Team:Chiba/Project/uptake

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<center>Fig. 1</center>
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<br>&nbsp;&nbsp;&nbsp;&nbsp;E. coli stain BL21 was transformed by Plasmid shown in Fig. 1 .&nbsp;Then we cultured all transformants with atC.&nbsp; AtC was added to knock down fur and fieF.&nbsp; After that we cultured it in the presence of ferric citrate, and measured the density of iron that weren’t taken in to E. coli and remained in the medium by measuring Absorbance (Abs 756) with color reagent(Fig. 2).
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<br>&nbsp;&nbsp;&nbsp;&nbsp;E. coli stain BL21 was transformed by Plasmid shown in Fig. 1 .&nbsp;Then we cultured all transformants with atC.&nbsp; atC was added to knock down <i>fur</i> and <i>fieF</i>.&nbsp; After that we cultured it in the presence of ferric citrate, and measured the density of iron that weren’t taken in to E. coli and remained in the medium by measuring Absorbance (Abs 756) with color reagent(Fig. 2).
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Revision as of 13:10, 27 September 2013

iGEM-2013 Chiba

iGEM-2013 Chiba

Uptake

1.Introduction

    Fur (Ferric uptake regulator) controls iron metabolism such as taking iron in or storing iron.
    In most cases, it combines with Fur box (which is near the promoter) and regulates transcription.

    When iron is rich, Fur becomes active and when Fur becomes active, it restricts the expression of iron transporter, and that means that the iron uptake would stop. At the same time, Fur restricts the expression of RyhB. RyhB is one of the sRNA that restricts the expression of Ferritin, so making Fur active leads ferritin to express.
    Conversely, when iron is lacking, Fur becomes inactive, and the iron transporter would work normally, so iron would be taken in. RyhB would also work normally, so expression of ferritin is restricted and Ferritin wouldn't be expressed.

    In short, if we knockdown/knockout Fur, iron transporter would be active so iron would be taken in, but the expression of Ferritin is stopped by RhyB.

    Also, there is a Regulator called fieF (ferric iron efflux). It makes iron and zinc flow out of cell and controls detoxification of cell. When fieF is knocked down/out, the tolerance of cell to iron would be lowered.

    Fec has a character that can recognize ferric citrate and taking Fe(III) in. Fec is controlled by Fur and when the density of Fe(III) in the cell is too high, Fur restricts Fec and stops iron uptake.
    In the same way, EfeUOB has a character that can recognize ascorbic acid and taking Fe(II) in. EfeUOB is also controlled by Fur and when the density of Fe(II) in the cell is too high, Fur restricts EfeUOB and stops iron uptake.

    Using these characters, and by knocking down/out Fur and fieF, Fec/EfeUOB expression wouldn't be restricted so the amount of iron coming in would increase and the amount of iron going out would decrease. The system would work like when iron is lacking.

    As a result, the amount of iron inside E. coli would increase.

2.Materials&Methods

2.1.plasmid construct

    We constructed four plasmids knocking down Fur, fieF, gor, and trxB. at the same time, in order to confirm the function of CRISPRi, we constructed a plasmid knocking down lacZ.
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2.2.Fur,fieFのノックダウン評価

We performed two experiments about CRISPRi system in order to confirm the knockdown function as desired. The purpose is a function check for lacZ, Fur, fieF, gor, and trxB.
Assay

2.3.鉄取り込み量の評価

Experiment:

Fig. 1

    E. coli stain BL21 was transformed by Plasmid shown in Fig. 1 . Then we cultured all transformants with atC.  atC was added to knock down fur and fieF.  After that we cultured it in the presence of ferric citrate, and measured the density of iron that weren’t taken in to E. coli and remained in the medium by measuring Absorbance (Abs 756) with color reagent(Fig. 2).

3.Results & Discussion

3.1.plasmid建設の説明

3.2.Fur,fieFのノックダウン評価

3.3.鉄取り込み量の評価

4.Conclusion

それは・・