Deep Piction

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Deep Piction

Deep Piction

@DeepPiction

Using whole-body cell-level imaging to improve disease understanding and therapy development.

Munich Katılım Mayıs 2022
109 Takip Edilen803 Takipçiler
Deep Piction retweetledi
Danielle Beckman
Danielle Beckman@DaniBeckman·
An intact human heart, rendered transparent. Because disease doesn't happen in 2D. Whole-organ tissue clearing + microscopy reveal coronary vessels (magenta) and atherosclerotic plaques (gold) across the intact organ. More at: shorturl.at/iqTBh 🫀🔬#FluorescenceFriday!
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Deep Piction
Deep Piction@DeepPiction·
We're growing! 🔬🧠 Deep Piction is hiring a Scientist to work with tissue clearing, light-sheet microscopy, 3D image analysis, and AI-driven spatial biology. You'll help generate and analyze some of the world's most detailed whole-organ datasets while contributing to next-generation therapeutics. 📍Munich, Germany Details below 👇 #Hiring #Biotech #Microscopy #ImageAnalysis #SpatialBiology
Ali Max Erturk@erturklab

We’re hiring at @DeepPiction 🧠🔬 We are looking for a Scientist – Tissue Clearing & Image Analysis (m/f/d) to join our team in Munich. You will help drive tissue-clearing, light-sheet microscopy, and quantitative 3D imaging projects across internal R&D programs and collaborations with biotechnology and pharmaceutical partners. The role combines hands-on experimental work, project ownership, workflow development, and close collaboration with our AI and image-analysis teams. We’re looking for someone with strong experience in tissue clearing, fluorescence microscopy, light-sheet imaging, and large-scale 3D image analysis. Please apply with one single PDF containing your CV and cover letter to: hr@deeppiction.com Subject: Scientist – Tissue Clearing & Image Analysis (DP-TC-2026-01) Applications will be reviewed on a rolling basis until the position is filled. linkedin.com/jobs/view/4436…

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Ali Max Erturk
Ali Max Erturk@erturklab·
Just out in Cell: a new imaging-based multimodal characterization (IMC) platform combines 𝗗𝗜𝗦𝗖𝗢 tissue clearing, whole-brain single-neuron reconstruction, spatial transcriptomics, and in vivo calcium imaging to profile the same neuron across function, morphology, and gene expression. By integrating neuronal activity, brain-wide connectivity, and transcriptomic identity in individual neurons, the study provides a powerful framework to understand how genes, structure, and function come together to shape neural circuits. Great work by the Shengjin Xu and Kai Wang labs! cell.com/cell/fulltext/…
Ali Max Erturk tweet media
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Deep Piction retweetledi
Danielle Beckman
Danielle Beckman@DaniBeckman·
Biology was never meant to be studied in 2D. One of the coolest things about my new work is being able to visualize: 🧠 Neural circuits 🩸 Vascular networks 🎯 Drug biodistribution 🎗️ Disease progression Here's a small glimpse of what we're building at @DeepPiction🤩🔬
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Deep Piction
Deep Piction@DeepPiction·
For decades, we've asked where therapeutics go in the body. Now we can ask which cells they reach. Our new SCP-Nano platform combines whole-body imaging and AI to map nanocarrier biodistribution at single-cell resolution, revealing both intended targets and unexpected off-target destinations. A new way to accelerate the development of safer and more precise therapies. Read our paper published at @NatureBiotech nature.com/articles/s4158…
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Deep Piction retweetledi
Danielle Beckman
Danielle Beckman@DaniBeckman·
Great to see @VirusesImmunity last paper highlighted at @NatRevImmunol. One of the strongest pieces of evidence yet for autoimmunity in #LongCOVID. Not proof that autoimmunity explains all neurological Long COVID, but it's getting harder to dismiss as one important mechanism.
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Jared Rosenblum
Jared Rosenblum@JaredRosenblum·
Amazing work by the entire @DeepPiction team! Proud to see this level of spatial biology pushing boundaries with wildDISCO — whole-body immunolabeling that delivers cellular-resolution 3D atlases while preserving full anatomical context in situ. 🧠🔬 Spatial biology has the power to show us real insights exactly where they matter most. At @neurosimplicity, we believe research teams should focus on biology and discovery, not data processing. That’s why we’ve built the Neurosimplicity Imaging Suite to automatically extract key insights and compare them against available or custom cohort atlases. More than that, though, the Imaging Suite is purposely built as a next-generation platform for seamless collaboration with terabyte-scale data. This is exactly the kind of breakthrough that deserves frictionless analysis and sharing. Congrats on the Nature Protocools paper! 🚀 #SpatialBiology #TissueClearing #Imaging #wildDISCO
Danielle Beckman@DaniBeckman

Proud to be part of this team! 💪🧠🔬

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Deep Piction retweetledi
Ali Max Erturk
Ali Max Erturk@erturklab·
We developed wildDISCO, a whole-body immunolabeling method that makes entire mice transparent and maps cells in 3D using standard antibodies. We are now using this technology to develop powerful cell-level targeting therapeutics.
Deep Piction@DeepPiction

How do you map every cell in an entire mouse without slicing it into thousands of sections? Our recently published paper in @NatureProtocols describes wildDISCO: a whole-body immunolabeling approach that makes the mouse transparent and labels cells throughout the body using standard antibodies. The result? Cellular-resolution 3D atlases of entire organisms, preserving the anatomical context that is often lost in traditional histology. Check more at: nature.com/articles/s4159… #SpatialBiology #Imaging #TissueClearing

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Deep Piction retweetledi
Brian S. Kim
Brian S. Kim@itchdoctor·
We are working with Roger Luo who is now @LifeAtPurdue to visually map polyorganic sensory neurons. This work is absolutely powerhouse in terms of the technology!
Deep Piction@DeepPiction

How do you map every cell in an entire mouse without slicing it into thousands of sections? Our recently published paper in @NatureProtocols describes wildDISCO: a whole-body immunolabeling approach that makes the mouse transparent and labels cells throughout the body using standard antibodies. The result? Cellular-resolution 3D atlases of entire organisms, preserving the anatomical context that is often lost in traditional histology. Check more at: nature.com/articles/s4159… #SpatialBiology #Imaging #TissueClearing

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Deep Piction
Deep Piction@DeepPiction·
🚀 Meet Deep Piction at #BIOCAP26 in Berlin this week (June 9–11)! The biggest challenge in drug delivery isn't getting a payload into the body, it's knowing where it actually ends up. Our platform maps therapeutic biodistribution across entire organs at single-cell resolution, providing insights that conventional approaches miss. Stop by Booth 8B and chat with our Head of nanotechnology & drug delivery, @cerenkimna, about how we're accelerating the development of in vivo therapies for different diseases. #Biotech #DrugDevelopment #GeneTherapy #CellTherapy #PrecisionMedicine
Deep Piction tweet mediaDeep Piction tweet media
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Deep Piction
Deep Piction@DeepPiction·
How do you map every cell in an entire mouse without slicing it into thousands of sections? Our recently published paper in @NatureProtocols describes wildDISCO: a whole-body immunolabeling approach that makes the mouse transparent and labels cells throughout the body using standard antibodies. The result? Cellular-resolution 3D atlases of entire organisms, preserving the anatomical context that is often lost in traditional histology. Check more at: nature.com/articles/s4159… #SpatialBiology #Imaging #TissueClearing
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Deep Piction retweetledi
Danielle Beckman
Danielle Beckman@DaniBeckman·
Not all organs respond equally to #COVID infection. DISCO-seq, a new technique led by my talented friend @HarsharanBhatia, combines 3D imaging and single-cell analysis to map Spike Protein tropism and found mostly in the liver, lungs, intestine & kidneys. biorxiv.org/content/10.648…
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Deep Piction
Deep Piction@DeepPiction·
We are excited to share our recent study describing DISCO-seq, a new technique that combines RNA-preserving tissue clearing with whole-organ 3D imaging to enable unbiased single-cell transcriptomics. Read here: biorxiv.org/content/10.648…
Ali Max Erturk@erturklab

Single-cell RNA-seq transformed biology, but we still sample <0.001% of an organism. 2D sections lose 3D context. What if we image the whole body first? We Introduce DISCO-seq🤩: full 3D imaging then scRNAseq👇🏻biorxiv.org/content/10.648… by @HarsharanBhatia, Laurent Simons et al.

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Ali Max Erturk
Ali Max Erturk@erturklab·
If you missed the video for our recent @Nature study, check it out 👇🏼 Turn on the sound! We added some art to it 😊
Ali Max Erturk@erturklab

Today in @Nature, we report MouseMapper: foundation-model AI to map disease perturbations across the entire mouse body cell-by-cell. In obesity, it revealed body-wide inflammation & unexpected facial nerve damage. 🧵👇🔉 nature.com/articles/s4158… led by @Dorie00 & @yingchen733

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