Selected publications
Liu, Z.*, Hartman, S.*, van Veen, H.*, Zhang, H., Leeggangers, HACF., Martopawiro, S., Bosman, F., de Deugd, F., Su, P., Hummel, M., Rankenberg, T., Hassall, K., Bailey-Serres, J., Theodoulou, FL., Voesenek, LACJ. Sasidharan, R. (2022). Ethylene augments root hypoxia tolerance via growth cessation and reactive oxygen species amelioration. Plant Physiology, 190 (2): 1365-1383.
Daniel, K., Hartman, S. (2024). How plant roots respond to waterlogging. Journal of Experimental Botany, 75 (2), 511-525.
Pandey, BK*., Huang, G*., Bhosale, R., Hartman, S., Sturrock, GJ., Jose, L., Martin, OC., Karady, M., Voesenek, LACJ., Ljung, K., Lynch, JP., Brown, KM., Whalley, WR., Mooney, SJ., Zhang, D., Bennett, MJ. (2021). Plant roots sense soil compaction through restricted ethylene diffusion, Science, 371 (6526), 276-280.
Hartman, S., Liu, Z., van Veen, H.., Vicente, J., Reinen, E., Martopawiro, S., Zhang, H., van Dongen, N., Bosman, F., Bassel, GW., Visser, EJW., Bailey-Serres, J., Theodoulou, FL., Hebelstrup, KH., Gibbs, DJ., Holdsworth, MJ., Sasidharan, R., Voesenek, LACJ. (2019). Ethylene-mediated nitric oxide depletion pre-adapts plants to hypoxia stress. Nature Communications, 10 (1).
Gibbs, DJ., Tedds, HM., Labandera, A-M., Bailey, M., White, MD., Hartman, S., Sprigg, C., Mogg, SL., Osborne, R., Dambire, C., Boeckx, T., Paling, Z., Voesenek, LACJ., Flashman, E., Holdsworth, MJ. (2018). Oxygen-dependent proteolysis regulates the stability of angiosperm polycomb repressive complex 2 subunit VERNALIZATION 2. Nature Communications, 9 (1).
Full Publication List
2024
Schippers, JH., von Bongartz, K., Laritzki, L., Frohn, S., Frings, S., Renziehausen, T., Augstein, F., Winkels, K., Sprangers, K., Sasidharan, R., Vertommen, D., van Breusegem, F., Hartman, S., Beemster, GTS., Mhamdi, A., van Dongen, JT., Schmidt-Schippers, R. (2024). ERFVII-controlled hypoxia responses are in part facilitated by MEDIATOR SUBUNIT 25 in Arabidopsis thaliana. The Plant Journal
Guan, Y., Gajewska, J., Sobieszczuk-Nowicka, E., Floryszak-Wieczorek, J., Hartman, S., Arasimowicz-Jelonek, M. (2024). The effect of nitrosative stress on histone H3 and H4 acetylation in Phytophthora infestans life cycle. Plant Physiology and Biochemistry, 216, 109-129.
Maric, A. (2024). Memories that last: Epigenetic regulation of cold stress response prepares plants for subsequent stress events. Plant Physiology, in press.
Renziehausen, T.*, Chaudhury, R.*, Hartman, S.", Mustroph, A.", Schmidt-Schippers, R." (2024). A mechanistic integration of hypoxia signaling with energy, redox and hormonal cues. Plant Physiology, in press.
" Shared senior authors
Daniel, K., Hartman, S. (2024). How plant roots respond to waterlogging. Journal of Experimental Botany, 75 (2), 511-525.
Maric, A. (2024). A balancing act: ERFVII feedback loops finetune the flooding stress response. Plant Physiology, 194 (3), 1271-1272.
David, O.A., Labulo, A.H., Hassan, I. et al. (2024) Complexation and immobilization of arsenic in maize using green synthesized silicon nanoparticles (SiNPs). Scientific Reports, 14, 6176.
Maric, A. (2024). The underground tango: How ethylene and auxin interact to regulate cereal root angle. Plant Physiology, 195 (3), 1757-1758.
Osborne, R., Labandera, AM., Ryder, A.J., Kanali, A., Akintewe, O., Schwarze, MA., Morgan, CD., Xu, T., Hartman, S., Kaiserli, E. and Gibbs, DJ. (2024). VRN2-PRC2 facilitates light-triggered repression of PIF signalling to coordinate growth in Arabidopsis. BioRxiv
2023
Maric, A., Hartman, S. (2023). The leaf sheath promotes prolonged flooding protection by giving rise to specialized adventitious roots. New Phytologist, 238: 1337-1339.
Maric, A. (2023). Hit the acceleration petal: Methylation as a mediator of ethylene-induced petal senescence. Plant Physiology, 192 (1), 17–18.
Maric, A. (2023). Beyond the genetics of flowering: Integration of ethylene signaling and histone methylation controls flowering time. Plant Physiology, 192 (3), 2224–2226.
Ugalde, JM., Maric, A. (2023). In my own time: A non-cell-autonomous circadian regulation in plant cells. Plant Physiology, 193 (1), 159-161.
Huang, G., Kilic, A., Karady, M., Zhang, J., Mehra, P., Song, X., Sturrock, CJ., Zhu, W., Qin, H., Hartman, S., Schneider, HM., Bhosale, R., Dodd, IC., Sharpi, RE., Huang, R., Mooney, SJ., Liang, W., Bennett, MJ., Zhang, D., Pandey, BK. (2022). Ethylene inhibits rice root elongation in compacted soil via ABA- and auxin-mediated mechanisms. Proceedings of the National Academy of Sciences, 119: 1–21.
Maric, A., Hartman, S. (2022). Ethylene controls translational gatekeeping to overcome flooding stress in plants. The EMBO Journal, 41 (19): e112282.
2022
Liu, Z.*, Hartman, S.*, van Veen, H.*, Zhang, H., Leeggangers, HACF., Martopawiro, S., Bosman, F., de Deugd, F., Su, P., Hummel, M., Rankenberg, T., Hassall, K., Bailey-Serres, J., Theodoulou, FL., Voesenek, LACJ. Sasidharan, R. (2022). Ethylene augments root hypoxia tolerance via growth cessation and reactive oxygen species amelioration. Plant Physiology, 190 (2), 1365-1383.
Courbier, S., Hartman, S. (2022). WRKYs Work to Limit Root Growth in Response to Shade, Plant Physiology, 188 (2), 937-938.
Huang, X., Shabala, L., Zhang, X., Zhou, M., Voesenek, LACJ., Hartman, S., Yu, M., Shabala, S. (2022). Cation transporters in cell fate determination and plant adaptive responses to the low oxygen environment, Journal of Experimental Botany, 73 (3), 636-645.
2021
Hartman, S. (2021). NIN-like Protein7 is Controlled by Oxygen and Nitric Oxide and Contributes to Stress Tolerance through PROTEOLYSIS6, Plant Physiology, 187 (4), 2346–2347.
Pandey, BK*., Huang, G*., Bhosale, R., Hartman, S., Sturrock, GJ., Jose, L., Martin, OC., Karady, M., Voesenek, LACJ., Ljung, K., Lynch, JP., Brown, KM., Whalley, WR., Mooney, SJ., Zhang, D., Bennett, MJ. (2021). Plant roots sense soil compaction through restricted ethylene diffusion, Science, 371 (6526), 276-280.
Hartman, S. (2021). Averting a Sweet Demise: Sugars Change the Transcriptional Hypoxia Response in Maize Roots, Plant Physiology, 185 (2), 280-281.
Hartman, S., Sasidharan, R., Voesenek, LACJ. (2021). The role of ethylene in metabolic acclimations to low oxygen. New Phytologist, 229 (1), 64-70.
2020
Hartman, S. (2020). MED25 Mediates Shade-Induced Hypocotyl Elongation in Tomato, Plant Physiology, 184 (3), 1217-1218.
Hartman, S. (2020). MaXB3 Limits Ethylene Production and Ripening of Banana Fruits, Plant Physiology, 184 (2), 568-569.
Hartman, S., van Dongen, N., Rennenberg, D., Welschen-Evertman, RAM., Kociemba, J., Sasidharan, R., Voesenek, LACJ. (2020). Ethylene Differentially Modulates Hypoxia Responses and Tolerance across Solanum Species, Plants, 9 (8), 1022.
Hartman, S. (2020). The Meaning of an End: N-Terminal Acetyltransferase NAA50 Controls Plant Growth and Stress Responses, Plant Physiology, 183 (4), 1410-1411.
Hartman, S. (2020). Trapped In the Rhizosheath: Root-Bacterial Interactions Modulate Ethylene Signaling. Plant Physiology, 183 (2), 443-444.
2019
Hartman, S., Liu, Z., van Veen, H.., Vicente, J., Reinen, E., Martopawiro, S., Zhang, H., van Dongen, N., Bosman, F., Bassel, GW., Visser, EJW., Bailey-Serres, J., Theodoulou, FL., Hebelstrup, KH., Gibbs, DJ., Holdsworth, MJ., Sasidharan, R., Voesenek, LACJ. (2019). Ethylene-mediated nitric oxide depletion pre-adapts plants to hypoxia stress. Nature Communications, 10 (1).
2018
Gibbs, DJ., Tedds, HM., Labandera, A-M., Bailey, M., White, MD., Hartman, S., Sprigg, C., Mogg, SL., Osborne, R., Dambire, C., Boeckx, T., Paling, Z., Voesenek, LACJ., Flashman, E., Holdsworth, MJ. (2018). Oxygen-dependent proteolysis regulates the stability of angiosperm polycomb repressive complex 2 subunit VERNALIZATION 2. Nature Communications, 9 (1).
Sasidharan, R., Hartman, S., Liu, Z., Martopawiro, S., Sajeev, N., van Veen, H., Yeung, E., Voesenek, LACJ. (2018). Signal dynamics and interactions during flooding stress. Plant Physiology, 176 (2): 1106-1117.
2016
Van Veen, H., Vashisht, D., Akman, M., Girke, T., Mustroph, A., Reinen, E., Hartman, S., Kooiker, M., van Tienderen, P., Schranz, ME., Bailey-Serres, J., Voesenek, LACJ., Sasidharan, R. (2016). Transcriptomes of Eight Arabidopsis thaliana Accessions Reveal Core Conserved, Genotype- and Organ-Specific Responses to Flooding Stress. Plant Physiology, 172 (2), 668-689.