Team:SDU-Denmark/project-p

From 2010.igem.org

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In the spectrum, a sudden drop at 320 nm occurs. This cannot be explained .<br>
In the spectrum, a sudden drop at 320 nm occurs. This cannot be explained .<br>
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The graph also shows that some cell material interferes with the UV-vis measurement at the retinal has the strongest absorption, because of this some organic separation might be needed before the measurement is preformed.<br>  
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The graph also shows that some cell material interferes with the UV-vis measurement where the retinal has the strongest absorption. For this reason, some organic separation may be needed before the measurement is performed.<br>  
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In order assess the results a standard dilution of beta-carotene and retinal was made and measured: 1mM, 100 µM, 50 µM, 25 µM, 10 µM, 5 µM, 1 µM, 100 nM and 10 nM. The standart dilutions was also measured on the spectrophotometer. The resulting graphs is presented beneath the text<br>
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In order to assess the results, standard dilutions of beta-carotene and retinal were made and measured. The concentrations were 1mM, 100 µM, 50 µM, 25 µM, 10 µM, 5 µM, 1 µM, 100 nM and 10 nM. The standard dilutions were measured on the spectrophotometer. The resulting graphs are presented below:<br><br>
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[[Image: Team-SDU-denmark-Beta-carotene standarts.png |390px|]]
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[[Image: Team-SDU-denmark-Beta-carotene standarts.png |315px|]]
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[[Image: Team-SDU-denmark-Retinal standarts.png |350px|]]
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[[Image: Team-SDU-denmark-Retinal standarts.png |315px|]]
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The spectrum for the Beta-carotene looks normal and reliable, the standards for retinal however doesn’t look reliable. The spectrum for the three lowest concentrations appears to be give a wrong picture from the measurement.<br>  
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The spectrum for the beta-carotene looks normal and reliable, the standards for retinal, however, don’t look reliable. The spectrum for the three lowest concentrations appear to be giving a wrong picture from the measurement.<br>  
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The measurement jumps rapidly from nearly nothing to the maximum absorbance, this might be because the concentration of retinal is to low to be measured as a spectrum, but the concentration of the individual derivates of retinal might be high enough to be measured.<br>
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The measurement jumps rapidly from nearly nothing to the maximum absorbance. This might be because the concentration of retinal is too low to be measured as a spectrum, but the concentration of the individual derivates of retinal might be high enough to be measured.<br>
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It might also just be that the concentrations are to low and something ells are influencing the measurements.<br>
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It might also be that the concentrations are too low and something else is influencing the measurements.<br>
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Because of the error in the UV-vis spectre concerning retinal detection in both the standards and samples the next characterization experiments is preformed on a HPLC.  
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Because of the error in the UV-vis spectrum concerning retinal detection in both the standards and samples, the next characterization experiments are preformed on a HPLC.  
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Revision as of 16:25, 25 October 2010