Team:Austin Texas/kit

From 2014.igem.org

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To determine the change in GFP fluorescence when the ncAA was present, we first had to calculate how much GFP was expressed relative to the RFP, which would give an upper estimate of how much GFP could theoretically be expressed. We first divided both the GFP and RFP levels by the OD 600 of the culture in order to get the per cell fluorescence levels. We then normalized the GFP fluorescence for one culture to its RFP fluorescence so that we could compare the GFP fluorescence levels between cultures. The normalized GFP values were then compared between cultures grown in the presence of ncAA and cultures grown in the absence of ncAA, which would indicate how the level of GFP fluorescence changes when the ncAA is present.
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To determine the change in GFP fluorescence when the ncAA was present, we first had to calculate how much GFP was expressed relative to the RFP, which would give an upper estimate of how much GFP could theoretically be expressed. We first divided both the GFP and RFP levels by the OD<sub>600</sub> of the culture in order to get the per cell fluorescence levels. We then normalized the GFP fluorescence for one culture to its RFP fluorescence so that we could compare the GFP fluorescence levels between cultures. The normalized GFP values were then compared between cultures grown in the presence of ncAA and cultures grown in the absence of ncAA, which would indicate how the level of GFP fluorescence changes when the ncAA is present.
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When these values were graphed (Figure 4), some synthetase/tRNA pairs such as 4-azidophenylalanine (AzF), 3-nitrotyrosine, 3-iodotyrosine, and ortho-nitrobenzyltyrosine (ONBY) resulted in higher GFP fluorescence in the presence of ncAA than in the absence of ncAA, which suggests that those synthetases only incorporated an amino acid if their specific amino acid was present, meaning that they have a high fidelity. However, the other synthetase/tRNA pairs (3-aminotyrosine, L-DOPA, and cyanophenylalanine (CNF)) did not show a difference in GFP fluorescence normalized to RFP fluorescence dependent on the presence of ncAA, indicating that these pairs incorporated other amino acids at the amber codon when their specific ncAA was not present (and perhaps even when it was), and thus have a low fidelity.
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When these values were graphed (Figure 4), some synthetase/tRNA pairs such as 4-azido-<small>L</small>-phenylalanine (AzF), 3-nitro-<small>L</small>-tyrosine, 3-iodo-<small>L</small>-tyrosine, and ''o''-(2-nitrobenzyl)-<small>L</small>-tyrosine (ONBY) resulted in higher GFP fluorescence in the presence of ncAA than in the absence of ncAA, which suggests that those synthetases only incorporated an amino acid if their specific amino acid was present, meaning that they have a high fidelity. However, the other synthetase/tRNA pairs (3-amino-<small>L</small>-tyrosine, <small>L</small>-DOPA, and 4-cyano-<small>L</small>-phenylalanine (CNF)) did not show a difference in GFP fluorescence normalized to RFP fluorescence dependent on the presence of ncAA, indicating that these pairs incorporated other amino acids at the amber codon when their specific ncAA was not present (and perhaps even when it was), and thus have a low fidelity.
<h2>Synthetase Efficiency</h2>
<h2>Synthetase Efficiency</h2>

Revision as of 23:11, 17 October 2014