Jose Moises Herrera
M.C. Rigoberto Medina
Viridiana Rivas
Mayra Alejandra Sallas
M.C. Mery Nair Saenz
M.C. Laura Noriega
Juan Daniel Arias
Biol. Manuel Alejandro López
Karla Soledad Ramirez
Frida Vanessa Carnalla
Carlos Alberto Playas
Biol. Luis Castillo
Biol. Abril Monzerrat Aldama
Publicaciones recientes
Lledias,F. Gutierrez,J. Martinez-Hernandez,A. Garcia-Mendoza,A. Sosa,E. Hernandez-Bermudez,F. Dinkova,T.D. Reyes,S. Cassab,G.I. Nieto-Sotelo,J.
2020. Mayahuelin, a Type I Ribosome Inactivating Protein: Characterization, Evolution, and Utilization in Phylogenetic Analyses of Agave Frontiers in Plant Science, 11, 573.
Aristizabal,D. Rivas,V. Cassab,G. Lledias,F.
2019. Heat stress reveals high molecular mass proteasomes in Arabidopsis thaliana suspension cells cultures Plant Physiology And Biochemistry, 140, 78-87.
Noriega-Calixto,L. Campos,M.E. Cassab,G.I.
2019. A method for rapid analysis of the root hydrotropic response in Arabidopsis thaliana Biotechniques, 66, 154-158.
Jimenez-Nopala,G. Salgado-Escobar,A.E. Cevallos-Porta,D. Cardenas,L. Sepulveda-Jimenez,G. Cassab,G. Porta,H.
2018. Autophagy mediates hydrotropic response in Arabidopsis thaliana roots Plant Science, 272, 1-13.
Eapen,D. Martinez-Guadarrama,J. Hernandez-Bruno,O. Flores,L. Nieto-Sotelo,J. Cassab,G.I.
2017. Synergy between root hydrotropic response and root biomass in maize (Zea mays L.) enhances drought avoidance Plant Science, 265, 87-99.
Lledias,F. Hernandez,F. Rivas,V. Garcia-Mendoza,A. Cassab,G.I. Nieto-Sotelo,J.
2017. A Rapid and Reliable Method for Total Protein Extraction from Succulent Plants for Proteomic Analysis Protein Journal, 36, 308-321 [Erratum 19 oct 2017].
Ponce,G. Corkidi,G. Eapen,D. Lledias,F. Cardenas,L. Cassab,G.
2017. Root hydrotropism and thigmotropism in Arabidopsis thaliana are differentially controlled by redox status Plant Signaling and Behavior, 12, e1305536.
Salazar-Blas,A. Noriega-Calixto,L. Campos,M.E. Eapen,D. Cruz-Vazquez,T. Castillo-Olamendi,L. Sepulveda-Jimenez,G. Porta,H. Dubrovsky,J.G. Cassab,G.I.
2017. Robust root growth in altered hydrotropic response1 (ahr1) mutant of Arabidopsis is maintained by high rate of cell production at low water potential gradient Journal of Plant Physiology, 208, 102-114.
Cassab,G.I. Eapen,D. Campos,M.E.
2013. Root hydrotropism: un update American Journal Of Botany, 100, 14-24.
Saucedo,M. Ponce,G. Campos,M.E. Eapen,D. Garcia,E. Lujan,R. Sanchez,Y. Cassab,G.I.
2012. An altered hydrotropic response (ahr1) mutant of Arabidopsis recovers root hydrotropism with cytokinin Journal of Experimental Botany, 63, 3587-3601.
Lopez-Frias,G. Martinez,L.M. Ponce,G. Cassab,G.I. Nieto-Sotelo,J.
2011. Role of HSP101 in the stimulation of nodal root development from the coleoptilar node by light and temperature in maize (Zea mays L.) seedlings Journal of Experimental Botany, 62, 4661-4673.
Barreto,R. Nieto-Sotelo,J. Cassab,G.I.
2010. Influence of plant growth regulators and water stress on ramet induction, rosette engrossment, and fructan accumulation in Agave tequilana Weber var. Azul Plant Cell, Tissue and Organ Culture, 103, 93-101.
Quiroz-Figueroa,F. Rodriguez-Acosta,A. Salazar-Blas,A. Hernandez-Dominguez,E. Campos,M.E. Kitahata,N. Asami,T. Galaz-Avalos,R.M. Cassab,G.I.
2010. Accumulation of High Levels of ABA Regulates the Pleiotropic Response of the nhr1 Arabidopsis Mutant Journal of Plant Biology, 53, 32-44.
Lujan,R. Lledias,F. Martinez,L.M. Barreto,R. Cassab,G.I. Nieto-Sotelo,J.
2009. Small heat shock proteins and leaf cooling capacity account for the unusual heat-tolerance of the central spike leaves in Agave tequilana var. Weber Plant Cell And Environment, 32, 1791-1803.
Ponce,G. Rasgado,F. Cassab,G.I.
2008. How amyloplasts, water deficit and root tropisms interact? Plant Signaling and Behavior, 3, 460-462.
Ponce,G. Rasgado,F.A. Cassab,G.I.
2008. Roles of amyloplasts and water deficit in root tropisms Plant Cell And Environment, 31, 205-217.
Avila-Fernandez,A. Olvera-Carranza,C. Rudino-Pinera,E. Cassab,G.I. Nieto-Sotelo,J. Lopez-Munguia,A.
2007. Molecular characterization of sucrose: sucrose 1-fructosyltransferase (1-SST) from Agave tequilana Weber var. azul Plant Science, 173, 478-486.
Garcia-Hernandez,E. Cassab-Lopez,G.I.
2005. Structural cell wall proteins from five pollen species and their relationship with boron Brazilian Journal of Plant Physiology, 17, 375-381.
Ponce,G. Barlow,P.W. Feldman,L.J. Cassab,G.I.
2005. Auxin and ethylene interactions control mitotic activity of the quiescent centre, root cap size, and pattern of cap cell differentiation in maize Plant Cell And Environment, 28, 719-732.
Eapen,D. Barroso,M.L. Ponce,G. Campos,M.E. Cassab,G.I.
2005. Hydrotropism: root growth responses to water Trends in Plant Science, 10, 44-50.
Eapen,D. Barroso,M.L. Campos,M.E. Ponce,G. Corkidi,G. Dubrovsky,J.G. Cassab,G.I.
2003. A no hydrotropic response Root Mutant that Responds Positively to Gravitropism in Arabidopsis Plant Physiology, 131, 536-546.
Hawes,M.C. Bengough,G. Cassab,G. Ponce,G.
2002. Root caps and rhizosphere Journal of Plant Growth Regulation, 21, 352-367.
Nieto-Sotelo,J. Martinez,L.M. Ponce,G. Cassab,G.I. Alagon,A. Meeley,R.B. Ribaut,J.M. Yang,R.
2002. Maize HSP101 Plays Important Roles in Both Induced and Basal Thermotolerance and Primary Root Growth Plant Cell, 14, 1621-1633.
Ponce,G. Lujan,R. Campos,M.E. Reyes,A. Nieto-Sotelo,J. Feldman,L.J. Cassab,G.I.
2000. Three maize root-specific genes are not correctly expressed in regenerated caps in the absence of the quiescent center Planta, 211, 23-33.
Cassab,G.I.
1998. Plant cell wall proteins Annual Review Of Plant Physiology And Plant Molecular Biology, 49, 281-309.
Bonilla,I. Mergold-Villasenor,C. Campos,M.E. Sanchez,N. Perez,H. Lopez,L. Castrejon,L. Sanchez,F. Cassab,G.I.
1997. The aberrant cell walls of boron-deficient bean root nodules have no covalently bound hydroxyproline-/proline-rich proteins Plant Physiology, 115, 1329-1340.
Cassab,G.I. Varner,J.E.
1989. Tissue printing on nitrocellulose paper: A new method for immunolocalization of proteins, localization of enzyme activities and anatomical analysis Cell Biology International Reports, 13, 147-152 * .
Cassab,G.I. Varner,J.E.
1988. CELL-WALL PROTEINS Annual Review Of Plant Physiology And Plant Molecular Biology, 39, 321-353 * .
Cassab,G.I. Lin,J.J. Lin,L.S. Varner,J.E.
1988. Ethylene effect on extensin and peroxidase distribution in the subapical region of pea epicotyls. Plant Physiology, 88, 522-524 * .
Cassab,G.I. Varner,J.E.
1987. Immunocytolocalization of extensin in developing soybean seed coats by immunogold-silver staining and by tissue printing on nitrocellulose paper Journal of Cell Biology, 105, 2581-2588 * .
Varner,J.E. Cassab,G.I.
1986. A new protein in petunia Nature, 323, 110-110 * .
Cassab,G.I.
1986. Arabinogalactan proteins during the development of soybean root nodules Planta, 168, 441-446 * .
Cassab,G.I. Nieto-Sotelo,J. Cooper,J.B. Vanholst,G.J. Varner,J.E.
1985. A developmentally regulated hydroxyproline-rich glycoprotein from the cell walls of soybean seed coats. Plant Physiology, 77, 532-535 * .
Eapen,D. Martinez,J. Cassab,G.I. 2015. Assays for Root Hydrotropism and Response to Water Stress en: Blancaflor,E.B. Plant Gravitropism. New York. Springer. pags. 133-142
Cassab,G.I. Sanchez-Guevara,Y. 2008. Mecanismos de desarrollo y fisiología de raíces de plantas superiores en: *agustin Una ventana al quehacer científico. Instituto de Biotecnología de la UNAM 25 aniversario, cap 19. Mexico, D.F.. UNAM. pags. 213-222
Cassab,G.I. 2007. Other Tropisms and their Relationship to Gravitropism en: Masson,P.H. Plant tropisms cap 6. Ames, Iowa. Blackwell Pub. pags. 123-140
Covarrubias,A. Cassab,G.I. Sanchez,F. 2006. Hormones in Plants en: *joseph Molecular Endocrinology. Kerala, India,. Research Signpost. pags. 193-244
Covarrubias,A. Cassab,G.I. 2003. Matriz extracelular de plantas en: Jimenez,L.F. Biología Celular y Molecular. Mexico,D.F.. Prentice Hall. pags. 547-591
Cassab,G.I. Nieto-Sotelo,J. Villanueva,M.A. 1999. The biology of flowering plants en: Paredes.O. Plant biotechnology for food production. Lancaster,Pa.. pags. 3-54
Bonilla,I. Perez,H. Cassab,G. Lara,M. Sanchez,F. 1997. The effect of boron deficiency on development in determinate nodules: changes in cell wall pectin contents and nodule polypeptide expression en: Rerkasem,B. Boron in Soils and Plants: Proceedings of the International Symposium on Boron in Soils and Plants held at Chiang Mai, Thailand, 7-11 September, 1997. Dordrecht. Springer Netherlands. pags. 213-220
Cassab,G.I. 1993. [48] Localization of cell wall proteins using tissue-print western blot techniques en: Wu,R. Methods in Enzymology. pags. 682-688
Cassab,G.I. 1992. CHAPTER 3 en: Pont-Lezica,R.F. Tissue Printing Tools for the Study of Anatomy, Histochemistry, And Gene Expression. Boston. Academic Press. pags. 23-39
Otras Publicaciones Aristizabal,D. Rivas,V. Cassab,G. Lledias,F.
2018. Heat stress reveals high molecular mass proteasomes in Arabidopsis thaliana suspension cells cultures bioRxiv, preprint posted December 20, 2018 [Publicado Plant Physiology and Biochemistry 2019], 501031.
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