Regeneration in Stentor coeruleus - PMC Here we discuss single-celled regeneration in Stentor from the viewpoint of standard regeneration paradigms in animals For example, there is evidence that regeneration of the oral apparatus in Stentor follows a sender-receiver model similar to crustacean eyestalk regeneration
On Stentor growth, regeneration, vaults, and proteins Culturing Stentor in large quantities allows for the use of valuable tools like biochemistry, sequencing, and mass spectrometry Subsequent sections of the protocol cover different approaches to inducing regeneration in Stentor
Revisiting an Age-Question with New Imaging: How Does Stentor . . . Stentor is trumpet shaped with, at the wide end, a feeding apparatus lined with cilia — tiny, finger-like projections that capture microscopic prey Sheung had observed Stentor use its cilia to create vortices — large whirlpools of water that suck food particles into its feeding apparatus
Regeneration in Stentor coeruleus - Frontiers Here we discuss single-celled regeneration in Stentor from the viewpoint of standard regeneration paradigms in animals For example, there is evidence that regeneration of the oral apparatus in Stentor follows a sender-receiver model similar to crustacean eyestalk regeneration
Stentor coeruleus - Cell Press But Stentor is most famous for its amazing regenerative abilities If a Stentor cell is cut in half, each half regenerates a half-sized cell with normal anatomy Even if a single cell is cut into multiple small fragments, each fragment will generate into a normal-looking cell
(PDF) Methods for the Study of Regeneration in Stentor Culturing Stentor in large quantities allows for the use of valuable tools like biochemistry, sequencing, and mass spectrometry Subsequent sections of the protocol cover different approaches to
Research · Cortes Lab @Virginia Tech Stentor have actin and several myosin-like proteins, suggesting the potential for an actomyosin contractile ring Our lab is using cell biology, genetics, and genomics approaches to decipher how constriction of the Stentor cell occurs during division
Methods for the Study of Regeneration in Stentor - PMC Culturing Stentor in large quantities allows for the use of valuable tools like biochemistry, sequencing, and mass spectrometry Subsequent sections of the protocol cover different approaches to inducing regeneration in Stentor
Modular, cascade-like transcriptional program of regeneration in Stentor The process of building a new OA takes ~8 hr as detailed in Figure 1 RNA samples from ~20 cells were collected prior to sucrose shock at 30 min and at 1, 1 5, 2, 3, 4, 5, 6, and 7 hr after sucrose shock The number of time points was based on the time required to complete regen-eration At each stage, RNA was ex