MH
Hothorn, Michael
| Title | Published in | Access level | OA Policy | Year | Views | Downloads | |
|---|---|---|---|---|---|---|---|
| The Use of Grating-Coupled Interferometry to Study Inositol Pyrophosphate–Protein Interactions | Inositol Pyrophosphates - Methods and Protocols |  | 2025 | 4 | 0 | ||
| A small signaling domain controls PPIP5K phosphatase activity in phosphate homeostasis | Nature communications |  | 2025 | 53 | 12 | ||
| The Vsr-like protein FASTKD4 regulates the stability and polyadenylation of the MT-ND3 mRNA | Nucleic acids research | | 2024 | 38 | 13 | ||
| Inositol pyrophosphate catabolism by three families of phosphatases regulates plant growth and development | PLOS genetics | | 2024 | 62 | 23 | ||
| Mechanistic Insights into the Function of 14-3-3 Proteins as Negative Regulators of Brassinosteroid Signaling in Arabidopsis | Plant and cell physiology | | 2024 | 32 | 39 | ||
| BRASSINOSTEROID INSENSITIVE1 internalization can occur independent of ligand binding | Plant physiology | | 2023 | 71 | 0 | ||
| The cytoplasmic synthesis and coupled membrane translocation of eukaryotic polyphosphate by signal-activated VTC complex | Nature communications | | 2023 | 26 | 20 | ||
| Mechanistic insights into the regulation of plant phosphate homeostasis by the rice SPX2 - PHR2 complex | Nature communications | | 2022 | 107 | 58 | ||
| Structural and functional studies of Arabidopsis thaliana triphosphate tunnel metalloenzymes reveal roles for additional domains | Journal of biological chemistry | | 2022 | 576 | 551 | ||
| Inositol pyrophosphates promote the interaction of SPX domains with the coiled-coil motif of PHR transcription factors to regulate plant phosphate homeostasis | Nature Communications | | 2021 | 347 | 230 | ||
| Adjustment of the PIF7-HFR1 transcriptional module activity controls plant shade adaptation | EMBO Journal | | 2021 | 375 | 0 | ||
| A constitutively monomeric UVR8 photoreceptor confers enhanced UV-B photomorphogenesis | Proceedings of the National Academy of Sciences | | 2021 | 365 | 118 | ||
| Signatures of antagonistic pleiotropy in a bacterial flagellin epitope | Cell Host & Microbe | | 2021 | 312 | 165 | ||
| Using Biotinylated myo-Inositol Hexakisphosphate to Investigate Inositol Pyrophosphate–Protein Interactions with Surface-Based Biosensors | Biochemistry | | 2021 | 197 | 210 | ||
| A two-way molecular dialogue between embryo and endosperm is required for seed development | Science | | 2020 | 547 | 849 | ||
| Constitutive Activation of Leucine-Rich Repeat Receptor Kinase Signaling Pathways by BAK1-INTERACTING RECEPTOR-LIKE KINASE3 Chimera | Plant Cell | | 2020 | 312 | 229 | ||
| Identity and functions of inorganic and inositol polyphosphates in plants | New Phytologist | | 2020 | 419 | 316 | ||
| Molecular mechanism for the recognition of sequence-divergent CIF peptides by the plant receptor kinases GSO1/SGN3 and GSO2 | Proceedings of the National Academy of Sciences | | 2020 | 328 | 226 | ||
| BAM1/2 receptor kinase signaling drives CLE peptide-mediated formative cell divisions in Arabidopsis roots | Proceedings of the National Academy of Sciences | | 2020 | 313 | 181 | ||
| Two bifunctional inositol pyrophosphate kinases/phosphatases control plant phosphate homeostasis | eLife | | 2019 | 434 | 342 | ||
| Plant photoreceptors and their signaling components compete for COP1 binding via VP peptide motifs | EMBO Journal | | 2019 | 961 | 289 | ||
| Concerted expression of a cell cycle regulator and a metabolic enzyme from a bicistronic transcript in plants | Nature Plants | | 2019 | 348 | 680 | ||
| Crystal structure of the pseudoenzyme PDX1.2 in complex with its cognate enzyme PDX1.3: a total eclipse | Acta Crystallographica. D, Biological Crystallography | | 2019 | 389 | 1 | ||
| A genetically validated approach to detect inorganic polyphosphates in plants | Plant Journal | | 2019 | 434 | 504 | ||
| Molecular characterization of CHAD domains as inorganic polyphosphate-binding modules | Life Science Alliance | | 2019 | 774 | 373 | ||
| Mechanistic insights into the evolution of DUF26-containing proteins in land plants | Communications Biology | | 2019 | 351 | 331 | ||
| Crystal structure of the leucine-rich repeat ectodomain of the plant immune receptor kinase SOBIR1 | Acta Crystallographica. D, Biological Crystallography | | 2019 | 419 | 209 | ||
| Brassinosteroid Sensing and Signaling in Plants | Plant Structural Biology: Hormonal Regulations |  | 2018 | 508 | 0 | ||
| Control of plant phosphate homeostasis by inositol pyrophosphates and the SPX domain | Current Opinion in Biotechnology | | 2018 | 540 | 2 | ||
| CLERK is a novel receptor kinase required for sensing of root-active CLE peptides in Arabidopsis | Development | | 2018 | 411 | 352 | ||
| MacroH2A histone variants limit chromatin plasticity through two distinct mechanisms | EMBO Reports | | 2018 | 512 | 417 | ||
| The SERK3 elongated allele defines a role for BIR ectodomains in brassinosteroid signalling | Nature Plants | | 2018 | 419 | 629 | ||
| Mechanistic basis for the activation of plant membrane receptor kinases by SERK-family coreceptors | Proceedings of the National Academy of Sciences | | 2018 | 571 | 299 | ||
| Perception of root-active CLE peptides requires CORYNE function in the phloem vasculature | EMBO reports | | 2017 | 612 | 322 | ||
| The Structural Basis of Ligand Perception and Signal Activation by Receptor Kinases | Annual review of plant biology | | 2017 | 679 | 367 | ||
| The macro domain as fusion tag for carrier-driven crystallization | Protein science | | 2017 | 539 | 289 | ||
| Control of eukaryotic phosphate homeostasis by inositol polyphosphate sensor domains | Science | | 2016 | 776 | 1,183 | ||
| Mechanistic insight into a peptide hormone signaling complex mediating floral organ abscission | eLife | | 2016 | 608 | 296 | ||
| SERK co-receptor kinases | Current biology | | 2016 | 589 | 122 | ||
| Structural Determinants for Substrate Binding and Catalysis in Triphosphate Tunnel Metalloenzymes | The Journal of biological chemistry | | 2015 | 600 | 284 |
