| Caveolin-1 is ubiquitinated and targeted to intralumenal vesicles in endolysosomes for degradation A Hayer, M Stoeber, D Ritz, S Engel, HH Meyer, A Helenius Journal of Cell Biology 191 (3), 615-629, 2010 | 391 | 2010 |
| A genetically encoded biosensor reveals location bias of opioid drug action M Stoeber, D Jullié, BT Lobingier, T Laeremans, J Steyaert, PW Schiller, ... Neuron 98 (5), 963-976. e5, 2018 | 358 | 2018 |
| Biogenesis of caveolae: stepwise assembly of large caveolin and cavin complexes A Hayer, M Stoeber, C Bissig, A Helenius Traffic 11 (3), 361-382, 2010 | 336 | 2010 |
| Nucleoporin 153 arrests the nuclear import of hepatitis B virus capsids in the nuclear basket A Schmitz, A Schwarz, M Foss, L Zhou, B Rabe, J Hoellenriegel, ... PLoS pathogens 6 (1), e1000741, 2010 | 232 | 2010 |
| Oligomers of the ATPase EHD2 confine caveolae to the plasma membrane through association with actin M Stoeber, IK Stoeck, C Hänni, CKE Bleck, G Balistreri, A Helenius The EMBO journal 31 (10), 2350-2364, 2012 | 215 | 2012 |
| Endocytic accessory proteins are functionally distinguished by their differential effects on the maturation of clathrin-coated pits M Mettlen, M Stoeber, D Loerke, CN Antonescu, G Danuser, SL Schmid Molecular biology of the cell 20 (14), 3251-3260, 2009 | 154 | 2009 |
| Model for the architecture of caveolae based on a flexible, net-like assembly of Cavin1 and Caveolin discs M Stoeber, P Schellenberger, CA Siebert, C Leyrat, A Helenius, ... Proceedings of the National Academy of Sciences 113 (50), E8069-E8078, 2016 | 110 | 2016 |
| A genetically encoded sensor for in vivo imaging of orexin neuropeptides L Duffet, S Kosar, M Panniello, B Viberti, E Bracey, AD Zych, ... Nature methods 19 (2), 231-241, 2022 | 101 | 2022 |
| A discrete presynaptic vesicle cycle for neuromodulator receptors D Jullié, M Stoeber, JB Sibarita, HL Zieger, TM Bartol, S Arttamangkul, ... Neuron 105 (4), 663-677. e8, 2020 | 62 | 2020 |
| Subcellular location defines GPCR signal transduction A Radoux-Mergault, L Oberhauser, S Aureli, FL Gervasio, M Stoeber Science Advances 9 (16), eadf6059, 2023 | 60 | 2023 |
| Agonist-selective recruitment of engineered protein probes and of GRK2 by opioid receptors in living cells M Stoeber, D Jullié, J Li, S Chakraborty, S Majumdar, NA Lambert, ... Elife 9, e54208, 2020 | 60 | 2020 |
| Structural basis of μ-opioid receptor targeting by a nanobody antagonist J Yu, A Kumar, X Zhang, C Martin, K Van Holsbeeck, P Raia, A Koehl, ... Nature Communications 15 (1), 8687, 2024 | 31 | 2024 |
| Development of a genetically encoded sensor for probing endogenous nociceptin opioid peptide release X Zhou, C Stine, PO Prada, D Fusca, K Assoumou, J Dernic, MA Bhat, ... Nature Communications 15 (1), 5353, 2024 | 22 | 2024 |
| Control of Gαq signaling dynamics and GPCR cross-talk by GRKs G Xiang, A Acosta-Ruiz, A Radoux-Mergault, M Kristt, J Kim, JD Moon, ... Science advances 8 (47), eabq3363, 2022 | 19 | 2022 |
| Optical tools to study the subcellular organization of GPCR neuromodulation D Jullié, Z Valbret, M Stoeber Journal of Neuroscience Methods 366, 109408, 2022 | 12 | 2022 |
| Chemical biology approaches to resolve the subcellular GPCR signaling landscape A Bock, BT Lobingier, M Stoeber, NG Tsvetanova Nature Chemical Biology, 1-12, 2025 | 5 | 2025 |
| Probing PAC1 receptor activation across species with an engineered sensor RB Cola, SN Niethammer, P Rajamannar, A Gresch, MA Bhat, ... Elife 13, RP96496, 2024 | 4 | 2024 |
| Biosensors monitor ligand-selective effects at kappa opioid receptors L Oberhauser, M Stoeber The Kappa Opioid Receptor, 65-82, 2021 | 4 | 2021 |
| Mechanisms governing GPCR anterograde transport K Assoumou, S Papadogkonaki, I Muneta‐Arrate, M Stoeber FEBS letters, 2025 | 2 | 2025 |
| An engineered nanobody inhibitor for molecular-to-circuit control of opioid receptor function Z Valbret, PL Lamothe-Molina, S Papadogkonaki, A Koehl, JVV Arafiles, ... bioRxiv, 2026.01. 12.698943, 2026 | | 2026 |
