Cells in the brain depend on support from one another to stay alive.
Not exact matches
This
depends upon there being a
brain, an arrangement of
cells in a particular part of the body which by reason of its peculiar coordination makes the given routing able to «know»
in a distinctively human manner — quite different from, although certainly continuous with, the sort of «knowing» that is possible for the higher grades of animal life.
«The potential advantage of stem
cells,» says Eugene Redmond, a professor of neurosurgery at the Yale University School of Medicine and the lead author of that study, «is that they still have the potential to migrate and position themselves
in appropriate places
depending on what signals are there [
in the
brain].»
Different abnormalities such as cleft palates, small skulls, and problems with higher
brain function were seen
depending on which
cell types lacked Smc3 expression, but the phenotypes were similar to those seen
in CdLS patients.
Depending on the current, the wires can either boost activity
in nearby
brain cells or reduce it.
The team used this change
in the variability of the song to look at how the activity of single
cells in different parts of the
brain altered their activity
depending on the social environment.
The speed with which an animal sees
depends on how quickly the light - detecting
cells in its eye can capture snapshots of the world and send them to their
brain, the authors report.
The
brain researchers observed that nerve
cells in the sensory cortex that con - nect to distinct
brain areas are activated differentially
depending on the task to be solved.
She found that the
brain depends on a type of immune
cell known as the T
cell, which normally kills infected
cells or leads other immune
cells in a campaign against foreign invaders.
Here,
cells in different layers of the visual cortex show up as brilliant pink, yellow, and blue,
depending on how deep they are
in the
brain (the colors are artificial).
The development of
brain cells in children and
in adults largely
depends on individual dietary habits.
Thyroid hormone receives signals from the
brain and coordinates
cells to change their functions,
depending on what else is going on
in your body.
Our
brain cell's ability to do this
depends,
in large part, on how much blood they receive.