Dra. Ana Isabel Chávez Martínez
Investigador Posdoctoral CONAHCyT

  • Doctorado, Doctora

Total de publicaciones: 11
  • Tipo
  • Fecha
Open Access Artículo
2 - Maruri-Lopez,I., Romero-Contreras,Y.J., Napsucialy-Mendivil,S., Gonzalez-Perez,E., Aviles-Baltazar,N.Y., Chavez-Martinez,A.I., Flores-Cuevas,E.J., Schwan-Estrada,K.R.F., Dubrovsky,J.G., Jimenez-Bremont,J.F, Serrano,M. (2024). A biostimulant yeast, Hanseniaspora opuntiae, modifies Arabidopsis thaliana root architecture and improves the plant defense response against Botrytis cinerea. Planta, 259 (3), 53.
Revisión
5 - Jimenez-Bremont,J.F., Chavez-Martinez,A.I., Ortega-Amaro,M.A., Guerrero-Gonzalez,M.L., Jasso-Robles,F.I., Maruri-Lopez,I., Liu,J.H., Gill,S.S., Rodriguez-Kessler,M. (2022). Translational and post-translational regulation of polyamine metabolic enzymes in plants. Journal of Biotechnology, 344, 1-10. *
Artículo
6 - Chavez-Martinez,A.I., Ortega-Amaro,M.A., Torres,M., Serrano,M., Jimenez-Bremont,J.F. (2020). Arabidopsis adc-silenced line exhibits differential defense responses to Botrytis cinerea and Pseudomonas syringae infection. Plant Physiology And Biochemistry, 156, 494-503. *
Artículo
7 - Chavez-Martinez,A.I., Jasso-Robles,F.I., Rodriguez-Kessler,M., Gill,S.S., Becerra-Flora,A., Jimenez-Bremont,J.F. (2018). Down-regulation of arginine decarboxylase gene-expression results in reactive oxygen species accumulation in Arabidopsis. Biochemical and Biophysical Research Communications, 506 (4), 1071-1077. *
Open Access Artículo
8 - Sanchez-Rangel,D., Chavez-Martinez,A.I., Rodriguez-Hernandez,A.A., Maruri-Lopez,I., Urano,K., Shinozaki,K., Jimenez-Bremont,J.F. (2016). Simultaneous Silencing of Two Arginine Decarboxylase Genes Alters Development in Arabidopsis. Frontiers in Plant Science, 7. *
Capítulo internacional
9 - Jimenez-Bremont,J.F., Rodriguez-Kessler,M., Ortega-Amaro,M.A., Groppa,M.D., Cabrera,A.V., Recalde,L., Benavides,M.P., Chavez-Martinez,A.I., Gill,S.S., Guerrero-Gonzalez,M.L. (2023). 12. Polyamines and metal stress tolerance in plants. Biostimulants in Alleviation of Metal Toxicity in Plants. 267-294.
Artículo
Open Access Artículo
14 - Maruri-Lopez,I., Romero-Contreras,Y.J., Napsucialy-Mendivil,S., Gonzalez-Perez,E., Aviles-Baltazar,N.Y., Chavez-Martinez,A.I., Flores-Cuevas,E.J., Schwan-Estrada,K.R.F., Dubrovsky,J.G., Jimenez-Bremont,J.F, Serrano,M.. A biostimulant yeast, Hanseniaspora opuntiae, modifies Arabidopsis thaliana root architecture and improves the plant defense response against Botrytis cinerea. Planta, 259 (3), 53.
Preprint
Open Access Artículo
Open Access Artículo
Capítulo internacional
18 - Jimenez-Bremont,J.F., Rodriguez-Kessler,M., Ortega-Amaro,M.A., Groppa,M.D., Cabrera,A.V., Recalde,L., Benavides,M.P., Chavez-Martinez,A.I., Gill,S.S., Guerrero-Gonzalez,M.L.. 12. Polyamines and metal stress tolerance in plants. Biostimulants in Alleviation of Metal Toxicity in Plants. 267-294.
Revisión
19 - Jimenez-Bremont,J.F., Chavez-Martinez,A.I., Ortega-Amaro,M.A., Guerrero-Gonzalez,M.L., Jasso-Robles,F.I., Maruri-Lopez,I., Liu,J.H., Gill,S.S., Rodriguez-Kessler,M.. Translational and post-translational regulation of polyamine metabolic enzymes in plants. Journal of Biotechnology, 344, 1-10. *
Artículo
20 - Chavez-Martinez,A.I., Ortega-Amaro,M.A., Torres,M., Serrano,M., Jimenez-Bremont,J.F.. Arabidopsis adc-silenced line exhibits differential defense responses to Botrytis cinerea and Pseudomonas syringae infection. Plant Physiology And Biochemistry, 156, 494-503. *
Artículo
21 - Chavez-Martinez,A.I., Jasso-Robles,F.I., Rodriguez-Kessler,M., Gill,S.S., Becerra-Flora,A., Jimenez-Bremont,J.F.. Down-regulation of arginine decarboxylase gene-expression results in reactive oxygen species accumulation in Arabidopsis. Biochemical and Biophysical Research Communications, 506 (4), 1071-1077. *
Open Access Artículo
22 - Sanchez-Rangel,D., Chavez-Martinez,A.I., Rodriguez-Hernandez,A.A., Maruri-Lopez,I., Urano,K., Shinozaki,K., Jimenez-Bremont,J.F.. Simultaneous Silencing of Two Arginine Decarboxylase Genes Alters Development in Arabidopsis. Frontiers in Plant Science, 7. *