Chiba/Engeneering Flagella

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{| style="border:0;width:100%;font-family:'Trebuchet MS'" cellpadding="20px" cellspacing="0"
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[[Chiba|Introduction]] | [[Chiba/Project_Design|Project Design]] | [[Chiba/Engeneering_Flagella|Engeneering Flagella]] | [[Chiba/Quorum_Sensing|Quorum Sensing]] | [[Chiba/Goal|Our Goal]] || [[Chiba/Team_Members|Team Members]] | [[Chiba/Members_Only|メンバ連絡簿]]
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[[Chiba|Home]]<br>
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<span style="font-size:120%;font-weight:bold;">[[Chiba/Introduction|Introduction]] | [[Chiba/Project_Design|Project Design]] ( [[Chiba/Engeneering_Flagella|1.Affinity Tag]] | [[Chiba/Communication|2.Communication Module]] | [[Chiba/Quorum_Sensing|3.Size Control]] ) | [[Chiba/Making Marimo|Making Marimos]] |  [[Chiba/Goal|Our Goal]]</span><br>
 +
[[Chiba/Acknowledgements|Acknowledgements]] | [[Chiba/Team_Members|Team Members]] | [http://chem.tf.chiba-u.jp/igem/ iGEM Chiba Website] | [[Chiba/Members_Only|メンバ連絡簿]]  
|}
|}
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==Our Aim==
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==Affinity Tags==
 +
===Our Aim===
 +
[[Image:Chiba_stickbacteria.png|frame|'''Fig. 9''' Affinity tags.]]
 +
To make affinity tags on ''E.coli'', we focused on their flagella that are located outside the cells. We used the following mechanisms:
 +
*Display sticky peptides in flagellar filament.
 +
*His-tag. The imidazole group in histidines make a complex with metal ions. 
 +
We combined these two and made a His-tagged flagella in the hope to stick them together via metal ions.
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大腸菌同士を吸着させるため,我々は(細胞の外側に突出しているもののうち)鞭毛に着目した.
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===[http://www.npn.jst.go.jp/index.html About flagella]===
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(図:イメージ)
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''E.Coli'' have 5-10 flagella. 
 +
The flagella is used for swimming and for chemotaxis; the bacteria run when they find attractant, tumble when there is a repellent.
 +
''E.coli'' flagella consist of three parts: a basal body, a hook, and a filament.
 +
The filament of ''E.Coli'' is a rigid, helical, and cylindrical structure which is 10-15μm long and 23nm thick in diameter.
 +
It is built from ~20000 subunits of a ~55kDa single protein, FliC.
 +
FliC has three domains, D1,D2,D3; although D1 and D2 are needed for the formation of the functional flagellar filament, D3 domain which sticks outside of the fillament are not essential[3].
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==About flagella==
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===="Variable" FliC D3 domain====
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大腸菌は5~10?本/細胞(<chemotaxisの本で要確認)の鞭毛を持つ.鞭毛を回転/逆回転させることにより環境の良い場所へとtaxisする.鞭毛は長さ約10~15μm,半径約23nmの空孔のチューブ状である.(図:菌全体)
+
It is reported that the proteins up to 49.4kDa could be displayed on the cell surface of ''E.Coli'' using flagellin fusion protein.[4]
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鞭毛のフィラメント部はFliCという蛋白質が規則正しく配列した多量体である.(図:鞭毛アップ)
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===About Histidine Tag===
 +
See [http://en.wikipedia.org/wiki/His-tag wikipedia article].
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FliCはD0,D1,D2,D3ドメインを持つ.(種類によってはD1,D2,D3の3つのドメインを持つ)D1とD2はformation of the functional flagellar formation(ffff)の為に必要であるが,D3ドメインは必要でなく可変である(図:蛋白質構造&鞭毛断面図)
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==Experiments==
 +
===[[Chiba/Flagella/Making_FliC-his|Making ''FliC-his'' gene]]===
 +
*We inserted the short peptide with six histidine (“His-Tag”) into the fliC D3 domain.
-
(Ref)
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[[Image:Chiba_flichisgene.png|frame|'''Fig.10''' flic his gene]]<br>
 +
*[[Image:Chiba_check.png]] Sequence Confirmed<br>
 +
*[[Image:Chiba_check.png]] Swarm Confirmed<br>
 +
*[[Image:Chiba_check.png]] Flagella strained with anti-flagella antibody
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==="Variable" FliC D3 domain===
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===Checking the "Stickiness": Beads Adsorption===
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可変なD3ドメインに他の<__aaまでの>アミノ酸を挿入しても鞭毛が合成される[2].
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====Purpose====
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詳細も書く.
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Confirm that the his-tags are displaied on the flagella and are capable of binding to Co<sup>2+</sup>- or Ni<sup>2+</sup>- surface.
-
References
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====Samples====
-
#Kuwajima, G. ''et al''.: Nature Biotechnology, 6, 1080-1083 (1988).
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*⊿fliC strain(JW1908 in KEIO collections [5]) transformed with
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#Tanskanen, J. ''et. al''.: Appl. and Env. Microbiol., 4152-4156 (2000)
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**pUC19-fliC-his
 +
**no plasmid
 +
*⊿fliC,⊿motB strain(GI826)transformed with
 +
**pUC19-fliC-his
 +
**no plasmid
 +
<br>
 +
====Testing Procedure====
 +
#pUC19-FliC-His was transformed to JW1908(''fliC''), JW0747(''MotB''), and GI826(''fliC'' ''motB'').
 +
#Grown to stationary phase
 +
#Culture suspended with Dynabeads (Metal-IDA), allowing to the affinity adsorption
 +
#Beads washed with a phosphate buffer (x4)
 +
#E" coli" detached from beads by adding imidazole then spreaded on agar plates.
 +
#The number of the colonies on resultant plates.
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==Parts Assembly==
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====Results&Discussion====
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===[[Chiba/Flagella/Making_FliC-his|FliC-hisの作成]]===
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'''1.''Stickiness'' check using FliC strain'''
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*FliC遺伝子のD3領域に、Histidineループをコードする遺伝子を挿入し、ヒスチジンタグとして発現させる。
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[[Image:Chiba Beads-Adsorption result3.png|frame|left|'''Fig. 11''' Binding test using Strain JW1908(''⊿fliC'',).]]<br clear="all">
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→Linker Ligation
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*Cell without His-FliC bound better to the Beads? No way!
 +
*We thought the problem might be the super-fast revolution of flagella itself. We decided to try MotB strain.<br><br><br>
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*完成プラスミド
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'''2.''Stickiness'' check using MotB strain'''
 +
[[Image:Chiba Beads-Adsorption result2.png|frame|left|'''fig. 12''' Binding test using Strain JW0747(''⊿motB'').]]<br clear="all">
 +
*Mot B deletion provides cell with the flagella completely assembled but not rotating. <br>
 +
*'''This time everything worked out!''' Only in the presence of Co<sup>2+</sup>Bacteria with His-FliC sticked to the Co-IDA beads very well.
 +
*In this strain, FliC-His is assembled with wildtype FliC coded in genomic DNA. Nevertheless, the binding efficiency was at the same level (not shown). it seems that His-Tag displayed on the flagella is enough to do its work.
 +
*On the other hand, the deletion of MotB turned out to be vital for sticking the tagged flagella together.
 +
*In the presence of FliC-His, cobalt ion adsorb bacteria stronger than nickel ion, this was more or less the expected result.
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[[Image:FliC His-tag.jpg|frame|left|fig1]]<br clear="all">
 
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*Phenotypeをチェック→SDS-PAGE,Western-Blotting
 
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*ヒスチジンタグがFliC遺伝子の外側に発現していることを確認する。
 
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→Beads adsorption
 
-
 
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===[[Chiba/Flagella/FliC-his_generator|FliC-His generator]]===
 
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*His-tagを入れたFliCをpLuxの下に置き、LuxRが発現されている条件のもとならば、Quorum SensingでFliCを発現させることができるようにする。
 
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*Quorum Sensingのための遺伝子回路がcolEI oriのvectorに乗っているために、p15Aのベクターを使いdouble transformation することでQuorum Sensingと合わせることができるようになる。
 
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*pLuxをもつベクター側とFliCをPCRを使って、Ligationさせることで作る。
 
-
 
-
 
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===[[Chiba/Flagella/FliC-His_Biobrick|FliC-his biobrick]]===
 
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必要なこと
 
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*puc19 vectorの乗っているのでbiobrickのベクターに乗せる。
 
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*制限酵素サイト(EcoRI,SpeI,PstI)をつぶす。
 
-
 
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*FliC His-TagにはEcoRI,SpeI,PstIが含まれているために、そのままではvectorに入れられない。
 
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#片側をblunt end もう一方をApaIの制限酵素サイトをつけ、PCRする。
 
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#vector側も同様にPCRしLigationさせる。
 
-
 
-
==Experiments==
 
-
===[[Chiba/Flagella/Display_Check|Display Check: Beads Adsorption]]===
 
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====Purpose====
 
-
FliC-hisが発現され,鞭毛を形成してるか("鞭毛にFliC-hisがディスプレイされてるか"?)を確認する.
 
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====Method====
 
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[[Image:Chiba_fla_beadsintro.png|frame|fig1]]
 
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ビーズ吸着の説明.
 
-
ヒスチジンはCo(またはNi)と錯体結合?をする.表面に金属イオン(本実験ではCo2+)を配置したビーズを使用して,FliC-hisがディスプレイされた大腸菌とそうでないものを調べた.(<不十分&不正確です.直してください)
 
-
 
-
====Samples====
 
-
*Keio⊿FliC株 < 株の名前は?
 
-
**pUC19-FliC-His
 
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**plasmidなし
 
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*Keio⊿FliC⊿MotB株 < 同上
 
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**pUC19-FliC-his
 
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**plasmidなし
 
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====Procedure====
+
<!--
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*pUC19-FliC-His,をKeio⊿FliC株にトランスフォーメーション。培養液をビーズと懸濁させ、大腸菌をBeadsに吸着する。
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*'''FliC(hisなし)はないんでしたっけ?古'''
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吸着した大腸菌をbufferで溶出し、inculateする。(Negative Control 1:Noplasmid,Negative Control 2:Co2+あるいはNi2+の有り・無し) →吸着していなかった
+
**ないです。今から取るか否か、というところです。結果が出るのはwikiの締め切りの後(明日の昼)です。Wikiにはどのように考察、記載するべきでしょうか?TominagaBeads-Adsorption Colony-Number.jpg
-
*pUC19-FliC-His,をKeio⊿FliC⊿MotB株にトランスフォーメーション。培養液をビーズと懸濁させ、大腸菌をBeadsに吸着する。
+
*'''考察も書いたら? なぜコバルトがニッケルより良いのか?一般的にニッケルよりコバルトの方が結合力が強いことが知られてて,FilC-hisに関してもそれは変わらないみたいな・・・by tashiro'''
-
吸着した大腸菌をbufferで溶出し、inculateする。(Negative Control 1:Noplasmid,Negative Control 2:Co2+あるいはNi2+の有り・無し) →吸着していた。
+
**Beadsとヒスチジンの反応では、Co2+が中心に位置し、ヒスチジンの空間的位置に対する要求性が厳密になっています。連続するヒスチジンや空間的に適切に配置する隣接ヒスチジンのみがこの反応中心でコバルトに結合します。Ni2+ではこのような空間的要求性はあまり厳密ではありません。このため、Ni2+つきのBeadsを用いた場合、His タグ融合タンパク質以外に存在するヒスチジンも結合してしまいます。
 +
-->
-
====Results====
+
==References==
-
[[Image:Chiba_fla_beads.png|frame|left|fig2]]<br clear="all">
+
3. Kuwajima, G. ''et al''.: ''J. Bacteriol.'', '''170''', 3305-3309 (1988)<br>
 +
4. Ezaki, S. ''et. al''.: ''J. Ferment. Bioeng.'', '''86''', 500-503 (1998)<br>
 +
5. Baba, T. ''et. al''.: ''Mol. Systems. Biol.,'' '''21''', 1-10 (2006)<br>

Latest revision as of 05:26, 27 October 2007

Chiba logo.png

Home
Introduction | Project Design ( 1.Affinity Tag | 2.Communication Module | 3.Size Control ) | Making Marimos | Our Goal
Acknowledgements | Team Members | [http://chem.tf.chiba-u.jp/igem/ iGEM Chiba Website] | メンバ連絡簿

Affinity Tags

Our Aim

Fig. 9 Affinity tags.

To make affinity tags on E.coli, we focused on their flagella that are located outside the cells. We used the following mechanisms:

  • Display sticky peptides in flagellar filament.
  • His-tag. The imidazole group in histidines make a complex with metal ions. 

We combined these two and made a His-tagged flagella in the hope to stick them together via metal ions.

[http://www.npn.jst.go.jp/index.html About flagella]

E.Coli have 5-10 flagella. The flagella is used for swimming and for chemotaxis; the bacteria run when they find attractant, tumble when there is a repellent.

E.coli flagella consist of three parts: a basal body, a hook, and a filament. The filament of E.Coli is a rigid, helical, and cylindrical structure which is 10-15μm long and 23nm thick in diameter. It is built from ~20000 subunits of a ~55kDa single protein, FliC. FliC has three domains, D1,D2,D3; although D1 and D2 are needed for the formation of the functional flagellar filament, D3 domain which sticks outside of the fillament are not essential[3].

"Variable" FliC D3 domain

It is reported that the proteins up to 49.4kDa could be displayed on the cell surface of E.Coli using flagellin fusion protein.[4]

About Histidine Tag

See [http://en.wikipedia.org/wiki/His-tag wikipedia article].

Experiments

Making FliC-his gene

  • We inserted the short peptide with six histidine (“His-Tag”) into the fliC D3 domain.
Fig.10 flic his gene

  • Chiba check.png Sequence Confirmed
  • Chiba check.png Swarm Confirmed
  • Chiba check.png Flagella strained with anti-flagella antibody

Checking the "Stickiness": Beads Adsorption

Purpose

Confirm that the his-tags are displaied on the flagella and are capable of binding to Co2+- or Ni2+- surface.

Samples

  • ⊿fliC strain(JW1908 in KEIO collections [5]) transformed with
    • pUC19-fliC-his
    • no plasmid
  • ⊿fliC,⊿motB strain(GI826)transformed with
    • pUC19-fliC-his
    • no plasmid


Testing Procedure

  1. pUC19-FliC-His was transformed to JW1908(fliC), JW0747(MotB), and GI826(fliC motB).
  2. Grown to stationary phase
  3. Culture suspended with Dynabeads (Metal-IDA), allowing to the affinity adsorption
  4. Beads washed with a phosphate buffer (x4)
  5. E" coli" detached from beads by adding imidazole then spreaded on agar plates.
  6. The number of the colonies on resultant plates.

Results&Discussion

1.Stickiness check using FliC strain

Fig. 11 Binding test using Strain JW1908(⊿fliC,).

  • Cell without His-FliC bound better to the Beads? No way!
  • We thought the problem might be the super-fast revolution of flagella itself. We decided to try MotB strain.


2.Stickiness check using MotB strain

fig. 12 Binding test using Strain JW0747(⊿motB).

  • Mot B deletion provides cell with the flagella completely assembled but not rotating.
  • This time everything worked out! Only in the presence of Co2+Bacteria with His-FliC sticked to the Co-IDA beads very well.
  • In this strain, FliC-His is assembled with wildtype FliC coded in genomic DNA. Nevertheless, the binding efficiency was at the same level (not shown). it seems that His-Tag displayed on the flagella is enough to do its work.
  • On the other hand, the deletion of MotB turned out to be vital for sticking the tagged flagella together.
  • In the presence of FliC-His, cobalt ion adsorb bacteria stronger than nickel ion, this was more or less the expected result.



References

3. Kuwajima, G. et al.: J. Bacteriol., 170, 3305-3309 (1988)
4. Ezaki, S. et. al.: J. Ferment. Bioeng., 86, 500-503 (1998)
5. Baba, T. et. al.: Mol. Systems. Biol., 21, 1-10 (2006)