Difference between revisions of "CometWiki"
m |
m |
||
Line 14: | Line 14: | ||
=====Bead Motility===== | =====Bead Motility===== | ||
One popular way to study how our cells use actin networks to produce force and move is using a simplified system---''actin-based bead motility''---which recreates motility ''in vitro''. To do this, we coat a bead with proteins that normally tell the cell to polymerize actin, then put the bead a solution similar to that inside of the cell, which causes an actin network to build around the bead. Surprisingly, even when the bead is spherically symmetric, rather than just building a symmetric shell that gets bigger and bigger, the bead moves off in 'comet tail' of actin. This bead motility simulator help us understand how this process works, by recreating the process ''in silico''. | One popular way to study how our cells use actin networks to produce force and move is using a simplified system---''actin-based bead motility''---which recreates motility ''in vitro''. To do this, we coat a bead with proteins that normally tell the cell to polymerize actin, then put the bead a solution similar to that inside of the cell, which causes an actin network to build around the bead. Surprisingly, even when the bead is spherically symmetric, rather than just building a symmetric shell that gets bigger and bigger, the bead moves off in 'comet tail' of actin. This bead motility simulator help us understand how this process works, by recreating the process ''in silico''. | ||
− | |||
− | |||
|valign="top"| | |valign="top"| | ||
|} | |} | ||
Line 21: | Line 19: | ||
|width=300px valign="top"| | |width=300px valign="top"| | ||
==Essential Information== | ==Essential Information== | ||
+ | [http://www.dayel.com/comet-tutorials/ Here is a video tutorial on how to run the program]. | ||
===How the program works=== | ===How the program works=== |
Revision as of 19:28, 5 September 2009
This wiki describes the set up and usage of `comet', an actin-based bead motility simulator. IntroductionCell MovementCells in our body use actin to move. Unlike the actin-myosin interaction that produces muscle movement, this kind of movement is on a much smaller scale---the scale of individual cells---and allows, for example, neurons to migrate and wire up to the right part of the brain, and cells in our immune system to track down and engulf bacteria. To achieve this movement, cells lay down actin polymer networks that produce force. Bead MotilityOne popular way to study how our cells use actin networks to produce force and move is using a simplified system---actin-based bead motility---which recreates motility in vitro. To do this, we coat a bead with proteins that normally tell the cell to polymerize actin, then put the bead a solution similar to that inside of the cell, which causes an actin network to build around the bead. Surprisingly, even when the bead is spherically symmetric, rather than just building a symmetric shell that gets bigger and bigger, the bead moves off in 'comet tail' of actin. This bead motility simulator help us understand how this process works, by recreating the process in silico. |
Essential InformationHere is a video tutorial on how to run the program. How the program worksInstalling the program
Running the programThe program is called from the command line. The command line parameters tell the program what to do (calculate a new run, re-process existing data, interactive 3D view etc.). A |
Simulator OutputExample Results
Model RobustnessIn Vitro
In Depth InformationInner workings of the codeMaking Measurments |