Difference between revisions of "Team:Aalto-Helsinki/Design"
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<p>IPTG induction started with 2mM concentration and the population growth started to react to changed process conditions. New steady state was achieved 40 h later and the population density became 9.28 g/l. Thus, there was a 0.57 g/l difference of the biomass between the normal growth and the growth with propane production. For some reason, the growth started to decrease again and the second steady state didn't continue, when the feed stock was changed to a bigger container containing the same terrific broth because the old one was running out.</p> | <p>IPTG induction started with 2mM concentration and the population growth started to react to changed process conditions. New steady state was achieved 40 h later and the population density became 9.28 g/l. Thus, there was a 0.57 g/l difference of the biomass between the normal growth and the growth with propane production. For some reason, the growth started to decrease again and the second steady state didn't continue, when the feed stock was changed to a bigger container containing the same terrific broth because the old one was running out.</p> | ||
− | <p>Propane samples weren't gathered from the second steady state during that day because of the time limit, so we had to wait over the weekend until the third steady state had settled. At this point the cell density was 2,625 g/l. Reactor's glucose consentration decreased from original 20 g/l to zero during the exponential grow phase as the cells used it as a carbon and energy source. However, it was hard to recognize whether glucose or oxygen limited more the growth. During the first steady state, glucose concentration increased when the need for the anabolism of biomass was lower.</p> | + | <p>Propane samples weren't gathered from the second steady state during that day because of the time limit, so we had to wait over the weekend until the third steady state had settled. At this point the cell density was 2,625 g/l. Reactor's glucose consentration decreased from original 20 g/l to zero during the exponential grow phase as the cells used it as a carbon and energy source. However, it was hard to recognize whether glucose or oxygen limited more the growth. During the first steady state, glucose concentration increased when the need for the anabolism of biomass was lower. Glucose analyses were done with liquid chromatography which data is gathered <a href="https://static.igem.org/mediawiki/2015/e/e2/Aalto-Helsinki_IGEM_liquid_chromatography_standards_information_diagrams.xls" target="_blank">here</a>. </p> |
<p>Before starting to feed fresh media, the end of batch phase was determined from decreased pH-level when the cells produced acids as a response to nutrient deficiency. TB-media used for cultivation contained phosphates which had buffer capacity but it wasn't enough. pH-control was assembled in order to maintain pH-values above 5.0. </p> | <p>Before starting to feed fresh media, the end of batch phase was determined from decreased pH-level when the cells produced acids as a response to nutrient deficiency. TB-media used for cultivation contained phosphates which had buffer capacity but it wasn't enough. pH-control was assembled in order to maintain pH-values above 5.0. </p> |
Revision as of 20:25, 17 September 2015