Team:Evry/Data

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Data page: Summary of our summer work



French Froggies : New Xenopus plasmids for creating multicellular systems

General Evry Xenopus plasmid schematic
Fig 1: Eucaryotic expression plasmid having both transcriptional and translational reagulational elements.

  • We developed and submitted to the registry 3 new plasmid backbones for creating multicellular synthetic systems. They contain a CMV promoter: (ubiquitous expression), an elastase promoter: (pancreas specific), and a Heat-shock promoter: (Heat or stress inducible). All plasmids can be directly injected in to the Xenopus embryo after a miniprep, and are designed for rapid testing of multicellular devices. They contain all sequences necessary for a tissue specific expression, as well as debugging tools. Several plasmids can be co-injected, allowing ratio adjustment and linking the system do modeling. Once the system is tested and debugged, the final system can be implemented by chromosomal insertion.

The auxin system

The auxin emission system

Fig 3: Schematic representation of the Auxin two-step production cassette.

  • K812020:IAAH enzyme that catalyzes the second and last step towards auxin production
  • K812021:IAAM enzyme that catalyses the transformation of Tryptophan to Inodle-3-acetamide
  • K812014:Auxin production cassette containg both enzymes above which is monocystronic

The auxin receiver system

Fig 2: schemetic representation of the Auxin-receiver system

  • K812010:GFP fusion with the ubuquitinase E3 OsTirI recoginition domain which a main part of the degron system
  • K812012:OsTirI Ubiquitinase E3 for AID tagged protein degradation in the presence of auxin
  • K812013:

    The Auxin reciever system golden gate-assembled containing GFP-AID OsTirI polysistronic system for auxin detection in tadpole

Reporters and promotors

Summary

In our Project we planned to screen a series of different reporters along with different tissue specific promotors. This was done to validate cross-talk between the emitter-receiver system and and screen various reporters to elucidate the efficiency of different reporters in Tadpole manipulation.

  • K812030:Citrine reporter with a Kozak sequence for eukaryotic expression
  • K812031:sfGFP with kozak sequence for eukaryotic expression
  • K812032:mCFP with kozak sequence for eukaryotic expression
  • K812200:Biobricked pSC2+ plasmid with Elastase promoter for frogs and chicken
  • K812300:Biobricked pSC2+ plasmid with HSP70 promoter for frogs and chicken
  • K812233:sfGFP in pCS2+ downstream to elastase promoter
  • K812331:sfGFP in pCS2+ downstream to HSP70 promoter

Characterization


The information on characterized part can be found here: FrenchFrog

Goldenbricks

Summary

Fig 4: Summary of the GoldenBrick procedure

The GoldenBrick is a new assembly method for the partsregistry. If you want to know more, see this page.

Our favourites parts

  • K812050: A GoldenBricked version of pSB1C3 with J04450 as negative cloning control
  • K812051: A GoldenBricked version of pSB1K3 with J04450 as negative cloning control

The other parts we have created

  • K812050: A GoldenBricked version of pSB1C3 with J04450 as negative cloning control
  • K812051: A GoldenBricked version of pSB1K3 with J04450 as negative cloning control
  • K812053: A GoldenBricked version of the strong RBS B0034
  • K812054: A GoldenBricked version of the RFP E1010
  • K812055: A GoldenBricked version of the terminator B0015
  • K812056: A GoldenBricked version of the pLac R0010 promoter
  • K812057: A GoldenBricked of an sfGFP protein
  • K812058: A GoldenBricked of medium strenght RBS J61107
  • K812059: A GoldenBricked of week RBS J61117

say we are testing them