#microscopy — Public Fediverse posts

🔬 High‑res microscopes now flood labs with petabytes of images.

💡 Researchers are building an AI assistant that scans these massive datasets, spots patterns and pulls out the biologically relevant features—cutting down weeks of manual work to minutes.

🚀 This could speed discoveries in cell biology, pathology and beyond.

#AI #Microscopy #BigData #Bioinformatics #OpenScience

🔗 https://news.google.com/rss/articles/CBMiigFBVV95cUxOSFViY2VvMHhVRmpmTUxLSGctcTBMWE9LeElHUVg2LVl4MlZxODVLN20wY0hYbXVzTFlhYWNvUkNHUHNNMmZTQW5NV1NhOFRaaVF1dGc5d0Q5YUtBazh2ZURZcWtZR0xneDlieVdTWmp5UmtaQVhLLWJQUXd3dTAxcE9vMHNLSHB2Unc?oc=5

https://t.me/GlobalWFeed

Scientists visualize a key cell protein regulating inflammatory disease pathways

University of Cincinnati structural biologists are the first in the world to visualize a key cell protein as part…
#NewsBeep #News #Science #CA #Canada #cancer #Cell #Chronic #Electron #ElectronMicroscopy #Enzyme #ImmuneResponse #Intracellular #medicine #Microscopy #Protein #research #structuralbiology
https://www.newsbeep.com/ca/687719/

https://www.europesays.com/ie/498414/ Scientists visualize a key cell protein regulating inflammatory disease pathways #cancer #Cell #Chronic #Éire #Electron #ElectronMicroscopy #Enzyme #IE #ImmuneResponse #Intracellular #Ireland #medicine #Microscopy #Protein #Research #Science #StructuralBiology

🔬 A breakthrough for spatial biology? This ultrafast 3D imaging method enables deep whole-organ visualization faster than ever before.

🔗 Rapid 3D Immunolabeling and Light Sheet Microscopy for Quantitative Analysis of Intact Tissues. Computational and Structural Biotechnology Journal (CSBJ). DOI: https://doi.org/10.34133/csbj.0121

📚 CSBJ - A Science Partner Journal: https://spj.science.org/journal/csbj

#Bioimaging #3DImaging #LightSheetMicroscopy #TissueBiology #Microscopy #CellBiology #SpatialBiology #Histology

🔬 A breakthrough for spatial biology? This ultrafast 3D imaging method enables deep whole-organ visualization faster than ever before.

🔗 Rapid 3D Immunolabeling and Light Sheet Microscopy for Quantitative Analysis of Intact Tissues. Computational and Structural Biotechnology Journal (CSBJ). DOI: https://doi.org/10.34133/csbj.0121

📚 CSBJ - A Science Partner Journal: https://spj.science.org/journal/csbj

#Bioimaging #3DImaging #LightSheetMicroscopy #TissueBiology #Microscopy #CellBiology #SpatialBiology #Histology

https://www.europesays.com/ie/494271/ Neuroplex pipeline monitors nine neuronal populations in moving mice #Aging #Brain #BrainCell #Cell #Cortex #Éire #IE #imaging #Ireland #Microscope #Microscopy #Neuron #Neurons #Neuroscience #Research #Science #Software

Breakthrough Imaging Technique Exposes Elusive Cell-to-Cell Networks

Australian National University develops new microscope to see how cells talk to each other in 3D. This helps understand diseases and how viruses spread.

#CellCommunication, #ANU, #Microscopy, #DiseaseResearch, #ViralSpread

https://newsletter.tf/anu-nanoscopy-sees-hidden-cell-networks/

Scientists can now see tiny cell connections in 3D for days, like watching a hidden city map of cell messages. This is a big step from older microscopes.

#CellCommunication, #ANU, #Microscopy, #DiseaseResearch, #ViralSpread
https://newsletter.tf/anu-nanoscopy-sees-hidden-cell-networks/

Open position: Systems Engineer II. #science #engineering #career #jobs #job #jobsearch #physics #imaging #microscopy www.lifescience.net/jobs/230191/...

Systems Engineer II

Open position: Systems Engineer II. #science #engineering #career #jobs #job #jobsearch #physics #imaging #microscopy www.lifescience.net/jobs/230191/...

Systems Engineer II

Open position: Systems Engineer II. #science #engineering #career #jobs #job #jobsearch #physics #imaging #microscopy www.lifescience.net/jobs/230191/...

Systems Engineer II

Open position: Systems Engineer II. #science #engineering #career #jobs #job #jobsearch #physics #imaging #microscopy www.lifescience.net/jobs/230191/...

Systems Engineer II

Open position: Systems Engineer II. #science #engineering #career #jobs #job #jobsearch #physics #imaging #microscopy www.lifescience.net/jobs/230191/...

Systems Engineer II

Well it’s the final day of what has been pretty much my ideal meeting! JCS Imaging Cell Dynamics has been an absolute blast. Fantastic organisation by @Co_Biologists in an amazing venue in the hills of Catalonia. #microscopy #cellbiology

Well it’s the final day of what has been pretty much my ideal meeting! JCS Imaging Cell Dynamics has been an absolute blast. Fantastic organisation by @Co_Biologists in an amazing venue in the hills of Catalonia. #microscopy #cellbiology

Well it’s the final day of what has been pretty much my ideal meeting! JCS Imaging Cell Dynamics has been an absolute blast. Fantastic organisation by @Co_Biologists in an amazing venue in the hills of Catalonia. #microscopy #cellbiology

Well it’s the final day of what has been pretty much my ideal meeting! JCS Imaging Cell Dynamics has been an absolute blast. Fantastic organisation by @Co_Biologists in an amazing venue in the hills of Catalonia. #microscopy #cellbiology

Well it’s the final day of what has been pretty much my ideal meeting! JCS Imaging Cell Dynamics has been an absolute blast. Fantastic organisation by @Co_Biologists in an amazing venue in the hills of Catalonia. #microscopy #cellbiology

Glass slide 🇺🇸

#microscope #microscopist #microscopy #sample

▶️ 1 new picture from NIH BioArt https://commons.wikimedia.org/wiki/File:Glass_slide_%28NIH_BioArt_679%29.svg

Glass slide 🇺🇸

#microscope #microscopist #microscopy #sample

▶️ 1 new picture from NIH BioArt https://commons.wikimedia.org/wiki/File:Glass_slide_%28NIH_BioArt_679%29.svg

Glass slide 🇺🇸

#microscope #microscopist #microscopy #sample

▶️ 1 new picture from NIH BioArt https://commons.wikimedia.org/wiki/File:Glass_slide_%28NIH_BioArt_679%29.svg

Glass slide 🇺🇸

#microscope #microscopist #microscopy #sample

▶️ 1 new picture from NIH BioArt https://commons.wikimedia.org/wiki/File:Glass_slide_%28NIH_BioArt_679%29.svg

👃🧬 Scientists are using cryo-electron #microscopy to visualize how scent #molecules bind to receptors in the nose.

The structural details help explain how the #brain distinguishes between thousands of different odors based on molecular shape and #chemistry. The findings provide a clearer understanding of the biological process that allows us to experience the world through smell.

👉 https://www.chemistryworld.com/features/the-molecular-mystery-of-how-we-smell/4023405.article

#biology #science #research #education #nature

👃🧬 Scientists are using cryo-electron #microscopy to visualize how scent #molecules bind to receptors in the nose.

The structural details help explain how the #brain distinguishes between thousands of different odors based on molecular shape and #chemistry. The findings provide a clearer understanding of the biological process that allows us to experience the world through smell.

👉 https://www.chemistryworld.com/features/the-molecular-mystery-of-how-we-smell/4023405.article

#biology #science #research #education #nature

👃🧬 Scientists are using cryo-electron #microscopy to visualize how scent #molecules bind to receptors in the nose.

The structural details help explain how the #brain distinguishes between thousands of different odors based on molecular shape and #chemistry. The findings provide a clearer understanding of the biological process that allows us to experience the world through smell.

👉 https://www.chemistryworld.com/features/the-molecular-mystery-of-how-we-smell/4023405.article

#biology #science #research #education #nature

👃🧬 Scientists are using cryo-electron #microscopy to visualize how scent #molecules bind to receptors in the nose.

The structural details help explain how the #brain distinguishes between thousands of different odors based on molecular shape and #chemistry. The findings provide a clearer understanding of the biological process that allows us to experience the world through smell.

👉 https://www.chemistryworld.com/features/the-molecular-mystery-of-how-we-smell/4023405.article

#biology #science #research #education #nature

👃🧬 Scientists are using cryo-electron #microscopy to visualize how scent #molecules bind to receptors in the nose.

The structural details help explain how the #brain distinguishes between thousands of different odors based on molecular shape and #chemistry. The findings provide a clearer understanding of the biological process that allows us to experience the world through smell.

👉 https://www.chemistryworld.com/features/the-molecular-mystery-of-how-we-smell/4023405.article

#biology #science #research #education #nature

A non-contact technique that utilizes laser-induced thermo-viscous fluid flows to rotate delicate microscopic samples in all three spatial dimensions.
#Microscopy #OpticalImaging #FluidDynamics #Biophysics #Microrobotics #Microtechnology #sflorg
https://www.sflorg.com/2026/05/phy05122601.html

A non-contact technique that utilizes laser-induced thermo-viscous fluid flows to rotate delicate microscopic samples in all three spatial dimensions.
#Microscopy #OpticalImaging #FluidDynamics #Biophysics #Microrobotics #Microtechnology #sflorg
https://www.sflorg.com/2026/05/phy05122601.html

A non-contact technique that utilizes laser-induced thermo-viscous fluid flows to rotate delicate microscopic samples in all three spatial dimensions.
#Microscopy #OpticalImaging #FluidDynamics #Biophysics #Microrobotics #Microtechnology #sflorg
https://www.sflorg.com/2026/05/phy05122601.html

A non-contact technique that utilizes laser-induced thermo-viscous fluid flows to rotate delicate microscopic samples in all three spatial dimensions.
#Microscopy #OpticalImaging #FluidDynamics #Biophysics #Microrobotics #Microtechnology #sflorg
https://www.sflorg.com/2026/05/phy05122601.html

A non-contact technique that utilizes laser-induced thermo-viscous fluid flows to rotate delicate microscopic samples in all three spatial dimensions.
#Microscopy #OpticalImaging #FluidDynamics #Biophysics #Microrobotics #Microtechnology #sflorg
https://www.sflorg.com/2026/05/phy05122601.html

Just shipped v0.1.0 of CellSeg — an open-source Android app that runs Cellpose cell segmentation on-device

Free, MIT-licensed, no ads, no tracking. ~14 MB cyto3 ONNX model, runs fully offline after first download. Optional Cellpose-SAM cloud fallback via Hugging Face for harder cases

Written up the launch with the architecture, the licensing chapter, and an honest list of what v0.1.0 isn't yet:

https://kemal.yaylali.uk/cellseg-v0-1-0-is-out/

#bioinformatics #microscopy #cellpose #android #buildinpublic #opensource

Just shipped v0.1.0 of CellSeg — an open-source Android app that runs Cellpose cell segmentation on-device

Free, MIT-licensed, no ads, no tracking. ~14 MB cyto3 ONNX model, runs fully offline after first download. Optional Cellpose-SAM cloud fallback via Hugging Face for harder cases

Written up the launch with the architecture, the licensing chapter, and an honest list of what v0.1.0 isn't yet:

https://kemal.yaylali.uk/cellseg-v0-1-0-is-out/

#bioinformatics #microscopy #cellpose #android #buildinpublic #opensource

Just shipped v0.1.0 of CellSeg — an open-source Android app that runs Cellpose cell segmentation on-device

Free, MIT-licensed, no ads, no tracking. ~14 MB cyto3 ONNX model, runs fully offline after first download. Optional Cellpose-SAM cloud fallback via Hugging Face for harder cases

Written up the launch with the architecture, the licensing chapter, and an honest list of what v0.1.0 isn't yet:

https://kemal.yaylali.uk/cellseg-v0-1-0-is-out/

#bioinformatics #microscopy #cellpose #android #buildinpublic #opensource

Just shipped v0.1.0 of CellSeg — an open-source Android app that runs Cellpose cell segmentation on-device

Free, MIT-licensed, no ads, no tracking. ~14 MB cyto3 ONNX model, runs fully offline after first download. Optional Cellpose-SAM cloud fallback via Hugging Face for harder cases

Written up the launch with the architecture, the licensing chapter, and an honest list of what v0.1.0 isn't yet:

https://kemal.yaylali.uk/cellseg-v0-1-0-is-out/

#bioinformatics #microscopy #cellpose #android #buildinpublic #opensource

Just shipped v0.1.0 of CellSeg — an open-source Android app that runs Cellpose cell segmentation on-device

Free, MIT-licensed, no ads, no tracking. ~14 MB cyto3 ONNX model, runs fully offline after first download. Optional Cellpose-SAM cloud fallback via Hugging Face for harder cases

Written up the launch with the architecture, the licensing chapter, and an honest list of what v0.1.0 isn't yet:

https://kemal.yaylali.uk/cellseg-v0-1-0-is-out/

#bioinformatics #microscopy #cellpose #android #buildinpublic #opensource

One of the reasons why I love being a microscopist working in #immunology 💜🔬🎨 This beauty is a #microscopy image of human gingival tissue from a periodontitis patient we stained using our multiplex technique. One of those shots was chosen for the new #bmbf exhibition traveling through Germany, Austria and Poland via the MS Wissenschaft - a floating science center. Opening is tomorrow - Check it out!

#sciencemastodon #science

https://www.drfz.de/neuigkeiten/faszinierende-gewebelandschaften-auf-kreuzfahrt/
https://ms-wissenschaft.de/de/besuch/tour/

One of the reasons why I love being a microscopist working in #immunology 💜🔬🎨 This beauty is a #microscopy image of human gingival tissue from a periodontitis patient we stained using our multiplex technique. One of those shots was chosen for the new #bmbf exhibition traveling through Germany, Austria and Poland via the MS Wissenschaft - a floating science center. Opening is tomorrow - Check it out!

#sciencemastodon #science

https://www.drfz.de/neuigkeiten/faszinierende-gewebelandschaften-auf-kreuzfahrt/
https://ms-wissenschaft.de/de/besuch/tour/

One of the reasons why I love being a microscopist working in #immunology 💜🔬🎨 This beauty is a #microscopy image of human gingival tissue from a periodontitis patient we stained using our multiplex technique. One of those shots was chosen for the new #bmbf exhibition traveling through Germany, Austria and Poland via the MS Wissenschaft - a floating science center. Opening is tomorrow - Check it out!

#sciencemastodon #science

https://www.drfz.de/neuigkeiten/faszinierende-gewebelandschaften-auf-kreuzfahrt/
https://ms-wissenschaft.de/de/besuch/tour/

Microscopy lectures in video:
https://www.ibiology.org/online-biology-courses/microscopy-series/

About cameras, instruments, point-spread functions, dyes, the photon budget, and a lot more, from Lichtmann, Vale, Smith, Hell, Stuurman, Tsien, Lippincott-Schwartz and a lot more.

#microscopy #LightMicroscopy

Microscopy lectures in video:
https://www.ibiology.org/online-biology-courses/microscopy-series/

About cameras, instruments, point-spread functions, dyes, the photon budget, and a lot more, from Lichtmann, Vale, Smith, Hell, Stuurman, Tsien, Lippincott-Schwartz and a lot more.

#microscopy #LightMicroscopy

Microscopy lectures in video:
https://www.ibiology.org/online-biology-courses/microscopy-series/

About cameras, instruments, point-spread functions, dyes, the photon budget, and a lot more, from Lichtmann, Vale, Smith, Hell, Stuurman, Tsien, Lippincott-Schwartz and a lot more.

#microscopy #LightMicroscopy

Microscopy lectures in video:
https://www.ibiology.org/online-biology-courses/microscopy-series/

About cameras, instruments, point-spread functions, dyes, the photon budget, and a lot more, from Lichtmann, Vale, Smith, Hell, Stuurman, Tsien, Lippincott-Schwartz and a lot more.

#microscopy #LightMicroscopy

Microscopy lectures in video:
https://www.ibiology.org/online-biology-courses/microscopy-series/

About cameras, instruments, point-spread functions, dyes, the photon budget, and a lot more, from Lichtmann, Vale, Smith, Hell, Stuurman, Tsien, Lippincott-Schwartz and a lot more.

#microscopy #LightMicroscopy

Florian Jug's lab @florianjug latest:

"MicroSplit: semantic unmixing of fluorescent microscopy data", Ashesh et al. 2026
https://www.nature.com/articles/s41592-026-03082-1

"MicroSplit separates up to four superimposed noisy structures into distinct, denoised image channels, enabling faster and more photon-efficient imaging."

"Built on Variational Splitting Encoder-Decoder networks, models a posterior distribution over solutions, allowing uncertainty-aware predictions and the estimation of spatially resolved prediction errors from posterior variability."

#BioimageInformatics #LightMicroscopy #microscopy

Florian Jug's lab @florianjug latest:

"MicroSplit: semantic unmixing of fluorescent microscopy data", Ashesh et al. 2026
https://www.nature.com/articles/s41592-026-03082-1

"MicroSplit separates up to four superimposed noisy structures into distinct, denoised image channels, enabling faster and more photon-efficient imaging."

"Built on Variational Splitting Encoder-Decoder networks, models a posterior distribution over solutions, allowing uncertainty-aware predictions and the estimation of spatially resolved prediction errors from posterior variability."

#BioimageInformatics #LightMicroscopy #microscopy

Florian Jug's lab @florianjug latest:

"MicroSplit: semantic unmixing of fluorescent microscopy data", Ashesh et al. 2026
https://www.nature.com/articles/s41592-026-03082-1

"MicroSplit separates up to four superimposed noisy structures into distinct, denoised image channels, enabling faster and more photon-efficient imaging."

"Built on Variational Splitting Encoder-Decoder networks, models a posterior distribution over solutions, allowing uncertainty-aware predictions and the estimation of spatially resolved prediction errors from posterior variability."

#BioimageInformatics #LightMicroscopy #microscopy

Florian Jug's lab @florianjug latest:

"MicroSplit: semantic unmixing of fluorescent microscopy data", Ashesh et al. 2026
https://www.nature.com/articles/s41592-026-03082-1

"MicroSplit separates up to four superimposed noisy structures into distinct, denoised image channels, enabling faster and more photon-efficient imaging."

"Built on Variational Splitting Encoder-Decoder networks, models a posterior distribution over solutions, allowing uncertainty-aware predictions and the estimation of spatially resolved prediction errors from posterior variability."

#BioimageInformatics #LightMicroscopy #microscopy

Florian Jug's lab @florianjug latest:

"MicroSplit: semantic unmixing of fluorescent microscopy data", Ashesh et al. 2026
https://www.nature.com/articles/s41592-026-03082-1

"MicroSplit separates up to four superimposed noisy structures into distinct, denoised image channels, enabling faster and more photon-efficient imaging."

"Built on Variational Splitting Encoder-Decoder networks, models a posterior distribution over solutions, allowing uncertainty-aware predictions and the estimation of spatially resolved prediction errors from posterior variability."

#BioimageInformatics #LightMicroscopy #microscopy