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This paper changed my life: Bradley Dickerson on how a 1940s fly neuroanatomy paper influences his research to this day
This classic paper by zoologist John Pringle describes the haltere—a small structure in flies that plays a crucial role in flight control. It taught me to think about circuits and behavior as greater than the sum of their parts.
This paper changed my life: Bradley Dickerson on how a 1940s fly neuroanatomy paper influences his research to this day
This classic paper by zoologist John Pringle describes the haltere—a small structure in flies that plays a crucial role in flight control. It taught me to think about circuits and behavior as greater than the sum of their parts.
Gazing at a location from afar activates place cells in chickadees
The results help explain how the hippocampus can recall information about a place without an animal physically revisiting it.
Gazing at a location from afar activates place cells in chickadees
The results help explain how the hippocampus can recall information about a place without an animal physically revisiting it.
Some dopamine neurons signal default behaviors to reinforce habits
Movement-sensing neurons that target the striatum influence a mouse’s choice of action by favoring routine.
Some dopamine neurons signal default behaviors to reinforce habits
Movement-sensing neurons that target the striatum influence a mouse’s choice of action by favoring routine.
On the importance of reading (just not too much)
The real fun of being a neuroscientist, and maybe the key to asking and answering new questions, is to think big and take intellectual risks.
On the importance of reading (just not too much)
The real fun of being a neuroscientist, and maybe the key to asking and answering new questions, is to think big and take intellectual risks.
How developing neurons simplify their search for a synaptic mate
Streamlining the problem from 3D to 1D eases the expedition—a strategy the study investigators deployed to rewire an olfactory circuit in flies.
How developing neurons simplify their search for a synaptic mate
Streamlining the problem from 3D to 1D eases the expedition—a strategy the study investigators deployed to rewire an olfactory circuit in flies.
‘Understudied secret’ in brain dampens nicotine drive in mice
The interpeduncular nucleus produces an aversion to nicotine, even at low doses, and helps moderate how rewarding mice find the drug.
‘Understudied secret’ in brain dampens nicotine drive in mice
The interpeduncular nucleus produces an aversion to nicotine, even at low doses, and helps moderate how rewarding mice find the drug.
Rethinking how neural activity sculpts critical periods
New findings on the role of neural activity in developing circuits are challenging our prior notions about the rules that govern critical periods.
Rethinking how neural activity sculpts critical periods
New findings on the role of neural activity in developing circuits are challenging our prior notions about the rules that govern critical periods.
To understand the brain as a network organ, we must image cortical layers
Human neuroscience research has largely overlooked this spatial scale—which bridges cells and brain areas. But new advances in functional MRI technology are changing that.
To understand the brain as a network organ, we must image cortical layers
Human neuroscience research has largely overlooked this spatial scale—which bridges cells and brain areas. But new advances in functional MRI technology are changing that.
Amina Abubakar translates autism research and care for Kenya
First an educator and now an internationally recognized researcher, the Kenyan psychologist is changing autism science and services in sub-Saharan Africa.
Amina Abubakar translates autism research and care for Kenya
First an educator and now an internationally recognized researcher, the Kenyan psychologist is changing autism science and services in sub-Saharan Africa.
Learning in living mice defies classic synaptic plasticity rule
Donald Hebb’s theory—memorably summarized as “cells that fire together, wire together”—does not explain the shifting hippocampal connections in mice learning to navigate a virtual environment, according to a new study.
Learning in living mice defies classic synaptic plasticity rule
Donald Hebb’s theory—memorably summarized as “cells that fire together, wire together”—does not explain the shifting hippocampal connections in mice learning to navigate a virtual environment, according to a new study.
Explore more from The Transmitter
Altered visual processing in a mouse model of fragile X syndrome; and more
Here is a roundup of autism-related news and research spotted around the web for the week of 16 June.
Altered visual processing in a mouse model of fragile X syndrome; and more
Here is a roundup of autism-related news and research spotted around the web for the week of 16 June.
NIH cuts quash $323 million for neuroscience research and training
“I am frightened for the state of the future of our field if this isn't reversed rapidly,” says Joshua Gordon, professor of psychiatry at Columbia University and former director of the National Institute of Mental Health.
NIH cuts quash $323 million for neuroscience research and training
“I am frightened for the state of the future of our field if this isn't reversed rapidly,” says Joshua Gordon, professor of psychiatry at Columbia University and former director of the National Institute of Mental Health.
Everything, everywhere, all at once: Inside the chaos of Alzheimer’s disease
To truly understand Alzheimer’s disease, we may need to take a systems approach, in which inflammation, vascular injury, impaired glucose metabolism and other factors interact in complex ways.
Everything, everywhere, all at once: Inside the chaos of Alzheimer’s disease
To truly understand Alzheimer’s disease, we may need to take a systems approach, in which inflammation, vascular injury, impaired glucose metabolism and other factors interact in complex ways.