1) We have used recent high-throughput methods to evaluate in a simple and time-effective manner the antivirus and antiviroid activity of multiple artificial sRNA constructs designed to target specifically AGO target sites located in TSWV or PSTVd genomic RNAs. Our results show that both classes of artificial sRNAs expressed transiently in N. benthamiana have been effective in interfering specifically with TSWV or PSTVd infection.
2) We have also further developed our RNA immunoprecipitation followed by high-throughput sequencing approach for identifying AGO target transcripts. The efficiency of the recovery of known AGO1 miRNA target sites was dramatically increased by using Micrococcal Nuclease.
3) We tagged several TEV proteins with the TST affinity epitope. Our goal is to create a protein interactor map for each tagged TEV through a proteomics approach including affinity purification from infected tissue and mass spectrometry analysis of host proteins associating with each TST-tagged TEV protein.
Results were disseminated in scientific meetings and workshops:
• Carbonell, A. Nuevas herramientas para el control de la expresión génica en plantas basadas en pequeños RNAs artificiales. Master en Biotecnología y Bioingeniería (06/05/2016), Instituto de Biología y Bioingeniería, Universidad Miguel Hernández, Elche, Spain.
• Cordero, T., Cerdán, L., Carbonell, A., Katsarou, K., Kalantidis, K. and Daròs, J.A. DICER-LIKE4 está implicado en la restricción del movimiento del virus del mosaico amarillo del calabacín en Nicotiana benthamiana. Oral presentation. XVIII Congreso Nacional de la Sociedad Española de Fitopatología (20/09/16-23/09/16), Palencia, Spain.
• Cordero, T., Rosado, A., Carbonell, A., Aragonés, V., Monzó, I., Jaramillo, A., Rodrigo, G. and Daròs, J.A. Detección de patógenos mediante circuitos reguladores de plantas. Poster. XVIII Congreso Nacional de la Sociedad Española de Fitopatología (20/09/16-23/09/16), Palencia, Spain.
• Carbonell, A., Fahlgren, N. Carrington, J.C. and Daròs J.A. Genome-wide identificatioon of ARGONAUTE-bound target RNAs in Arabidopsis. Oral presentation. XIII Reunión de Biología Molecular de Plantas (22/06/16-24/06/16), Oviedo, Spain.
• Carbonell, A. and Daròs JA. Producción de pequeños RNAs artificiales para el control de la expresión génica y defensa antiviral en plantas. Oral presentation. XII Reunión Ribored. (06/02/16-06/03/16), Madrid, Spain.
Results were published in peer-reviewed publications:
• Carbonell (2017). Methods in Molecular Biology 1640: 1-21.
• Carbonell (2017). Methods in Molecular Biology 1640: 93-112.
• Kénesi et al. (2017. Nucleic Acids Research (in press).
• Carbonell&Daròs (2017). Molecular Plant Pathology 18: 746-753.
• Cordero et al. Molecular Plant-Microbe Interactions 30: 63-71.
• Carbonell et al. Plant virus RNA replication. In: eLS.
• Carbonell et al. (2016). RNA and Disease 3: e1130.
• Carbonell&Carrington (2015). Current Opinion in Plant Biology 27: 111-117.