Team:NYMU-Taipei/results/chassis1

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<font size=3>We present AMB-1's growth curve in terms of OD565, the maximum absorbance of AMB-1. It is important to find out the '''log phase''', because log phase is the best time for electroporation. We better keep AMB-1 in "log phase", because this phase is the index to do electroporation. The success rate will be greatly improved in log phase. Therefore, by keeping AMB-1 in "log phase" (approximately <font color=blue>'''3~6 days'''</font>), we can get the best results from electroporation.  
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<font size=3>We present AMB-1's growth curve in terms of OD565, the maximum absorbance of AMB-1. It is important to find out the '''log phase''', because log phase is the best time for electroporation. We better keep AMB-1 in "log phase", because this phase is the index to do electroporation. The success rate will be greatly improved in log phase. Therefore, by keeping AMB-1 in "log phase" (approximately <font color=blue>'''3~6 days'''</font>), we can get the best results from electroporation. After seven days, the bacterium would be into stationary phase. During the phase, the growth rate slows as a result of nutrient depletion and accumulation of toxic products. This phase is reached as the bacteria begin to exhaust the resources that are available to them. This phase is a constant value as the rate of bacterial growth is equal to the rate of bacterial death.
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Revision as of 19:03, 5 October 2011

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AMB-1's growth curve When is the Log phase?

AMB-1growthcurve.PNG



We present AMB-1's growth curve in terms of OD565, the maximum absorbance of AMB-1. It is important to find out the log phase, because log phase is the best time for electroporation. We better keep AMB-1 in "log phase", because this phase is the index to do electroporation. The success rate will be greatly improved in log phase. Therefore, by keeping AMB-1 in "log phase" (approximately 3~6 days), we can get the best results from electroporation. After seven days, the bacterium would be into stationary phase. During the phase, the growth rate slows as a result of nutrient depletion and accumulation of toxic products. This phase is reached as the bacteria begin to exhaust the resources that are available to them. This phase is a constant value as the rate of bacterial growth is equal to the rate of bacterial death.