M
Martin Hülskamp
Researcher at University of Cologne
Publications - 137
Citations - 11427
Martin Hülskamp is an academic researcher from University of Cologne. The author has contributed to research in topics: Arabidopsis & Trichome patterning. The author has an hindex of 59, co-authored 135 publications receiving 10508 citations. Previous affiliations of Martin Hülskamp include Ludwig Maximilian University of Munich & German Cancer Research Center.
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Journal ArticleDOI
Genetic dissection of trichome cell development in Arabidopsis
TL;DR: More than 70 trichome mutants that represent 21 different genes are isolated and characterized, suggesting a model of how a specialized cell type originates from a uniform cell layer.
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TRIPTYCHON and CAPRICE mediate lateral inhibition during trichome and root hair patterning in Arabidopsis
Swen Schellmann,Swen Schellmann,Arp Schnittger,Arp Schnittger,Victor Kirik,Victor Kirik,Takuji Wada,Kiyotaka Okada,Anke Beermann,J. Thumfahrt,Gerd Jürgens,Martin Hülskamp +11 more
TL;DR: The same lateral inhibition mechanism seems to be involved in both de novo patterning and position‐dependent cell determination in the root epidermis, proposing a model explaining trichome and root hair patterning by a common mechanism.
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Wild‐type ovule development in Arabidopsis thaliana: a light microscope study of cleared whole‐mount tissue
TL;DR: A classification scheme of ovule developmental stages is proposed, which is based on ovule-specific, discrete, and easy-to-score markers, and which is possible to dissect this developmental process into distinct, morphologically discernible steps at a high resolution.
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Light and the E3 ubiquitin ligase COP1/SPA control the protein stability of the MYB transcription factors PAP1 and PAP2 involved in anthocyanin accumulation in Arabidopsis.
Alexander Maier,Andrea Schrader,Leonie Kokkelink,Christian Falke,Bastian Welter,Elisa Iniesto,Vicente Rubio,Joachim F. Uhrig,Martin Hülskamp,Ute Hoecker +9 more
TL;DR: These findings have identified mechanisms via which the COP1/SPA complex controls anthocyanin levels in Arabidopsis that may be useful for applications in biotechnology directed towards increasing anthocianin content in plants.
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Plant trichomes: a model for cell differentiation
TL;DR: Plant leaf hairs, or trichomes, serve as an excellent model system to study all aspects of plant differentiation at the single-cell level, including the choice of cell fate, developmental control of the cell cycle, cell polarity and the control of cell shape.