Defining cell types
Recent articles
This series explores how new high-throughput technologies are changing the way we define brain-cell types—and the challenges that remain.
Knowledge graphs can help make sense of the flood of cell-type data
These tools, widely used in the technology industry, could provide a foundation for the study of brain circuits.
Knowledge graphs can help make sense of the flood of cell-type data
These tools, widely used in the technology industry, could provide a foundation for the study of brain circuits.
Where do cell states end and cell types begin?
High-throughput transcriptomics offers powerful new methods for defining different types of brain cells. But we need to think more explicitly about how we use these data to distinguish a cell’s permanent identity from its transient states.
Where do cell states end and cell types begin?
High-throughput transcriptomics offers powerful new methods for defining different types of brain cells. But we need to think more explicitly about how we use these data to distinguish a cell’s permanent identity from its transient states.
Building a brain: How does it generate its exquisite diversity of cells?
High-throughput technologies have revealed new insights into how the brain develops. But a truly comprehensive map of neurodevelopment requires further advances.
Building a brain: How does it generate its exquisite diversity of cells?
High-throughput technologies have revealed new insights into how the brain develops. But a truly comprehensive map of neurodevelopment requires further advances.
Welcome to the second single-cell revolution: New high-throughput technologies are transforming how we define neurons
This ongoing essay series will explore questions these technologies raise, as well as opportunities they provide for understanding development, evolution and disease.
Welcome to the second single-cell revolution: New high-throughput technologies are transforming how we define neurons
This ongoing essay series will explore questions these technologies raise, as well as opportunities they provide for understanding development, evolution and disease.
Explore more from The Transmitter
Are Brains and AI Converging?—an excerpt from ‘ChatGPT and the Future of AI: The Deep Language Revolution’
In his new book, to be published next week, computational neuroscience pioneer Sejnowski tackles debates about AI’s capacity to mirror cognitive processes.
Are Brains and AI Converging?—an excerpt from ‘ChatGPT and the Future of AI: The Deep Language Revolution’
In his new book, to be published next week, computational neuroscience pioneer Sejnowski tackles debates about AI’s capacity to mirror cognitive processes.
New tissue-clearing techniques let microscopes peer deeper into living brains
Washing mouse brain tissue with a blood protein or complex sugar can illuminate cells 550 micrometers into the cortex without compromising its normal physiology.
New tissue-clearing techniques let microscopes peer deeper into living brains
Washing mouse brain tissue with a blood protein or complex sugar can illuminate cells 550 micrometers into the cortex without compromising its normal physiology.
New catalog charts familial ties from autism to 90 other conditions
The research tool reveals associations stretching across three generations.
New catalog charts familial ties from autism to 90 other conditions
The research tool reveals associations stretching across three generations.