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#smlm — Public Fediverse posts

Live and recent posts from across the Fediverse tagged #smlm, aggregated by home.social.

  1. 🧠 New pre-print by Wiesner et al. (2025) shows non-#synaptic #exocytosis directly from the #axon shaft, regulated by the submembrane periodic skeleton. Using #superresolution #imaging and live assays (#HiLo (VAMP2-pHluorin), #SIM, and correlative two-color #SMLM/ #STORM) they reveal that #axons can release vesicles outside classical #synapses, expanding how we understand #neuronal communication and #AxonalSignaling.

    🌍 doi.org/10.1101/2025.09.17.676

    #Neuroscience

  2. 🧠 New pre-print by Wiesner et al. (2025) shows non-#synaptic #exocytosis directly from the #axon shaft, regulated by the submembrane periodic skeleton. Using #superresolution #imaging and live assays (#HiLo (VAMP2-pHluorin), #SIM, and correlative two-color #SMLM/ #STORM) they reveal that #axons can release vesicles outside classical #synapses, expanding how we understand #neuronal communication and #AxonalSignaling.

    🌍 doi.org/10.1101/2025.09.17.676

    #Neuroscience

  3. 🧠 New pre-print by Wiesner et al. (2025) shows non-#synaptic #exocytosis directly from the #axon shaft, regulated by the submembrane periodic skeleton. Using #superresolution #imaging and live assays (#HiLo (VAMP2-pHluorin), #SIM, and correlative two-color #SMLM/ #STORM) they reveal that #axons can release vesicles outside classical #synapses, expanding how we understand #neuronal communication and #AxonalSignaling.

    🌍 doi.org/10.1101/2025.09.17.676

    #Neuroscience

  4. 🧠 New pre-print by Wiesner et al. (2025) shows non-#synaptic #exocytosis directly from the #axon shaft, regulated by the submembrane periodic skeleton. Using #superresolution #imaging and live assays (#HiLo (VAMP2-pHluorin), #SIM, and correlative two-color #SMLM/ #STORM) they reveal that #axons can release vesicles outside classical #synapses, expanding how we understand #neuronal communication and #AxonalSignaling.

    🌍 doi.org/10.1101/2025.09.17.676

    #Neuroscience

  5. 🧠 New pre-print by Wiesner et al. (2025) shows non-#synaptic #exocytosis directly from the #axon shaft, regulated by the submembrane periodic skeleton. Using #superresolution #imaging and live assays (#HiLo (VAMP2-pHluorin), #SIM, and correlative two-color #SMLM/ #STORM) they reveal that #axons can release vesicles outside classical #synapses, expanding how we understand #neuronal communication and #AxonalSignaling.

    🌍 doi.org/10.1101/2025.09.17.676

    #Neuroscience

  6. Congratulations to Prof. Jin Lu, now at the National Center for Nanoscience, whose work on #singlemolecule #electrochemical imaging is now online in Chemical Science. Happy New Year!
    #SMLM #WashU #WUSTL @chemicalscience #ChemicalScience

    "Single-Molecule Electrochemical Imaging Resolves the Midpoint Potentials of Individual Fluorophores on Nanoporous Antimony-Doped Tin Oxide"
    Chemical Science, 2024
    doi.org/10.1039/D3SC05293A

  7. Congratulations to Prof. Jin Lu, now at the National Center for Nanoscience, whose work on #singlemolecule #electrochemical imaging is now online in Chemical Science. Happy New Year!
    #SMLM #WashU #WUSTL @chemicalscience #ChemicalScience

    "Single-Molecule Electrochemical Imaging Resolves the Midpoint Potentials of Individual Fluorophores on Nanoporous Antimony-Doped Tin Oxide"
    Chemical Science, 2024
    doi.org/10.1039/D3SC05293A

  8. Congratulations to Prof. Jin Lu, now at the National Center for Nanoscience, whose work on #singlemolecule #electrochemical imaging is now online in Chemical Science. Happy New Year!
    #SMLM #WashU #WUSTL @chemicalscience #ChemicalScience

    "Single-Molecule Electrochemical Imaging Resolves the Midpoint Potentials of Individual Fluorophores on Nanoporous Antimony-Doped Tin Oxide"
    Chemical Science, 2024
    doi.org/10.1039/D3SC05293A

  9. Congratulations to Prof. Jin Lu, now at the National Center for Nanoscience, whose work on #singlemolecule #electrochemical imaging is now online in Chemical Science. Happy New Year!
    #SMLM #WashU #WUSTL @chemicalscience #ChemicalScience

    "Single-Molecule Electrochemical Imaging Resolves the Midpoint Potentials of Individual Fluorophores on Nanoporous Antimony-Doped Tin Oxide"
    Chemical Science, 2024
    doi.org/10.1039/D3SC05293A

  10. Very proud of this work of Clément Cabriel, finally published in Nature Photonics!
    Event-based vision sensors are here to stay and conquer your hearts and #SMLM microscopes.

    Article here: nature.com/articles/s41566-023
    Full text access here: rdcu.be/dpQhX

    #EveSMLM #EventBasedVision

  11. Very proud of this work of Clément Cabriel, finally published in Nature Photonics!
    Event-based vision sensors are here to stay and conquer your hearts and #SMLM microscopes.

    Article here: nature.com/articles/s41566-023
    Full text access here: rdcu.be/dpQhX

    #EveSMLM #EventBasedVision

  12. Are there any microscopists hiding here?
    Adding :AddBiophysicist to this post in order to get in the "Biophysicists on Mastodon" list...

    #Biophysics #Microscopy #SMLM

  13. Are there any microscopists hiding here?
    Adding :AddBiophysicist to this post in order to get in the "Biophysicists on Mastodon" list...

    #Biophysics #Microscopy #SMLM

  14. Are there any microscopists hiding here?
    Adding :AddBiophysicist to this post in order to get in the "Biophysicists on Mastodon" list...

    #Biophysics #Microscopy #SMLM

  15. Are there any microscopists hiding here?
    Adding :AddBiophysicist to this post in order to get in the "Biophysicists on Mastodon" list...

    #Biophysics #Microscopy #SMLM

  16. Are there any microscopists hiding here?
    Adding :AddBiophysicist to this post in order to get in the "Biophysicists on Mastodon" list...

    #Biophysics #Microscopy #SMLM

  17. Cost-efficient #OpenSource #laser engine for #microscopy:

    -405 nm, 488 nm & 638 nm and optionally a 561 nm diode-pumped solid-state laser
    -agitated multimode fiber to suppress speckles

    doi.org/10.1364/boe.380815
    #DIYbio #hackerspace #lab #instruments #SMLM #microscope #imaging

  18. Cost-efficient engine for :

    -405 nm, 488 nm & 638 nm and optionally a 561 nm diode-pumped solid-state laser
    -agitated multimode fiber to suppress speckles

    doi.org/10.1364/boe.380815

  19. Cost-efficient #OpenSource #laser engine for #microscopy:

    -405 nm, 488 nm & 638 nm and optionally a 561 nm diode-pumped solid-state laser
    -agitated multimode fiber to suppress speckles

    doi.org/10.1364/boe.380815
    #DIYbio #hackerspace #lab #instruments #SMLM #microscope #imaging

  20. Cost-efficient #OpenSource #laser engine for #microscopy:

    -405 nm, 488 nm & 638 nm and optionally a 561 nm diode-pumped solid-state laser
    -agitated multimode fiber to suppress speckles

    doi.org/10.1364/boe.380815
    #DIYbio #hackerspace #lab #instruments #SMLM #microscope #imaging

  21. Cost-efficient #OpenSource #laser engine for #microscopy:

    -405 nm, 488 nm & 638 nm and optionally a 561 nm diode-pumped solid-state laser
    -agitated multimode fiber to suppress speckles

    doi.org/10.1364/boe.380815
    #DIYbio #hackerspace #lab #instruments #SMLM #microscope #imaging

  22. An , high resolution, :

    -reaches single molecule sensitivity
    -single particle tracking and super-resolution microscopy experiments in cells

    doi.org/10.1101/2023.05.31.542

  23. Super-cool work from our clever colleagues at Cambridge -- whole-cell #3D #singlemolecule #lightfield imaging! #SMLM

    @samofmidworld

    High-density volumetric super-resolution microscopy
    bioRxiv 2023.05.02.539032;
    doi: doi.org/10.1101/2023.05.02.539

  24. Super-cool work from our clever colleagues at Cambridge -- whole-cell #3D #singlemolecule #lightfield imaging! #SMLM

    @samofmidworld

    High-density volumetric super-resolution microscopy
    bioRxiv 2023.05.02.539032;
    doi: doi.org/10.1101/2023.05.02.539

  25. Super-cool work from our clever colleagues at Cambridge -- whole-cell #3D #singlemolecule #lightfield imaging! #SMLM

    @samofmidworld

    High-density volumetric super-resolution microscopy
    bioRxiv 2023.05.02.539032;
    doi: doi.org/10.1101/2023.05.02.539

  26. Super-cool work from our clever colleagues at Cambridge -- whole-cell #3D #singlemolecule #lightfield imaging! #SMLM

    @samofmidworld

    High-density volumetric super-resolution microscopy
    bioRxiv 2023.05.02.539032;
    doi: doi.org/10.1101/2023.05.02.539

  27. Two days left to talk with our representative Nicolaas about #smlm + cluster analysis with Huygens, and all our other image restoration and analysis solutions. #TIM2023 #imaging #microscopy #imageanalysis

  28. Are you unfamiliar with the terms #STED, #PALM, #STORM, #SMLM, #MINFLUX, & #MINSTED, but would you like to learn more about these #superresolution #microscopy technologies🔬? If so, then you should check out #StefanHell's #Lindau presentation 🤓 Enjoy👉 mediatheque.lindau-nobel.org/r

  29. Are you unfamiliar with the terms #STED, #PALM, #STORM, #SMLM, #MINFLUX, & #MINSTED, but would you like to learn more about these #superresolution #microscopy technologies🔬? If so, then you should check out #StefanHell's #Lindau presentation 🤓 Enjoy👉 mediatheque.lindau-nobel.org/r

  30. Are you unfamiliar with the terms #STED, #PALM, #STORM, #SMLM, #MINFLUX, & #MINSTED, but would you like to learn more about these #superresolution #microscopy technologies🔬? If so, then you should check out #StefanHell's #Lindau presentation 🤓 Enjoy👉 mediatheque.lindau-nobel.org/r

  31. Are you unfamiliar with the terms #STED, #PALM, #STORM, #SMLM, #MINFLUX, & #MINSTED, but would you like to learn more about these #superresolution #microscopy technologies🔬? If so, then you should check out #StefanHell's #Lindau presentation 🤓 Enjoy👉 mediatheque.lindau-nobel.org/r

  32. Are you unfamiliar with the terms #STED, #PALM, #STORM, #SMLM, #MINFLUX, & #MINSTED, but would you like to learn more about these #superresolution #microscopy technologies🔬? If so, then you should check out #StefanHell's #Lindau presentation 🤓 Enjoy👉 mediatheque.lindau-nobel.org/r