Publications
Cereal Stem Cell Systems (CSCS) Consortium (Dresselhaus T, Balboni M, Berg L, Dolata A, Hochholdinger F, Huang Y, Jiang G, von Korff M, Ku J-C, van der Linde K, Maika J, Lara Mondragon C, Raissig M, Schnittger A, Schnurbusch T, Simon R, Stahl Y, Timmermans M, Thirulogachandar V, Zhao S, Zhou Y) (accepted). How meristems shape plant architecture in cereals. Plant Cell DOI: 10.1093/plcell/koaf150 https://doi.org/10.1093/plcell/koaf150 (externer Link, öffnet neues Fenster)
Schwarz C, Hartmann F, Zier C, van der Linde K (2025). Characterization of the maize (Zea mays)-Ustilago maydis interaction in a warming climate. bioRxiv DOI: 10.1101/2025.05.26.656155 https://doi.org/10.1101/2025.05.26.656155 (externer Link, öffnet neues Fenster)
Kutzner L and van der Linde K (2024). A Trojan Horse approach using Ustilago maydis to study apoplastic maize (Zea mays) peptides in situ. (externer Link, öffnet neues Fenster) Methods in Molecular Biology 2731: 115.
Dresselhaus T† and van der Linde K† (2023). Plant reproduction: Fertilization SALvaged by the central cell. (externer Link, öffnet neues Fenster) Current Biology 33: R1013. († shared corresponding authorship)
Dukowic-Schulze S†* and van der Linde K†* (2021). Oxygen, secreted proteins and small RNAs: mobile elements that govern anther development. (externer Link, öffnet neues Fenster) Plant Reproduction 34:1. (* authors contributed equally, † shared corresponding authorship)
van der Linde K†* and Göhre V†* (2021). How do smut fungi use plant signals to spatiotemporally orientate on and in planta? (externer Link, öffnet neues Fenster) Journal of Fungi 7: 107. (* authors contributed equally, † shared corresponding authorship)
van der Linde K and Walbot V (2019). ). Pre-meiotic anther development. (externer Link, öffnet neues Fenster) Current Topics in Developmental Biology 131: 239.
Schulze Hüynck J, Kaschani F, van der Linde K, Ziemann S, Müller AN, Colby T, Kaiser M, Misas Villamil JC, Doehlemann G (2019). Proteases underground: Analysis of the maize root apoplast identifies organ specific papain-like cysteine protease activity. (externer Link, öffnet neues Fenster) Frontiers in Plant Science 10:473.
Sosso D*, van der Linde K*, Bezrutczyk M, Schuler D, Schneider K, Kämper J, Walbot V (2019). Sugar partitioning between Ustilago maydis and its host Zea mays L during infection. (externer Link, öffnet neues Fenster)Plant Physiology 179: 1373. (* authors contributed equally).
Fiedler I-C, Weiberg A, van der Linde K (2019). Guidelines for using Ustilago maydis as a Trojan horse for in situ delivery of maize proteins. (externer Link, öffnet neues Fenster) Journal of Visualized Experiments 144: e58746.
van der Linde K*, Egger RL, Timofejeva L, Walbot V (2018). Application of the pathogen Trojan horse approach in maize (Zea mays). (externer Link, öffnet neues Fenster) Plant Signalling and Behavior 13:12 e1547575. (* corresponding author)
van der Linde K*, Timofejeva L, Egger RL, Ilau B, Hammond R, Teng C, Meyers BC, Doehlemann G, Walbot V (2018). Pathogen Trojan Horse delivers bioactive host protein to alter maize anther cell behavior in situ. (externer Link, öffnet neues Fenster) Plant Cell 30:528. (* corresponding author)
Recommended in F1000Prime as being of special significance in its field by F1000 Faculty Member June Nasrallah (10.3410/f.732682874.793551445).
Ziemann S, van der Linde K, Lahrmann U, Acar B, Kaschani F, Colby T, Kaiser M, Ding Y, Schmelz E, Huffaker A, Holton N, Zipfel C, Doehlemann G (2018). An apoplastic peptide activates salicylic acid signalling in maize. (externer Link, öffnet neues Fenster) Nature Plants 43:172.
van der Linde K and Doehlemann G (2013). Utilizing virus induced gene silencing for the functional characterization of maize genes during infection with the fungal pathogen Ustilago maydis. (externer Link, öffnet neues Fenster) Methods in Molecular Biology 975:47.
van der Linde K, Mueller A, Redkar A, Schilling L, Doehlemann G (2013). Brandpilz mit Pep: Ustilago maydis und das pflanzliche Immunsystem. (externer Link, öffnet neues Fenster) Biospektrum 19: 140.
van der Linde K, Mueller A, Hemetsberger C, Kaschani F, van der Hoorn RAL, Doehlemann G (2012). The maize cystatin CC9 interacts with apoplastic cysteine proteases. (externer Link, öffnet neues Fenster)Plant Signalling and Behavior 7: 1397.
van der Linde K, Hemetsberger C, Kastner C, Kaschani F, van der Hoorn RAL, Kumlehn J, Doehlemann G (2012). A maize cystatin suppresses host immunity by inhibiting apoplastic cysteine proteases. (externer Link, öffnet neues Fenster) Plant Cell 24: 1285.
van der Linde K, Kastner C, Kumlehn J, Kahmann R, Doehlemann G (2011). Systemic virus induced gene silencing allows functional characterization of maize genes during the biotrophic interaction with Ustilago maydis. (externer Link, öffnet neues Fenster)New Phytologist 189: 471.
van der Linde K, Gutsche N, Leffers HM, Lindermayr C, Müller B, Holtgrefe S, Scheibe R (2011). Regulation of plant cytosolic aldolase functions by redox-modifications. (externer Link, öffnet neues Fenster) Plant Physiology and Biochemistry 49: 946.
Doehlemann G, van der Linde K, Aßmann D, Schwammbach D, Hof A, Mohanty A, Jackson D, Kahmann R (2009). Pep1, a secreted effector protein of Ustilago maydis is required for successful invasion of plant cells. (externer Link, öffnet neues Fenster) PLoS Pathogens 5: 2 e1000290.