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#fluorescencemicroscopy — Public Fediverse posts

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

  1. 🔬 New #SpectralUnmixing paper by Ashesh et al. ( @florianjug): A #DeepLearning-based framework #MicroSplit for #FluorescenceMicroscopy that separates highly overlapping #fluorophore signals directly from multiplexed #ImagingData. Improves signal separation, reduces crosstalk, & enables more accurate multi-channel #imaging w/o requiring extensive reference measurements. Can’t wait to try this out on our in vivo #2P/ #3P imaging data:

    📝 doi.org/10.1038/s41592-026-030

    #Bioimaging

  2. 🔬 New #SpectralUnmixing paper by Ashesh et al. ( @florianjug): A #DeepLearning-based framework #MicroSplit for #FluorescenceMicroscopy that separates highly overlapping #fluorophore signals directly from multiplexed #ImagingData. Improves signal separation, reduces crosstalk, & enables more accurate multi-channel #imaging w/o requiring extensive reference measurements. Can’t wait to try this out on our in vivo #2P/ #3P imaging data:

    📝 doi.org/10.1038/s41592-026-030

    #Bioimaging

  3. 🔬 New #SpectralUnmixing paper by Ashesh et al. ( @florianjug): A #DeepLearning-based framework #MicroSplit for #FluorescenceMicroscopy that separates highly overlapping #fluorophore signals directly from multiplexed #ImagingData. Improves signal separation, reduces crosstalk, & enables more accurate multi-channel #imaging w/o requiring extensive reference measurements. Can’t wait to try this out on our in vivo #2P/ #3P imaging data:

    📝 doi.org/10.1038/s41592-026-030

    #Bioimaging

  4. 🔬 New #SpectralUnmixing paper by Ashesh et al. ( @florianjug): A #DeepLearning-based framework #MicroSplit for #FluorescenceMicroscopy that separates highly overlapping #fluorophore signals directly from multiplexed #ImagingData. Improves signal separation, reduces crosstalk, & enables more accurate multi-channel #imaging w/o requiring extensive reference measurements. Can’t wait to try this out on our in vivo #2P/ #3P imaging data:

    📝 doi.org/10.1038/s41592-026-030

    #Bioimaging

  5. 🔬 New #SpectralUnmixing paper by Ashesh et al. ( @florianjug): A #DeepLearning-based framework #MicroSplit for #FluorescenceMicroscopy that separates highly overlapping #fluorophore signals directly from multiplexed #ImagingData. Improves signal separation, reduces crosstalk, & enables more accurate multi-channel #imaging w/o requiring extensive reference measurements. Can’t wait to try this out on our in vivo #2P/ #3P imaging data:

    📝 doi.org/10.1038/s41592-026-030

    #Bioimaging

  6. #Introduction:

    Hello #ScienceMastodon.

    My name is Verena Kohler and I am a #FirstGen #scientist, currently working as independent senior #postdoc at #UniGraz in Austria.

    I am interested, how age influences #proteostasis, the balance between protein production, folding and degradation, and how #ageing affects cellular #communication routes.
    For that, I am using my favourite #ModelOrganism, the baker’s #yeast, a lot of #FluorescenceMicroscopy and #HighThroughput screens.

    Let’s talk #science !

  7. #Introduction:

    Hello #ScienceMastodon.

    My name is Verena Kohler and I am a #FirstGen #scientist, currently working as independent senior #postdoc at #UniGraz in Austria.

    I am interested, how age influences #proteostasis, the balance between protein production, folding and degradation, and how #ageing affects cellular #communication routes.
    For that, I am using my favourite #ModelOrganism, the baker’s #yeast, a lot of #FluorescenceMicroscopy and #HighThroughput screens.

    Let’s talk #science !

  8. #Introduction:

    Hello #ScienceMastodon.

    My name is Verena Kohler and I am a #FirstGen #scientist, currently working as independent senior #postdoc at #UniGraz in Austria.

    I am interested, how age influences #proteostasis, the balance between protein production, folding and degradation, and how #ageing affects cellular #communication routes.
    For that, I am using my favourite #ModelOrganism, the baker’s #yeast, a lot of #FluorescenceMicroscopy and #HighThroughput screens.

    Let’s talk #science !

  9. #Introduction:

    Hello #ScienceMastodon.

    My name is Verena Kohler and I am a #FirstGen #scientist, currently working as independent senior #postdoc at #UniGraz in Austria.

    I am interested, how age influences #proteostasis, the balance between protein production, folding and degradation, and how #ageing affects cellular #communication routes.
    For that, I am using my favourite #ModelOrganism, the baker’s #yeast, a lot of #FluorescenceMicroscopy and #HighThroughput screens.

    Let’s talk #science !

  10. #Introduction:

    Hello #ScienceMastodon.

    My name is Verena Kohler and I am a #FirstGen #scientist, currently working as independent senior #postdoc at #UniGraz in Austria.

    I am interested, how age influences #proteostasis, the balance between protein production, folding and degradation, and how #ageing affects cellular #communication routes.
    For that, I am using my favourite #ModelOrganism, the baker’s #yeast, a lot of #FluorescenceMicroscopy and #HighThroughput screens.

    Let’s talk #science !

  11. 💥 Find out how to get 100% correlated labels using the FluoSync technology - a new way to do spectral unmixing.
    📚 Learn how to perform true simultaneous imaging of 4 labels without spatiotemporal mismatch, avoiding artifacts & false measurements.
    Learn more: fcld.ly/0bcoo7r

    #microscopy #fluorescencemicroscopy #ScienceTwitter #ScienceMastodon #research

  12. 💥 Find out how to get 100% correlated labels using the FluoSync technology - a new way to do spectral unmixing.
    📚 Learn how to perform true simultaneous imaging of 4 labels without spatiotemporal mismatch, avoiding artifacts & false measurements.
    Learn more: fcld.ly/0bcoo7r

    #microscopy #fluorescencemicroscopy #ScienceTwitter #ScienceMastodon #research