IBT-UNAM : Dra. Liliana Medina Aparicio | Dra. Liliana Medina Aparicio
 Investigador en estancia postdoctoral Grupo del Dr. Ismael Hernández | email: | limedap | @ibt.unam.mx |
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Teléfonos Laboratorio +52 (777) 329-1777 ext .
red UNAM
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Publicaciones recientes
Angel-Lerma,L.E. Merino,E. Kwon,O. Medina-Aparicio,L. Hernandez-Lucas,I. Alvarez,A.F. Georgellis,D.
2021. Protein dosage of the lldPRD operon is correlated with RNase E-dependent mRNA processing Journal of Bacteriology, 203, e00555-20.
Rebollar-Flores,J.E. Medina-Aparicio,L. Osio-Becerro,V.E. Villarreal,J.M. Mayo,S. Mendoza,B.D. Rodriguez-Gutierrez,S. Olvera,L. Davila,S. Encarnacion,S. Martinez-Batallar,G. Calva,E. Hernandez-Lucas,I.
2020. The Salmonella enterica serovar Typhi ltrR gene encodes two proteins whose transcriptional expression is up-regulated by alkaline pH and repressed at their promoters and coding regions by H-NS and Lrp Journal of Bacteriology, 202, e00783-19.
Arteaga-Ide,A. Hernandez,V.M. Medina-Aparicio,L. Carcamo-Noriega,E. Girard,L. Hernandez-Lucas,I. Dunn,M.F.
2020. Genetic regulation, biochemical properties and physiological importance of arginase from Sinorhizobium meliloti Microbiology, 166, 484-497.
Elizalde-Diaz,J.P. Hernandez-Lucas,I. Medina-Aparicio,L. Davalos,A. Leija,A. Alvarado-Affantranger,X. Garcia-Garcia,J.D. Hernandez,G. Garcia-de Los Santos,A.
2019. Rhizobium tropici CIAT 899 copA gene plays a fundamental role in copper tolerance in both free life and symbiosis with Phaseolus vulgaris Microbiology, 165, 651-661.
Medina-Aparicio,L. Davila,S. Rebollar-Flores,J.E. Calva,E. Hernandez-Lucas,I.
2018. The CRISPR-Cas system in Enterobacteriaceae Pathogens and Disease, 76, fty002.
Bustillos-Cristales,M.D.R. Corona-Gutierrez,I. Castaneda-Lucio,M. Aguila-Zempoaltecatl,C. Seynos-Garcia,E. Hernandez-Lucas,I. Munoz-Rojas,J. Medina-Aparicio,L. Fuentes-Ramirez,L.E.
2017. Culturable Facultative Methylotrophic Bacteria from the Cactus Neobuxbaumia macrocephala Possess the Locus xoxF and Consume Methanol in the Presence of Ce3+ and Ca2 Microbes and Environment, 32, 244-251.
Medina-Aparicio,L. Rebollar-Flores,J.E. Beltran-Luviano,A.A. Vazquez-Ramos A. Gutierrez-Rios,R.M. Olvera,L. Calva,E. Hernandez-Lucas,I.
2017. The CRISPR-Cas system presents multiple transcriptional units including antisense RNAs that are expressed in minimal medium and up-regulated by pH in Salmonella enterica serovar Typhi Microbiology, 163, 253-265.
Villarreal,J.M. Becerra-Lobato,N. Rebollar-Flores,J.E. Medina-Aparicio,L. Carbajal-Gomez,E. Zavala-Garcia,M.L. Vazquez,A. Gutierrez-Rios,R.M. Olvera,L. Encarnacion,S. Martinez-Batallar,A.G. Calva,E. Hernandez-Lucas,I.
2014. The Salmonella enterica Serovar Typhi ltrR-ompR-ompC-ompF Genes are Involved in Resistance to the Bile Salt Sodium Deoxycholate and in Bacterial Transformation Molecular Microbiology, 92, 1005-1024.
Gallego-Hernandez,A.L. Hernandez-Lucas,I. De la Cruz,M.A. Olvera,L. Morett,E. Medina-Aparicio,L. Ramirez-Trujillo,J.A. Vazquez,A. Fernandez-Mora,M. Calva,E.
2012. Transcriptional regulation of the assT-dsbL-dsbI gene cluster depends on LeuO, H-NS and specific growth conditions in Salmonella enterica serovar Typhi IMSS-1 Journal of Bacteriology, 194, 2254-2264.
Medina-Aparicio,L. Rebollar-Flores,J.E. Gallego-Hernandez,A.L. Vazquez,A. Olvera,L. Gutierrez-Rios,R.M. Calva,E. Hernandez-Lucas,I.
2011. The CRISPR/Cas immune system is an operon regulated by LeuO, H-NS and LRP in Salmonella enterica serovar Typhi Journal of Bacteriology, 193, 2396-2407.
