ZFIN ID: ZDB-PERS-190228-1
Salas-Vidal, Enrique
Email: esalas@ibt.unam.mx
URL: http://www.ibt.unam.mx/server/PRG.base?tipo:doc,dir:PRG.curriculum,par:esalas
Affiliation: Lomeli Lab
Address: Departamento de Genética del Desarrollo y Fisiología Molecular. Instituto de Biotecnología, Universidad Nacional Autónoma de México, Avenida Universidad 2001, Cuernavaca, 62210, Morelos
Country: Mexico
Phone: + 52 777 3291663
Fax: + 52 777 3172388
ORCID ID: 0000-0001-7854-0478


BIOGRAPHY AND RESEARCH INTERESTS


PUBLICATIONS
Antúnez-Mojica, M., Rojas-Sepúlveda, A.M., Mendieta-Serrano, M.A., Gonzalez-Maya, L., Marquina, S., Salas-Vidal, E., Alvarez, L. (2018) Lignans from Bursera fagaroides Affect In Vivo Cell Behavior by Disturbing the Tubulin Cytoskeleton in Zebrafish Embryos. Molecules. 24(1):
Mendieta-Serrano, M.A., Mendez-Cruz, F.J., Antúnez-Mojica, M., Schnabel, D., Alvarez, L., Cárdenas, L., Lomelí, H., Ruiz-Santiesteban, J.A., Salas-Vidal, E. (2018) 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 & medicine. 130:82-98
Miranda-Rodríguez, J.R., Salas-Vidal, E., Lomelí, 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(1):27-42
Mendieta-Serrano, M.A., Schnabel-Peraza, D., Lomelí, 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 : GEP. 19(1-2):98-107
Moreno-Ayala, R., Schnabel, D., Salas-Vidal, E., Lomelí, H. (2015) PIAS-like protein Zimp7 is required for the restriction of the Zebrafish organizer and mesoderm development. Developmental Biology. 403(1):89-100
Mendieta-Serrano, M.A., Schnabel, D., Lomelí, H., and Salas-Vidal, E. (2013) Cell proliferation patterns in early zebrafish development. Anatomical record (Hoboken, N.J. : 2007). 296(5):759-73
Besser, J., Bagowski, C.P., Salas-Vidal, E., van Hemert, M.J., Bussmann, J., and Spaink, H.P. (2007) Expression analysis of the family of 14-3-3 proteins in zebrafish development. Gene expression patterns : GEP. 7(4):511-520
He, S., Salas-Vidal, E., Rueb, S., Krens, S.F.G., Meijer, A.H., Snaar-Jagalska, B.E., and Spaink, H.P. (2006) Genetic and Transcriptome Characterization of Model Zebrafish Cell Lines. Zebrafish. 3(4):441-453
Salas-Vidal, E., Meijer, A.H., Cheng, X., and Spaink, H.P. (2005) Genomic annotation and expression analysis of the zebrafish Rho small GTPase family during development and bacterial infection. Genomics. 86(1):25-37
Meijer, A.H., Verbeek, F.J., Salas-Vidal, E., Corredor-Adámez, M., Bussman, J., van der Sar, A.M., Otto, G.W., Geisler, R., and Spaink, H.P. (2005) Transcriptome profiling of adult zebrafish at the late stage of chronic tuberculosis due to Mycobacterium marinum infection. Molecular immunology. 42(10):1185-1203

NON-ZEBRAFISH PUBLICATIONS
1) Salas-Vidal, E. et al. 1990. Synthesis of the Surface Glycoprotein of Rotavirus SA11 in the aroA Strain of Salmonella typhimurium SL 3261. Res. Microbiol. 141:883-886.
2) Salas-Vidal, E., Lomelí, H., Castro-Obregón, S., Cuervo, R., Escalante-Alcalde, D., and Covarrubias, L. (1998). Reactive oxygen species participate in the control of mouse embryonic cell death. Exp. Cell Res. 238: 136-147.
3) Salas-Vidal, E., Valencia, C., and Covarrubias, L. 2001. Differential tissue growth and patterns of cell death in mouse limb autopod morphogenesis. Dev. Dyn. 220: 295-306.
4) Cruz-Muñoz, M.E., Salas-Vidal, E., Salaiza-Suazo, N.L., Becker-Sauser, I.D., Pedraza-Alva, G., and Rosenstein, Y. 2003.The CD43 coreceptor molecule recruits the ζ-chain as part of its signaling pathway. Journal of Immunology.171:1901-1908.
5) Salas-Vidal, E. and Lomeli, H. 2004. Imaging filopodia dynamics in the mouse blastocyst. Developmental Biology. 265:75-89.
6) Schnabel, D., Salas-Vidal E, Narváez, V., Sánchez-Carbente, M.R., Hernández-García, D., Cuervo, R., and Covarrubias, L. 2006. Expression and regulation of antioxidant enzymes in the developing limb support a function of ROS in interdigital cell death. Developmental Biology. 291:291-9.
7) Covarrubias, L., Hernández-García, D., Schnabel, D., Salas-Vidal, E., and Castro-Obregón, S. 2008. Function of reactive oxygen species during animal development: passive or active? Developmental Biology. 320: 1-11.
8) Rojas-Sepúlveda, A.M., Mendieta-Serrano, M.A., Antúnez Mojica, M.Y., Salas-Vidal, E., Marquina, S., Villarreal, M.L., Puebla, A.M., Delgado, J.I. and Alvarez, L. 2012. Cytotoxic Podophyllotoxin Type-Lignans from the Steam Bark of Bursera fagaroides var. fagaroides. Molecules. 17: 9506-9519.
9) Alejandre-García, I., Alvarez, L., Cardoso-Taketa, A., González-Maya, L., Antunez, M., Salas-Vidal, E., Diaz, J. F., Marquina, S., and Villarreal, M.L. 2015. Cytotoxic Activity and Chemical Composition of the Root Extracts from the Mexican Species Linum scabrellum: Mechanism of Action of the Active Compound 6-methoxypodophyllotoxin. Evidence-Based Complementary and Alternative Medicine. 2015: 11 pages.
10) Clemente-Soto, A.F., Salas-Vidal, E., Milan-Pacheco, C., Sánchez-Carranza, J.N., Garcia-Lopez, P., Peralta-Zaragoza, O., and González-Maya, L. 2019. Quercetin induces G2 phase cell cycle arrest and apoptosis accompanied of p53 stabilization in an HPV E6 expression-independent manner in cervical cancer cells. Molecular Medicine Reports. 19: 2097-2106.
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