Clinical research scientists routinely grow
muscle cells in the lab.
Not exact matches
Brooklyn - based startup Modern Meadow grows fish, poultry, meat, and leather
in its
labs from
muscle cells.
Scientists can then grow the
muscle cells and develop them
in a
lab the same way the
cells would grow on a living organism.
From this tissue, smooth
muscle and nerve
cells were isolated and then multiplied
in the
lab.
«CRISPR - Cpf1 differs from CRISPR - Cas9
in a number of key ways, including being easier to deliver to
muscle cells, said Yu Zhang, a graduate student
in Dr. Olson's
lab and the first author of this study.
Previous research by Lee's
lab had shown that p75 is involved
in a signaling pathway that regulates the development of sensory neurons —
cells which transmit our sensation of pain, touch and
muscle tension —
in the dorsal root ganglia.
Around 2000, then - postdoc Wagers and other researchers
in Irving Weissman's and Thomas Rando's
labs at Stanford revived the method, known as parabiosis, to study the fate of blood stem
cells and
muscle cells.
Researcher Laura S. Shankman, a PhD student
in the Owens
lab, was able to overcome the limitations of the traditional methodology for detecting smooth
muscle cells in the plaque.
To create different
cell types
in the
lab, stem
cells must be coaxed down the road of determination — the branching paths that fetal
cells normally travel to become neurons, skin
cells,
muscle cells, or any number of other
cell types.
Ruvkun's
lab later demonstrated that the daf - 2 pathway functions specifically within the worm's neurons — and not elsewhere, such as
in muscle cells — to control life span.
The hamburger was grown
in Post's
lab using bovine skeletal
muscle stem
cells, collected from a piece of fresh beef.
The patient, already
in a wheelchair, visited the
lab and watched
in amazement as his own
muscle cells beat
in a culture dish after corrective editing.
Shenoy's
lab pioneered the algorithms used to decode the complex volleys of electrical signals fired by nerve
cells in the motor cortex, the brain's command center for movement, and convert them
in real time into actions ordinarily executed by spinal cord and
muscles.
But when physiologist H. Lee Sweeney of the University of Pennsylvania School of Medicine
in Philadelphia and his colleagues put this faulty gene into embryonic quail
muscle cells growing
in lab dishes, the
cells made a shortened version of the protein and incorporated it into their contractile machinery.
Once they were able to isolate skeletal
muscle cells using the newly identified surface markers, the research team matured those
cells in the
lab to create dystrophin - producing
muscle fibers.
Several years ago, his
lab reported that a common germ - killing agent interferes with the movement of calcium
in muscle cells.
Gladstone scientists have discovered how to make the three types of heart
cells — cardiomyocytes, endothelial
cells, and smooth
muscle cells — out of a new type of cardiac stem
cell created
in a
lab.
Lead researcher Christoph Lepper, a predoctoral fellow
in Carnegie's Chen - Ming Fan's
lab and a Johns Hopkins student, for the first time looked at these two genes
in promoting stem
cells at varying stages of
muscle growth
in live mice after birth.
Dr. Srivastava's
lab has leveraged the body of knowledge from cardiac developmental biology to reprogram non-
muscle cells in the mouse heart directly into
cells that function like heart
muscle cells, effectively regenerating heart
muscle after damage.
«To make this available as a therapy, we would take a
muscle biopsy from a patient with a
muscle injury or disease, remove the myoendothelial
cells and treat the
cells in the
lab.
In the
lab, Bub's group grew normal
cells from the heart
muscle of a rat.
In a study published earlier this year, the same Belmonte and Gage lab team demonstrated that a few ES cells in a culture dish tended to lose stemness and evolve into muscle cell precursors, most likely goaded by a muscle differentiation factor known as BM
In a study published earlier this year, the same Belmonte and Gage
lab team demonstrated that a few ES
cells in a culture dish tended to lose stemness and evolve into muscle cell precursors, most likely goaded by a muscle differentiation factor known as BM
in a culture dish tended to lose stemness and evolve into
muscle cell precursors, most likely goaded by a
muscle differentiation factor known as BMP.
Researchers announced they mimicked the way embryonic stem
cells develop into heart
muscle in a
lab.