunology, 171, 1901-1908.
Salas-Vidal,E. Valencia,C. Covarrubias,L.
2001. Differential tissue growth and patterns of cell death in mouse limb autopod morphogenesis Developmental Dynamics, 220, 295-306.
Salas-Vidal,E. Lomeli,H. Castro-Obregon,S. Cuervo,R. Escalante-Alcalde,D. Covarrubias,L.
1998. Reactive oxygen species participate in the control of mouse embryonic cell death Experimental Cell Research, 238, 136-147.
Salas-Vidal,E. Plebanski,M. Castro,S. Perales,G. Mata,E. Lopez,S. Arias,C.F.
1990. Synthesis of the surface glycoprotein of rotavirus SA11 in the aroA strain of Salmonella typhimurium SL3261 Research in Microbiology, 141, 883-886.
Otras Publicaciones
Palacios-Martinez,J. Caballero-Perez,J. Espinal-Centeno,A. Marquez-Chavoya,G. Lomeli,H. Salas-Vidal,E. Schnabel,D. Chimal-Monroy,J. Cruz-Ramirez,A.
2020. Multi-organ transcriptomic landscape of Ambystoma velasci metamorphosis bioRxiv, Preprint posted February 07, .
Salas-Vidal,E. Schnabel-Peraza,D.
2018. NanoZebra: De la edad de piedra a la edad nano y como un pez puede ayudarnos a navegar por ella. Mundo Nano Revista Interdisciplinaria en Nanociencias y Nanotecnologia, 11, .
Salas-Vidal,E.
2018. En la salud y en la enfermedad: El maridaje de fábula de un pez cebra con la ciencia Biotecnología en Movimiento.Revista de divulgación del Instituto de Biotecnología de la UNAM, 12, 25-32.
Mendieta-Serrano,M. Salas-Vidal,E.
2016. Del odio al amor, una historia sobre el estrés oxidativo Biotecnología en Movimiento.Revista de divulgación del Instituto de Biotecnología de la UNAM, 5, 3-5.
* Indica publicación con otra institución de adscripción