Keywords: decoding modules, CO2-fixing enzyme, transcriptome, root development, SWI3, proteomics, Zea mays

Latest 52 Papers

Unveiling the molecular identity of plant autophagic compartments: A proteo-lipidomic study in Arabidopsis thaliana

Authors: Lupette, J., Chambaud, C., Buridan, M., Castets, J., Wattelet-Boyer, V., Toboso Moreno, I., Kosuth, T., Yatim, C., Dittrich-Domergue, F., Gros, V., Jouhet, J., Claverol, S., Herice, C., Melser, S., Genva, M., Fouillen, L., Bessoule, J.-J., Domergue, F., Bernard, A.

Date: 2025-08-28 · Version: 1

DOI: 10.1101/2025.08.25.671700

Model Organism: Arabidopsis thaliana

autophagy phagophore membrane proteomics lipidomics membrane remodeling

Partial retention of ancient function increases genetic pleiotropy in grass evolution

Authors: de Neve, A. E., Kelly, O. A., Kelly, T., Leiboff, S., Bartlett, M. E.

Date: 2025-08-23 · Version: 1

DOI: 10.1101/2025.08.22.670905

Model Organism: Zea mays

genetic pleiotropy axillary meristem suppression floral organ suppression high-throughput quantitative phenotyping Zea mays

Non-catalytic and catalytic TREHALOSE-6-PHOSPHATE SYNTHASES interact with RAMOSA3 to control maize development.

Authors: Tran, T., Claeys, H., Abraham Juarez, M. J., Vi, L. S., Xu, X., Michalski, K., Chou, T. H., Iohannes, S. D., Boumpas, P., Williams, Z., Sheppard, S., Griffiths, C., Paul, M., Furukawa, H., Jackson, D.

Date: 2025-08-12 · Version: 1

DOI: 10.1101/2025.08.09.669499

Model Organism: Zea mays

Trehalose-6-phosphate non‑catalytic TPS Zea mays protein complex developmental regulation

ZmCRY1s interact with GL2 in a blue light dependent manner to regulate epidermal wax composition in Zea mays

Authors: Zhao, Z., Feng, F., Liu, Y., Liu, Y., Wang, F., Ni, Y., Liang, H., Hu, W., Wang, S., Hao, Y., Li, X., Li, J., Wang, J., Zhang, P., Liu, H.

Date: 2025-08-06 · Version: 1

DOI: 10.1101/2025.08.06.668858

Model Organism: Zea mays

cryptochrome Zea mays blue light signaling UV-B tolerance epidermal wax biosynthesis

Mycotoxin-driven proteome remodeling reveals limited activation of Triticum aestivum responses to emerging chemotypes integrated with fungal modulation of ergosterols

Authors: Ramezanpour, S., Alijanimamaghani, N., McAlister, J. A., Hooker, D., Geddes-McAlister, J.

Date: 2025-07-01 · Version: 1

DOI: 10.1101/2025.06.30.662327

Model Organism: Triticum aestivum

Fusarium head blight 15ADON/3ANX chemotype proteomics Triticum aestivum Fusarium graminearum

Tomato leaf transcriptomic changes promoted by long-term water scarcity stress can be largely prevented by a fungal-based biostimulant

Authors: Lopez-Serrano, L., Ferez-Gomez, A., Romero-Aranda, R., Jaime Fernandez, E., Leal Lopez, J., Fernandez Baroja, E., Almagro, G., Dolezal, K., Novak, O., Diaz, L., Bautista, R., Leon Morcillo, R. J., Pozueta Romero, J.

Date: 2025-06-28 · Version: 1

DOI: 10.1101/2025.06.26.661737

Model Organism: Solanum lycopersicum

water deficit Trichoderma harzianum culture filtrate tomato drought tolerance transcriptome

Rapid replacement of established by exotic genetic lineages of the fungal maize pathogen <it>Exserohilum turcicum</it> in the Swiss Rhine valley

Authors: Vidal Villarejo, M., Hammerschmidt, M., Oppliger, B., Oppliger, H., Schmid, K. J.

Date: 2025-06-24 · Version: 1

DOI: 10.1101/2025.06.24.661258

Model Organism: Zea mays

Exserohilum turcicum metagenomic pool sequencing clonal lineages phyllobiome Zea mays

Proteomic analysis reveals distinct germination strategies in polymorphic fruits of Haloxylon ammodendron

Authors: Wang, Y. Z., Chen, Z. W., Zhang, H. X., Wang, Z., Jiang, M. L., Yimingniyazi, A., Ren, C.

Date: 2025-06-23 · Version: 1

DOI: 10.1101/2025.06.17.660099

Model Organism: Haloxylon ammodendron

fruit polymorphism seed germination stress tolerance proteomics Haloxylon ammodendron

Gene regulatory network analysis of somatic embryogenesis identifies morphogenic genes that increase maize transformation frequency

Authors: Renema, J., Luckicheva, S., Verwaerde, I., Aesaert, S., Coussens, G., De Block, J., Grones, C., Eekhout, T., De Rybel, B., Brew-Appiah, R. A. T., Bagley, C. A., Hoengenaert, L., Vandepoele, K., Pauwels, L.

Date: 2025-06-23 · Version: 1

DOI: 10.1101/2025.06.22.659756

Model Organism: Zea mays

somatic embryogenesis transcription factors Zea mays single-cell transcriptomics gene regulatory network

Ethylene Receptor Gain- and Loss-of-function Mutants Reveal an ETR1-dependent Transcriptional Network in Roots

Authors: White, M. G., Harkey, A., Muhlemann, J. K., Olex, A. L., Pfeffer, N. J., Houben, M., Binder, B., Muday, G. K.

Date: 2025-06-22 · Version: 3

DOI: 10.1101/2024.06.26.600793

Model Organism: Arabidopsis thaliana

ethylene signaling ETR1 root development gene regulatory network Arabidopsis

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