@article{merchante_stepanova_2017, title={The triple response assay and its use to characterize ethylene mutants in Arabidopsis}, volume={1573}, journal={Ethylene signaling: methods and protocols}, author={Merchante, C. and Stepanova, A. N.}, year={2017}, pages={163–209} }
 @inproceedings{hu_merchante_stepanova_alonso_heber_2015, title={A stacking-based approach to identify translated upstream open reading frames in Arabidopsis thaliana}, volume={9096}, booktitle={Bioinformatics research and applications (isbra 2015)}, author={Hu, Q. W. and Merchante, C. and Stepanova, A. N. and Alonso, J. M. and Heber, S.}, year={2015}, pages={138–149} }
 @article{merchante_brumos_yun_hu_spencer_enriquez_binder_heber_stepanova_alonso_2015, title={Gene-Specific Translation Regulation Mediated by the Hormone-Signaling Molecule EIN2}, volume={163}, ISSN={["1097-4172"]}, url={http://www.scopus.com/inward/record.url?eid=2-s2.0-84948814371&partnerID=MN8TOARS}, DOI={10.1016/j.cell.2015.09.036}, abstractNote={The central role of translation in modulating gene activity has long been recognized, yet the systematic exploration of quantitative changes in translation at a genome-wide scale in response to a specific stimulus has only recently become technically feasible. Using the well-characterized signaling pathway of the phytohormone ethylene and plant-optimized genome-wide ribosome footprinting, we have uncovered a molecular mechanism linking this hormone's perception to the activation of a gene-specific translational control mechanism. Characterization of one of the targets of this translation regulatory machinery, the ethylene signaling component EBF2, indicates that the signaling molecule EIN2 and the nonsense-mediated decay proteins UPFs play a central role in this ethylene-induced translational response. Furthermore, the 3'UTR of EBF2 is sufficient to confer translational regulation and required for the proper activation of ethylene responses. These findings represent a mechanistic paradigm of gene-specific regulation of translation in response to a key growth regulator.}, number={3}, journal={CELL}, author={Merchante, Catharina and Brumos, Javier and Yun, Jeonga and Hu, Qiwen and Spencer, Kristina R. and Enriquez, Paul and Binder, Brad M. and Heber, Steffen and Stepanova, Anna N. and Alonso, Jose M.}, year={2015}, month={Oct}, pages={684–697} }
 @inproceedings{hu_merchante_stepanova_alonso_heber_2015, title={Mining transcript features related to translation in Arabidopsis using LASSO and random forest}, url={http://www.scopus.com/inward/record.url?eid=2-s2.0-84960900444&partnerID=MN8TOARS}, DOI={10.1109/iccabs.2015.7344713}, abstractNote={Translation is an important process for all living organisms. During translation, messenger RNA is rewritten into protein. Multiple control mechanisms determine how much protein is generated during translation. In particular, several regulatory elements located on mRNA transcripts are known to affect translation. In this study, a genome-wide analysis was performed to mine features related to translation in the genome of Arabidopsis thaliana. We used ribosome footprinting data to measure translation and constructed a predictive model using LASSO and random forest to select features that likely affect translation. We identified multiple transcript features and measured their influence on translation in different transcript regions. We found that features related to different translation stages may have a different impact on translation; often, features relevant to the elongation step were playing a stronger role. Interestingly, we found that the contribution of features may be different for transcripts belonging to different functional groups, suggesting that transcripts might employ different mechanisms for the regulation of translation.}, booktitle={International conference on computational advances in bio and medical}, author={Hu, Q. W. and Merchante, C. and Stepanova, A. N. and Alonso, Jose and Heber, S.}, year={2015} }
 @misc{merchante_alonso_stepanova_2013, title={Ethylene signaling: simple ligand, complex regulation}, volume={16}, ISSN={["1879-0356"]}, url={http://www.scopus.com/inward/record.url?eid=2-s2.0-84885368622&partnerID=MN8TOARS}, DOI={10.1016/j.pbi.2013.08.001}, abstractNote={The hormone ethylene plays numerous roles in plant development. In the last few years the model of ethylene signaling has evolved from an initially largely linear route to a much more complex pathway with multiple feedback loops. Identification of key transcriptional and post-transcriptional regulatory modules controlling expression and/or stability of the core pathway components revealed that ethylene perception and signaling are tightly regulated at multiple levels. This review describes the most current outlook on ethylene signal transduction and emphasizes the latest discoveries in the ethylene field that shed light on the mechanistic mode of action of the central pathway components CTR1 and EIN2, as well as on the post-transcriptional regulatory steps that modulate the signaling flow through the pathway.}, number={5}, journal={CURRENT OPINION IN PLANT BIOLOGY}, author={Merchante, Catharina and Alonso, Jose M. and Stepanova, Anna N.}, year={2013}, month={Oct}, pages={554–560} }