Revision as of 14:03, 3 September 2018

Alternative Roots/Attributions

Alternative Roots

Attributions and
Acknowledgements

Attributions Acknowledgements

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2018 Newcastle iGEM

Attributions

Initial Project Idea

Lewis Tomlinson
Connor Trotter
Chris Carty
Frank Eardley
Heather Bottomley
Luke Waller
Patrycja Ubysz
Umar Farooq
Will Tankard
Sadiya Quazi

Project Support

Dr. Thomas Howard
Dr. Jon Marles-Wright
Dr. Jem Stach
Dr. Alice Banks
Dr. Colette Whitfield
Jasmine Bird
Alba Iglesias-Vilches
Dr. Maxim Kapralov
Dr. Maria Del Carmen Montero-Calasanz
Dr. Vasilios Andriotis

Chemotaxis

Connor Trotter
Sadiya Quazi
Lewis Tomlinson
Frank Eardley
Dr. Alice Banks

Endophyte Development

Lewis Tomlinson
Frank Eardley
Dr. Maria Del Carmen Montero-Calasanz

Connor Trotter

Lewis Tomlinson
Connor Trotter
Chris Carty
Frank Eardley
Heather Bottomley
Luke Waller
Patrycja Ubysz
Umar Farooq
Will Tankard
Sadiya Quazi

Patrycja Ubysz

Lewis Tomlinson
Connor Trotter
Chris Carty
Frank Eardley
Heather Bottomley
Luke Waller
Patrycja Ubysz
Umar Farooq
Will Tankard
Sadiya Quazi

Lewis Tomlinson

Lewis Tomlinson
Connor Trotter
Chris Carty
Frank Eardley
Heather Bottomley
Luke Waller
Patrycja Ubysz
Umar Farooq
Will Tankard
Sadiya Quazi

Sadiya Quazi

Lewis Tomlinson
Connor Trotter
Chris Carty
Frank Eardley
Heather Bottomley
Luke Waller
Patrycja Ubysz
Umar Farooq
Will Tankard
Sadiya Quazi

Umar Farooq

Lewis Tomlinson
Connor Trotter
Chris Carty
Frank Eardley
Heather Bottomley
Luke Waller
Patrycja Ubysz
Umar Farooq
Will Tankard
Sadiya Quazi

Chris Carty

Lewis Tomlinson
Connor Trotter
Chris Carty
Frank Eardley
Heather Bottomley
Luke Waller
Patrycja Ubysz
Umar Farooq
Will Tankard
Sadiya Quazi

Parts

Check out what parts we're using

We will be utilising iGEM registry parts sequenced by IDT to construct a biosynthetic operon for expression in Escherichia coli. The operon will synthesise naringenin, a flavonoid that attracts nitrogen fixing bacteria. The operon will contain the genes for four enzymes: 4 – Coumaryl ligase – 4CL (BBa_K1033001), Tyrosine ammonia lyase - TAL (BBa_K1033000), Chalcone isomerase - CHI (BBa_K1497000) and Chalcone synthase - CHS (BBa_K1497001). Each of these parts contain a strong ribosome binding site (BBa_B0034). This construct will be under the control of a T7 promoter (BBa_I712074) to observe its expression in E. coli as a proof of concept. Once biosynthesis under the control of T7 is achieved, the construct will be tested under a constitutive promoter (BBa_J23100). Parts for biosynthesis in the final chassis organism, root-colonising Pseudomonas fluorescens, will be constructed in the plasmid backbone pBSC1C3.

@@ Line 121: / Line 121: @@
                          <li>Lewis Tomlinson</li>
                          <li>Frank Eardley</li>
+                        <li>Dr. Alice Banks</li>
                      </ul>
@@ Line 135: / Line 136: @@
                      <ul style="list-style-type:circle;overflow:visible;">
                          <li>Lewis Tomlinson</li>
-                        <li>Connor Trotter</li>
-                        <li>Chris Carty</li>
                          <li>Frank Eardley</li>
-                         <li>Heather Bottomley</li>
+                         <li>Dr. Maria Del Carmen Montero-Calasanz</li>
-                        <li>Luke Waller</li>
-                        <li>Patrycja Ubysz</li>
-                        <li>Umar Farooq</li>
-                        <li>Will Tankard</li>
-                        <li>Sadiya Quazi</li>
                      </ul>

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