Nicolas Hubacz
@nicolashubacz.bsky.social
Neuromodulation / Biotech / Healthcare / Innovation
Immunity isn’t static.
It rewires itself across your entire life.
This is what a memory T cell looks like up close.
It rewires itself across your entire life.
This is what a memory T cell looks like up close.
November 13, 2025 at 3:30 PM
Immunity isn’t static.
It rewires itself across your entire life.
This is what a memory T cell looks like up close.
It rewires itself across your entire life.
This is what a memory T cell looks like up close.
🧬 2024 Nobel laureate David Baker has done the unthinkable — building proteins that never existed in nature.
From self-assembling nanostructures to molecular rotors, his work is turning biology into an engineering discipline.
#ProteinDesign #NobelPrize
From self-assembling nanostructures to molecular rotors, his work is turning biology into an engineering discipline.
#ProteinDesign #NobelPrize
November 12, 2025 at 4:04 PM
🧬 2024 Nobel laureate David Baker has done the unthinkable — building proteins that never existed in nature.
From self-assembling nanostructures to molecular rotors, his work is turning biology into an engineering discipline.
#ProteinDesign #NobelPrize
From self-assembling nanostructures to molecular rotors, his work is turning biology into an engineering discipline.
#ProteinDesign #NobelPrize
🧠 Microglia are the brain’s living sensors — extending and retracting their fine “feet” to shape synapses, sense activity, and repair tissue.
In this clip from Forrest Collman’s EM team, a microglia (purple) reaches across a neuron (gold), revealing the brain’s hidden choreography.
In this clip from Forrest Collman’s EM team, a microglia (purple) reaches across a neuron (gold), revealing the brain’s hidden choreography.
November 11, 2025 at 3:56 PM
🧠 Microglia are the brain’s living sensors — extending and retracting their fine “feet” to shape synapses, sense activity, and repair tissue.
In this clip from Forrest Collman’s EM team, a microglia (purple) reaches across a neuron (gold), revealing the brain’s hidden choreography.
In this clip from Forrest Collman’s EM team, a microglia (purple) reaches across a neuron (gold), revealing the brain’s hidden choreography.
Our eyes are extraordinary—but evolution shaped vision in wildly different ways.
🦅 Eagles see miles away.
🐈 Cats rule the dark.
🐙 Octopuses have no blind spot.
🦐 Mantis shrimp see colors we can’t imagine.
So many ways to see—one goal: make sense of light.
#Eyes #Life #Evolution
🦅 Eagles see miles away.
🐈 Cats rule the dark.
🐙 Octopuses have no blind spot.
🦐 Mantis shrimp see colors we can’t imagine.
So many ways to see—one goal: make sense of light.
#Eyes #Life #Evolution
October 28, 2025 at 4:12 PM
Our eyes are extraordinary—but evolution shaped vision in wildly different ways.
🦅 Eagles see miles away.
🐈 Cats rule the dark.
🐙 Octopuses have no blind spot.
🦐 Mantis shrimp see colors we can’t imagine.
So many ways to see—one goal: make sense of light.
#Eyes #Life #Evolution
🦅 Eagles see miles away.
🐈 Cats rule the dark.
🐙 Octopuses have no blind spot.
🦐 Mantis shrimp see colors we can’t imagine.
So many ways to see—one goal: make sense of light.
#Eyes #Life #Evolution
Light sheet microscopy reveals the ovary in 3D — not in slices, but as a living system.
💛 Oocytes (MVH)
💠 Blood vessels (CD31)
🧡 Granulosa cells (AMH)
A stunning look at how technology can map the architecture of fertility — where biology meets design.
💛 Oocytes (MVH)
💠 Blood vessels (CD31)
🧡 Granulosa cells (AMH)
A stunning look at how technology can map the architecture of fertility — where biology meets design.
October 23, 2025 at 4:07 PM
Light sheet microscopy reveals the ovary in 3D — not in slices, but as a living system.
💛 Oocytes (MVH)
💠 Blood vessels (CD31)
🧡 Granulosa cells (AMH)
A stunning look at how technology can map the architecture of fertility — where biology meets design.
💛 Oocytes (MVH)
💠 Blood vessels (CD31)
🧡 Granulosa cells (AMH)
A stunning look at how technology can map the architecture of fertility — where biology meets design.
The brain’s inhibitory neurons keep billions of signals in check — balancing excitation, refining rhythms, and preventing chaos.
This video shows just a glimpse of their incredible diversity.
🎥 Beauty in structure, elegance in control.
#Neuroscience
This video shows just a glimpse of their incredible diversity.
🎥 Beauty in structure, elegance in control.
#Neuroscience
October 21, 2025 at 5:09 PM
The brain’s inhibitory neurons keep billions of signals in check — balancing excitation, refining rhythms, and preventing chaos.
This video shows just a glimpse of their incredible diversity.
🎥 Beauty in structure, elegance in control.
#Neuroscience
This video shows just a glimpse of their incredible diversity.
🎥 Beauty in structure, elegance in control.
#Neuroscience
🧠 The cerebellum — 10% of brain volume, 50% of its neurons.'
A dense web of circuits predicting and correcting our every move, thought, and emotion.
The brain’s most precise learning machine sits quietly at its back.
Credit Greg Dunn!
#Neuroscience #Cerebellum #BrainScience
A dense web of circuits predicting and correcting our every move, thought, and emotion.
The brain’s most precise learning machine sits quietly at its back.
Credit Greg Dunn!
#Neuroscience #Cerebellum #BrainScience
October 7, 2025 at 4:56 PM
🧠 The cerebellum — 10% of brain volume, 50% of its neurons.'
A dense web of circuits predicting and correcting our every move, thought, and emotion.
The brain’s most precise learning machine sits quietly at its back.
Credit Greg Dunn!
#Neuroscience #Cerebellum #BrainScience
A dense web of circuits predicting and correcting our every move, thought, and emotion.
The brain’s most precise learning machine sits quietly at its back.
Credit Greg Dunn!
#Neuroscience #Cerebellum #BrainScience
What you’re seeing is self-pollination in action 🌸
This thymeleaf speedwell (Veronica serpyllifolia) doesn’t wait for bees or wind — it transfers its own pollen to ensure survival. A quiet but powerful strategy in uncertain environments.
This thymeleaf speedwell (Veronica serpyllifolia) doesn’t wait for bees or wind — it transfers its own pollen to ensure survival. A quiet but powerful strategy in uncertain environments.
October 3, 2025 at 9:30 PM
What you’re seeing is self-pollination in action 🌸
This thymeleaf speedwell (Veronica serpyllifolia) doesn’t wait for bees or wind — it transfers its own pollen to ensure survival. A quiet but powerful strategy in uncertain environments.
This thymeleaf speedwell (Veronica serpyllifolia) doesn’t wait for bees or wind — it transfers its own pollen to ensure survival. A quiet but powerful strategy in uncertain environments.
Watch mouse brain tumor cells in action 🧠
Actin (purple) gives them structure & movement, while mitochondria (green) supply the energy for growth.
Visualizing these systems helps scientists decode how tumors spread — and how we might disrupt them.
#BrainTumors #Neuroscience #Microscopy
Actin (purple) gives them structure & movement, while mitochondria (green) supply the energy for growth.
Visualizing these systems helps scientists decode how tumors spread — and how we might disrupt them.
#BrainTumors #Neuroscience #Microscopy
September 25, 2025 at 4:52 PM
Watch mouse brain tumor cells in action 🧠
Actin (purple) gives them structure & movement, while mitochondria (green) supply the energy for growth.
Visualizing these systems helps scientists decode how tumors spread — and how we might disrupt them.
#BrainTumors #Neuroscience #Microscopy
Actin (purple) gives them structure & movement, while mitochondria (green) supply the energy for growth.
Visualizing these systems helps scientists decode how tumors spread — and how we might disrupt them.
#BrainTumors #Neuroscience #Microscopy
🧠 In Alzheimer’s, brain activity becomes less complex.
Dr. Kay Jann’s team showed this drop in complexity links to tau buildup & cognitive declineseen in both typical & genetic AD.
Measuring complexity could help detect AD earlier & track its progression.
📽️ Video credit: Dr. Kay Jann & colleagues
Dr. Kay Jann’s team showed this drop in complexity links to tau buildup & cognitive declineseen in both typical & genetic AD.
Measuring complexity could help detect AD earlier & track its progression.
📽️ Video credit: Dr. Kay Jann & colleagues
September 19, 2025 at 5:58 PM
🧠 In Alzheimer’s, brain activity becomes less complex.
Dr. Kay Jann’s team showed this drop in complexity links to tau buildup & cognitive declineseen in both typical & genetic AD.
Measuring complexity could help detect AD earlier & track its progression.
📽️ Video credit: Dr. Kay Jann & colleagues
Dr. Kay Jann’s team showed this drop in complexity links to tau buildup & cognitive declineseen in both typical & genetic AD.
Measuring complexity could help detect AD earlier & track its progression.
📽️ Video credit: Dr. Kay Jann & colleagues
🧠 The Parietal Cortex
Integrates sensory input for spatial mapping, body awareness, math & logic. Critical for navigation, perception, and coordinated action.
Damage can cause neglect or Gerstmann’s Syndrome.
Credit: Greg A Dunn
#Neuroscience #CognitiveScience #ParietalCortex
Integrates sensory input for spatial mapping, body awareness, math & logic. Critical for navigation, perception, and coordinated action.
Damage can cause neglect or Gerstmann’s Syndrome.
Credit: Greg A Dunn
#Neuroscience #CognitiveScience #ParietalCortex
September 18, 2025 at 4:48 PM
🧠 The Parietal Cortex
Integrates sensory input for spatial mapping, body awareness, math & logic. Critical for navigation, perception, and coordinated action.
Damage can cause neglect or Gerstmann’s Syndrome.
Credit: Greg A Dunn
#Neuroscience #CognitiveScience #ParietalCortex
Integrates sensory input for spatial mapping, body awareness, math & logic. Critical for navigation, perception, and coordinated action.
Damage can cause neglect or Gerstmann’s Syndrome.
Credit: Greg A Dunn
#Neuroscience #CognitiveScience #ParietalCortex
🌎 The World of Migrasomes 🌎
Migrasomes, pomegranate-like organelles formed by migrating cells, play key roles in signaling, mitochondrial quality control, and lateral transfer of mRNA/proteins.
A brand-new frontier in cell biology!
Credit: NIH & Lilian Chen
Migrasomes, pomegranate-like organelles formed by migrating cells, play key roles in signaling, mitochondrial quality control, and lateral transfer of mRNA/proteins.
A brand-new frontier in cell biology!
Credit: NIH & Lilian Chen
September 17, 2025 at 3:55 PM
🌎 The World of Migrasomes 🌎
Migrasomes, pomegranate-like organelles formed by migrating cells, play key roles in signaling, mitochondrial quality control, and lateral transfer of mRNA/proteins.
A brand-new frontier in cell biology!
Credit: NIH & Lilian Chen
Migrasomes, pomegranate-like organelles formed by migrating cells, play key roles in signaling, mitochondrial quality control, and lateral transfer of mRNA/proteins.
A brand-new frontier in cell biology!
Credit: NIH & Lilian Chen
The Highest Resolution MRI EVER 🧠
The first 7T scans reveal brain microstructures in stunning detail — and next up is an 11.7T, $81M scanner. This leap will transform neuroscience, from mapping networks to tackling disease.
Credit: French CEA
#Neuroscience #MRI
The first 7T scans reveal brain microstructures in stunning detail — and next up is an 11.7T, $81M scanner. This leap will transform neuroscience, from mapping networks to tackling disease.
Credit: French CEA
#Neuroscience #MRI
September 16, 2025 at 5:06 PM
The Highest Resolution MRI EVER 🧠
The first 7T scans reveal brain microstructures in stunning detail — and next up is an 11.7T, $81M scanner. This leap will transform neuroscience, from mapping networks to tackling disease.
Credit: French CEA
#Neuroscience #MRI
The first 7T scans reveal brain microstructures in stunning detail — and next up is an 11.7T, $81M scanner. This leap will transform neuroscience, from mapping networks to tackling disease.
Credit: French CEA
#Neuroscience #MRI
What Happens During Cell Death 🦠
Under oxidative stress, the cell releases apoptotic vesicles—tiny packages carrying signals that guide immune cleanup and tissue repair.
Captured with MOSAIC lattice light sheet, this shows how even a cell’s “last act” shapes health and disease.
Credit Eric Betzi
Under oxidative stress, the cell releases apoptotic vesicles—tiny packages carrying signals that guide immune cleanup and tissue repair.
Captured with MOSAIC lattice light sheet, this shows how even a cell’s “last act” shapes health and disease.
Credit Eric Betzi
September 3, 2025 at 5:25 PM
What Happens During Cell Death 🦠
Under oxidative stress, the cell releases apoptotic vesicles—tiny packages carrying signals that guide immune cleanup and tissue repair.
Captured with MOSAIC lattice light sheet, this shows how even a cell’s “last act” shapes health and disease.
Credit Eric Betzi
Under oxidative stress, the cell releases apoptotic vesicles—tiny packages carrying signals that guide immune cleanup and tissue repair.
Captured with MOSAIC lattice light sheet, this shows how even a cell’s “last act” shapes health and disease.
Credit Eric Betzi