Mateusz Majda
Cited by
Cited by
The role of auxin in cell wall expansion
M Majda, S Robert
International journal of molecular sciences 19 (4), 951, 2018
Mechanochemical polarization of contiguous cell walls shapes plant pavement cells
M Majda, P Grones, IM Sintorn, T Vain, P Milani, P Krupinski, ...
Developmental cell 43 (3), 290-304. e4, 2017
Mitochondrial uncouplers inhibit clathrin-mediated endocytosis largely through cytoplasmic acidification
W Dejonghe, S Kuenen, E Mylle, M Vasileva, O Keech, C Viotti, J Swerts, ...
Nature Communications 7 (1), 11710, 2016
Arabidopsis XTH4 and XTH9 Contribute to Wood Cell Expansion and Secondary Wall Formation
S Kushwah, A Banasiak, N Nishikubo, M Derba-Maceluch, M Majda, ...
Plant Physiology 182 (4), 1946-1965, 2020
Using positional information to provide context for biological image analysis with MorphoGraphX 2.0
S Strauss, A Runions, B Lane, D Eschweiler, N Bajpai, N Trozzi, ...
Elife 11, e72601, 2022
Cell biology of the leaf epidermis: fate specification, morphogenesis, and coordination
DT Zuch, SM Doyle, M Majda, RS Smith, S Robert, KU Torii
The Plant Cell, 2022
Fluctuating auxin response gradients determine pavement cell-shape acquisition
P Grones, M Majda, SM Doyle, D Van Damme, S Robert
Proceedings of the National Academy of Sciences 117 (27), 16027-16034, 2020
A role for the auxin precursor anthranilic acid in root gravitropism via regulation of PIN‐FORMED protein polarity and relocalisation in Arabidopsis
SM Doyle, A Rigal, P Grones, M Karady, DK Barange, M Majda, ...
new phytologist 223 (3), 1420-1432, 2019
How cell geometry and cellular patterning influence tissue stiffness
M Majda, N Trozzi, G Mosca, RS Smith
International Journal of Molecular Sciences 23 (10), 5651, 2022
Mechanical asymmetry of the cell wall predicts changes in pavement cell geometry
M Majda, P Krupinski, H Jönsson, O Hamant, S Robert
Developmental Cell 50 (1), 9-10, 2019
Elongation of wood fibers combines features of diffuse and tip growth
M Majda, L Kozlova, A Banasiak, M Derba‐Maceluch, IA Iashchishyn, ...
New Phytologist, 2021
Cellular force microscopy to measure mechanical forces in plant cells
M Majda, A Sapala, AL Routier-Kierzkowska, RS Smith
Plant Cell Morphogenesis, 215-230, 2019
MorphoGraphX 2.0: Providing context for biological image analysis with positional information
S Strauss, A Runions, B Lane, D Eschweiler, N Bajpai, N Trozzi, ...
BioRxiv, 2021
Spatial consistency of cell growth direction during organ morphogenesis requires CELLULOSE SYNTHASE INTERACTIVE1
C Mollier, J Skrzydeł, D Borowska-Wykręt, M Majda, V Bayle, V Battu, ...
Cell Reports 42 (7), 2023
HEARTBREAK controls post-translational modification of INDEHISCENT to regulate fruit morphology in Capsella
Y Dong, M Majda, J Šimura, R Horvath, AK Srivastava, Ł Łangowski, ...
Current Biology 30 (19), 3880-3888. e5, 2020
Visualization of Plant Cell Wall Epitopes Using Immunogold Labeling for Electron Microscopy
M Majda
Bio-protocol 9 (7), e3205, 2019
Branching out: new insights into sucrose-induced branching
M Majda
Plant Physiology 185 (4), 1479-1480, 2021
Role of the cell wall in cell shape acquisition
M Majda
CELLULOSE SYNTHASE-LIKE D1 mediates root hair development in Lotus japonicus
M Majda
Plant Physiology 186 (4), 1765-1766, 2021
Atomic Force Microscopy to Study Cell Wall Mechanics in Plants
M Majda
Arabidopsis Protocols, 349-369, 2021
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