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h('p', null, 'where ', i('y(t)'), ' is the concentration of the amplicon at ', i('t'), ', ', i('a'), ' is the starting concentration, is the maximum concentration, ', i('m'), ' is the time at which maximum growth occurs, and ', i('b'), ' is a free parameter representing how steep the growth is. We fit our data to this model using SciPy’s curve_fit function. It is also worth noting that our data and fitted parameters are actually in units of fluorescence, not concentration. We assumed that the two were proportional and worked in terms of fluorescence instead because that was the data we had readily available.'), | h('p', null, 'where ', i('y(t)'), ' is the concentration of the amplicon at ', i('t'), ', ', i('a'), ' is the starting concentration, is the maximum concentration, ', i('m'), ' is the time at which maximum growth occurs, and ', i('b'), ' is a free parameter representing how steep the growth is. We fit our data to this model using SciPy’s curve_fit function. It is also worth noting that our data and fitted parameters are actually in units of fluorescence, not concentration. We assumed that the two were proportional and worked in terms of fluorescence instead because that was the data we had readily available.'), | ||
h('p', null, 'Once the model parameters have been obtained, we can compute ', i('T_p'), ' by ', i('T_p = m-\\frac{2}{b}'), '[1].'), | h('p', null, 'Once the model parameters have been obtained, we can compute ', i('T_p'), ' by ', i('T_p = m-\\frac{2}{b}'), '[1].'), | ||
− | h('p', null, 'Subramanian and Gomez’s model also includes an unambiguous quantitative means of calculating the time to positive (', i('T_p'), '), which is analogous to threshold cycling time for PCR. We can then establish a relationship between ', i('T_p'), ' and initial concentration of sample DNA, which is expected to be linear in accordance with Subramanian and Gomez’s data. For each of our four chosen primer sets (14, 573, 11, 12), we obtained ', i('T_p'), ' at the initial DNA concentrations of 10, 100, and 1000 fg/μL. We obtained the following data:') | + | h('p', null, 'Subramanian and Gomez’s model also includes an unambiguous quantitative means of calculating the time to positive (', i('T_p'), '), which is analogous to threshold cycling time for PCR. We can then establish a relationship between ', i('T_p'), ' and initial concentration of sample DNA, which is expected to be linear in accordance with Subramanian and Gomez’s data. For each of our four chosen primer sets (14, 573, 11, 12), we obtained ', i('T_p'), ' at the initial DNA concentrations of 10, 100, and 1000 fg/μL. We obtained the following data:'), |
+ | h(g.Image, {src: 'https://static.igem.org/mediawiki/2018/f/f9/T--Austin_LASA--Tp_8_2.svg', position: 'center'}), | ||
+ | h(g.Image, {src: 'https://static.igem.org/mediawiki/2018/0/02/T--Austin_LASA--Tp_8_4.svg', position: 'center'}), | ||
+ | h(g.Image, {src: 'https://static.igem.org/mediawiki/2018/6/6b/T--Austin_LASA--Tp_8_6.svg', position: 'center'}), | ||
+ | h(g.Image, {src: 'https://static.igem.org/mediawiki/2018/0/06/T--Austin_LASA--Tp_8_8.svg', position: 'center'}) | ||
) | ) | ||
) | ) |
Revision as of 08:42, 17 October 2018