Team:SDU-Denmark/project-t

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(References)
(Bacterial flagellar motility)
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Spinning in the counter-clockwise direction, the flagella will twist into a bundle in the shape of a corkscrew, and create a linear driving force[[https://2010.igem.org/Team:SDU-Denmark/project-t#References 4]], propelling the cell in a straight line through the liquid. This form of movement is termed run. Spun in the clockwise direction one might then expect the cell to reverse, but this is not the case. Instead the flagellar bundle will unwind and each flagellum will flail wildly, creating chaotic movement[[https://2010.igem.org/Team:SDU-Denmark/project-t#References 4]], . This movement reorients the cell randomly and is termed tumbling. A cell will typically run for some time, then change it’s orientation by tumbling, and then run again[[https://2010.igem.org/Team:SDU-Denmark/project-t#References 5]]. The direction of flagella rotation is controlled by binding of a cytosolic protein CheY, more on which later[[https://2010.igem.org/Team:SDU-Denmark/project-t#References 4]].<br><br>
Spinning in the counter-clockwise direction, the flagella will twist into a bundle in the shape of a corkscrew, and create a linear driving force[[https://2010.igem.org/Team:SDU-Denmark/project-t#References 4]], propelling the cell in a straight line through the liquid. This form of movement is termed run. Spun in the clockwise direction one might then expect the cell to reverse, but this is not the case. Instead the flagellar bundle will unwind and each flagellum will flail wildly, creating chaotic movement[[https://2010.igem.org/Team:SDU-Denmark/project-t#References 4]], . This movement reorients the cell randomly and is termed tumbling. A cell will typically run for some time, then change it’s orientation by tumbling, and then run again[[https://2010.igem.org/Team:SDU-Denmark/project-t#References 5]]. The direction of flagella rotation is controlled by binding of a cytosolic protein CheY, more on which later[[https://2010.igem.org/Team:SDU-Denmark/project-t#References 4]].<br><br>
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Different taxis pathways that steer cells towards favorable conditions and away from danger work by regulating the frequency of tumbling events[[https://2010.igem.org/Team:SDU-Denmark/project-t#References 5]]. We can take an example where a cell is getting close to a toxin it can sense and react to. As it gets closer to the source of the toxin, intracellular pathways will increase the frequency of tumbling events, in effect preventing the cell from rushing into certain doom, and since the frequency of tumling events will decrease if the cell is going in a direction away from the toxin, it will ”encourage” the cell to continue in that direction. In the case of an attractant such as an increase in nutrient concentration, the pattern will be oppisite, so that the cell is encouraged to continue towards the source of the attractant. This form of movement, combining tumbling and running, with regulation of the tumbling frequency is termed a biased random walk[[https://2010.igem.org/Team:SDU-Denmark/project-t#References 5]]. <br><br>
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Different taxis pathways that steer cells towards favorable conditions and away from danger work by regulating the frequency of tumbling events[[https://2010.igem.org/Team:SDU-Denmark/project-t#References 5]]. We can take an example where a cell is getting close to a toxin it can sense and react to. As it gets closer to the source of the toxin, intracellular pathways will increase the frequency of tumbling events, in effect preventing the cell from rushing into certain doom, and since the frequency of tumbling events will decrease if the cell is going in a direction away from the toxin, it will ”encourage” the cell to continue in that direction. In the case of an attractant such as an increase in nutrient concentration, the pattern will be oppisite, so that the cell is encouraged to continue towards the source of the attractant. This form of movement, combining tumbling and running, with regulation of the tumbling frequency is termed a biased random walk[[https://2010.igem.org/Team:SDU-Denmark/project-t#References 5]]. <br><br>
[[Image:Team-SDU-Denmark-Biased_random_walk.png | 300px | thumb |right | A biased random walk motion pattern.]]
[[Image:Team-SDU-Denmark-Biased_random_walk.png | 300px | thumb |right | A biased random walk motion pattern.]]

Revision as of 14:52, 26 October 2010