Difference between revisions of "Team:Paris Bettencourt/Protocols/titration-acid-phytic"

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	\[		\[
	\begin{align}		\begin{align}
−	C^{\circle} = \frac{mean(M)\times 20 \times F}{10000 \times 1.0 \times \nu} \times \Delta A(phosphorous)	+	C^{o} = \frac{mean(M)\times 20 \times F}{10000 \times 1.0 \times \nu} \times \Delta A(phosphorous)
	\end{align}		\end{align}
	\]		\]

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Revision as of 16:30, 2 September 2015

Ferment It Yourself

iGEM Paris-Bettencourt 2O15

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Notebook

Vitamin A	Vitamin B2	Vitamin B12
Phytase	Riboswitch	Differentiation on E. coli
Differentiation on S. cerevisiae	Manufacturing	Idli and Micro-organisms

Titration of phytic acid using Megazyme© Kit Preparation of reagent solutions (not supllied) : Trichloroacetic acid (50% w/v) : 100mL Add 50g of thrichloroacetic to 60mL of distilled water and dissolve. Make to volume (100mL) with distilled water. (Stable for > 6 moths at 4°C) Hydrochloric acid (0.66M) : 1L Add 54.5mL of hydrochloric acid to 945.5mL of distilled wtaer an mix. (Store at room temperature) Sodium hydroxide (0.75M) : 200mL Add 6g of sodium hydroxide pellets to 180mL of distilled water and dissolve. Make to volume (200mL) with distilled water. (Store at room temperature) Phytic acid : Pure phytic acid control sample may be required. Sample extraction : Weigh 1g of sample material. Add 20mL of hydrochloric acid (0.66M). Cover with foil and incubate for a minimum of 3 hours at room temperature. Transfer 1mL of extract to a 1.5mL microcentrifuge tube. Centrifuge 10 minutes at 13,000rpm. Transfer 0.5mL of the resulting extract supernatant to a fresh 1.5mL microfuge tube. Add 0.5mL of sodium hydroxide solution (0.75M) to neutralise. Enzymatic dephosphorylation reaction : Colourimetric determination of phosphorous : Preparation of phosphorous calibration curve : Calculation : Phosphorous calibration curve : Determine the absorbance of each phosphorous standard. Substract the absorbance of STD0 from the absorbance of the others STD, therby obtaining ΔA(phosphorous). Calculate M as follows, for each standard: \[ \begin{align} M = \frac{P(\mu g)}{\Delta A (phosphorous)} \end{align} \] Use "Mean M" to calculate the phosphorous content of test samples. Phosphorous / phytic acid content : Determine the absorbance of the both "Free Phosphorous" and "Total Phosphorous". Substract the absorbance of the "Free Phosphorous" sample from the absorbance of the "Total Phosphorous" sample. Obtaining ΔA(phosphorous). \[ \begin{align} C^{o} = \frac{mean(M)\times 20 \times F}{10000 \times 1.0 \times \nu} \times \Delta A(phosphorous) \end{align} \] Where : 20 = original sample extract volume F = dilution factor 10,000 = conversion from µg/g to g/100g 1.0 = wigh of original sample material v = sample volume It follows for phosphorous : It follows for phytic acid :