Publications
2025
Drs, M., Iakovenko, O., Orozco Hernández, J. S., Trhlínová, P. B., Marković, V., Žárský, V., Pečenková, T., & Janda, M.* (2025). Salicylic acid accumulation correlates with low anthocyanin production in Arabidopsis. Journal of plant physiology, 314, 154604. Advance online publication. https://doi.org/10.1016/j.jplph.2025.154604
Hernandéz Orozco, J.S., Iakovenko, O., Zeiner, A., Hronková, M., Kubásek, J., Kučerová, B., Vachová, I., Pop, S., Maršík, P., Macho, M., Fojtíková, P., Rychlá, A., Hejna, O., Kulich, I., Wrzaczek, M. & Janda, M.*, 2025. Pattern-triggered immunity in blue and white seed cultivars of Papaver somniferum. bioRxiv 2025.02.23.639761. https://doi.org/10.1101/2025.02.23.639761 (Preprint - accepted in AoB Plants)
Kulich, I., Oulehlová, D., Vladimirtsev, D., Zou, M., Lileikyte, E., Bondar, A., Kulichová, K., Janda, M., Iakovenko, O., Neubergerová, M., Studtrucker, T., Pleskot, R., Dietrich, P., Fendrych, M. & Friml, J., 2025. Armadillo Repeat Only Proteins Are Required for the Function of Plant CNGC Channels. bioRxiv 2025.01.06.631460. https://doi.org/10.1101/2025.01.06.631460 (Preprint)
2024
Janda, M.* (2024). Methods in plant science. Journal of experimental botany, 75(17), 5163–5168. https://doi.org/10.1093/jxb/erae328
Janda, M.,* & Kalachova, T. (2024). Editorial to Special Issue "Plant-Microbe Interactions". Biologia plantarum, 68, Article 50-51. https://doi.org/10.32615/bp.2024.006
2023
Kubásek, J., Kalistová, T., Janová, J., Askanbayeva, B., Bednář, J., & Šantrůček, J. (2023). 13 CO2 labelling as a tool for elucidating the mechanism of cuticle development: a case of Clusia rosea. New Phytologist, 238(1), 202–215. https://doi.org/10.1111/nph.18716
Janda, M., Rybak, K., Krassini, L., Meng, C., Feitosa-Junior, O., Stigliano, E., Szulc, B., Sklenar, J., Menke, F. L. H., Malone, J. G., Brachmann, A., Klingl, A., Ludwig, C., & Robatzek, S. (2023). Biophysical and proteomic analyses of Pseudomonas syringae pv. tomato DC3000 extracellular vesicles suggest adaptive functions during plant infection. mBio, 14(4), e0358922. https://doi.org/10.1128/mbio.03589-22
2022
Janda, M., & Robatzek, S. (2022). Extracellular vesicles from phytobacteria: Properties, functions and uses. Biotechnology advances, 58, 107934. https://doi.org/10.1016/j.biotechadv.2022.107934
* Corresponding author
**These authors contributed equally to the work
2021
Junková P., Neubergerová M., Kalachova T., Valentová O., Janda M.* (2021). Regulation of the microsomal proteome by salicylic acid and deficiency of phosphatidylinositol-4-kinases β1 and β2 in Arabidopsis thaliana. Proteomics. doi: 10.1002/pmic.202000223
2020
Leontovyčová H, Kalachova T, Janda M*. (2020). Disrupted actin: a novel player in pathogen attack sensing? New Phytologist, doi: 10.1111/nph.16584
Kalachova, T.**, Janda, M.**, Šašek, V., Ortmannová, J., Nováková, P., Dobrev, I. P., Kravets, V., Guivarc'h, A., Moura, D., Burketová, L., Valentová, O., & Ruelland, E. (2020). Identification of salicylic acid-independent responses in an Arabidopsis phosphatidylinositol 4-kinase beta double mutant. Annals of botany, 125(5), 775–784. https://doi.org/10.1093/aob/mcz112
2019
Pluhařová, K.; Leontovyčová, H.; Stoudková, V.; Pospíchalová, R.; Maršík, P.; Klouček, P.; Starodubtseva, A.; Iakovenko, O.; Krčková, Z.; Valentová, O.; Burketová, L., Janda M.*, Kalachová T.*. (2019) “Salicylic Acid Mutant Collection” as a Tool to Explore the Role of Salicylic Acid in Regulation of Plant Growth under a Changing Environment. Int. J. Mol. Sci., 20, 6365. https://doi.org/10.3390/ijms202463652019
Trdá, L., Janda, M., Macková, D., Pospíchalová, R., Dobrev, P. I., Burketová, L., & Matušinsky, P. (2019). Dual Mode of the Saponin Aescin in Plant Protection: Antifungal Agent and Plant Defense Elicitor. Frontiers in plant science, 10, 1448. https://doi.org/10.3389/fpls.2019.01448
Kalachova T, Leontovyčová H, Iakovenko O, Pospíchalová R, Maršík P, Klouček P, Janda M, Valentová O, Kocourková D, Martinec J, Burketová L, Ruelland E. (2019). Interplay between phosphoinositides and actin cytoskeleton in the regulation of immunity related responses in Arabidopsis thaliana seedlings, Environmental and Experimental Botany, 167, https://doi.org/10.1016/j.envexpbot.2019.103867
Leontovyčová H, Kalachova T, Trdá L, Pospíchalová R, Lamparová L, Dobrev PI, Malínská K, Burketová L, Valentová O, Janda M.* (2019). Actin depolymerization is able to increase plant resistance against pathogens via activation of salicylic acid signalling pathway. Scientific reports, 9, 1-10. https://doi.org/10.1038/s41598-019-46465-5
Janda M*, Lamparová L*, Zubíková A, Burketová L, Martinec J, Krčková Z. (2019). Temporary heat stress suppresses PAMP-triggered immunity and resistance to bacteria in Arabidopsis thaliana. Molecular Plant Pathology, https://doi.org/10.1111/mpp.12799
Kroumanová K, Kocourková D., Daněk M, Lamparová L, Pospíchalová R, Malínská K, Krčková Z, Burketová L, Valentová O, Martinec J, Janda M.* (2019). Characterisation of Arabidopsis flotillins in response to stresses. Biologia plantarum, 63, 144-152, doi: 10.32615/bp.2019.017
2018
Junková P, Daněk M, Kocourková D, Brouzdová J, Kroumanová K, Zelazny E, Janda M, Hynek R, Martinec J, Valentová O. (2018). mapping of plasma membrane proteins interacting with Arabidopsis thaliana flotillin 2. Frontiers in Plant Science, doi: 10.3389/fpls.2018.00991
Krčková Z, Kocourková D, Daněk M, Brouzdová J, Pejchar P, Janda M, Pokotylo I, Ott P, Valentová O, Martinec J. (2018). The Arabidopsis thaliana NON-SPECIFIC PHOSPHOLIPASE C2 is involved in response to Pseudomonas syringae attack. Annals of Botany, 12; 121; 297-310 doi: 10.1093/aob/mcx160
2017
Pečenková T**, Janda M**, Ortmannová J, Hajná V, Stehlíková Z, Žárský V. (2017) Early Arabidopsis root hair growth stimulation by pathogenic strains of Pseudomonas syringae. Annals of Botany, doi: 10.1093/aob/mcx073
2015
Janda M, Šašek V, Chmelařova H, Andrejch J, Nováková M, Hajšlová J, Burketová L, Valentová O. (2015). Phospholipase D affects translocation of NPR1 to the nucleus in Arabidopsis thaliana. Frontiers in Plant Science, 6, 59. doi: 10.3389/fpls.2015.00059
Janda M**, Ježková L**, Nováková M, Valentová O, Burketová L, Šašek V. (2015). Identification of phospholipase D genes in Brassica napus and the transcriptional analysis after phytohormone treatment and pathogen infection. Biologia Plantarum, 59: 581-590. doi: 10.1007/s10535-015-0513-2
Janda M, Navrátil O, Haisel D, Jindřichová B, Fousek J, Burketová L, Čeřovská N, Moravec T. (2015) Growth and stress response in Arabidopsis thaliana, Nicotiana benthamiana, Glycine max, Solanum tuberosum and Brassica napus cultivated under polychromatic LEDs. Plant Methods, 11: 31 doi:10.1186/s13007-015-0076-4
2014
Šašek V, Janda M, Delage E, Puyaubert J, Guivarc'h A, López Maseda E, Dobrev P, Caius J, Bóka K, Valentová O, Burketová L, Zachowski A, Ruelland E. (2014). Constitutive salicylic acid accumulation in pi4kIIIβ1β2 Arabidopsis plants stunts rosette but not root growth. New Phytologist, 203, 805-816. doi: 10.1111/nph.12822
Matoušková J, Janda M, Fišer R, Šašek V, Kocourková D, Burketová L, Dušková J, Martinec J, Valentová O. (2014) Changes in actin dynamics are involved in salicylic acid signaling pathway. Plant Science, 223, 36-44. doi: 10.1016/j.plantsci.2014.03.002
Janda M, Ruelland E. (2014). Magical mystery tour: Salicylic acid signalling, Environmental and Experimental Botany, doi: 10.1016/j.envexpbot.2014.07.003
Janda M, Matoušková J, Burketová L, Valentová O. (2014) Interconnection between actin cytoskeleton and plant defence signalling, Plant Signaling and Behavior, doi: 10.4161/15592324.2014.976486
Janda M, Šašek V, Ruelland E. (2014) Distinct regulation of rosette and root growth in the salicylic acid-accumulating pi4kIIIβ1β2 double mutant, Plant Signaling and Behavior, doi: 10.4161/15592324.2014.97721
2013
Janda M, Planchais S, Djafi N, Martinec J, Burketová L, Valentová O, Zachowski A, Ruelland E. (2013). Phosphoglycerolipids are master players in plant hormone signal transduction. Plant Cell Reports, 32, 839-851. doi: 10.1007/s00299-013-1399-0
* Corresponding author
**These authors contributed equally to the work
Publications not in WOS core collection database:
Šantrůček, J. & Kalistová, T. (2025). Měření výměny plynů jako nástroj pro studium fotosyntézy I., Živa 4,str. 152 - 156
Kubásek, J. & Kalistová, T. (2025). Stabilní izotopy pomáhají objevovat a měřit fotosyntézu. Živa 4, str.173 – 177
Šantrůček, J. & Kalistová, T. (2025). Měření výměny plynů jako nástroj pro studium fotosyntézy II., Živa 4, str. CXIX – CXXI
Janda M. (2020). Co nám přináší výzkum interakce rostlin s patogeny? Živa 1, str. 10 - 11
Trdá, L. & Janda, M.* (2016). Rostlinná imunita (Plant imunnity), Bioprospect, 26, 2, 20-24 ISSN: 1210-1737
Janda, M. & Valentová, O. (2014). Kyselina salicylová (Salicylic acid), Bioprospect, 24, 1, 9-12. ISSN: 1210-1737
Janda, M. (2011). Transgenní stromy (Transgenic trees), Bioprospect, 21, 2, 41-43. ISSN: 1210-1737
Amrahov, N., Janda, M., Mammadov, Z., Valentová, O., Burketová, L. & Quliyev, A. (2019) Influence of salt stress on the flg22 induced ROS production in Arabidopsis thaliana leaves, bioRxiv 727040. doi: https://doi.org/10.1101/727040
Popularizing science
Vesmír: https://vesmir.cz/cz/o-nas/autori/j/janda-martin.html
Živa: https://ziva.avcr.cz/autori/martin-janda.html
