Team:NCTU Formosa/biobricks

From 2014.igem.org

Revision as of 20:01, 17 October 2014 by LexGHE (Talk | contribs)

Project

Change the font size right here

Parts Submitted to The Registry

Please click on the name of the parts for detailed information that is hosted in the Registry website. <groupparts>iGEM014 NCTU_Formosa</groupparts>

Brief Information

PBAN Production

PBAN Bombyx mori 1 (BBa_K1415001)
Pbanbm.png

Peptide Sequence: LSEDMPATPADQEMYQPDPEEMESRTRYFSPRL

PBAN(BM)+pSB1C3 This biobrick is the PBAN of Bombyx mori on the pSB1C3 backbone.

PBAN Bombyx mori 2 (BBa_K1415101)
HALFBM.png

Pcons(BBa_J23101) + RBS(BBa_B0034) + PBAN(BM) This circuit is responsible for producing the Bombyx mori’s PBAN. As Bombyx mori PBAN is ingested by the female Bombyx mori, the female Bombyx mori will produce its own sex pheromone and attract male Bombyx moris.

PBAN Bombyx mori 3 (BBa_K1415201)
ALLBM.png

Pcons(BBa_J23101) + RBS(BBa_B0034) + PBAN(BM) + RBS(BBa_B0034) + BFP(BBa_K592100)+ Ter(BBa_J61048) The above circuit is constructed mainly to test whether it produces Bombyx mori’s PBAN. If the circuit do work, it would result in the expression of the BFP gene and emission of blue fluorescent light.

PBAN Mamestra brassicae 1 (BBa_K1415002)
MB.png

Peptide Sequence: LADDMPATPADQEMYRPDPEQIDSRTKYFSPRL

PBAN(MB)+pSB1C3 This biobrick is the PBAN of Mamestra brassicae on the pSB1C3 backbone.

PBAN Mamestra brassicae 2 (BBa_K1415102)
HALFMB.png

Pcons(BBa_J23101) + RBS(BBa_B0034) + PBAN(MB) This circuit is responsible for producing the Mamestra brassicae’s PBAN. As Mamestra brassicae’s PBAN is ingested by the female Mamestra brassicae, the female Mamestra brassicae will produce its own sex pheromone and attract male Mamestra brassicaes.

PBAN Mamestra brassicae 3 (BBa_K1415202)
ALLMB.png

Pcons(BBa_J23101) + RBS(BBa_B0034) + PBAN(MB) + RBS(BBa_B0034) + BFP(BBa_K592100)+ Ter(BBa_J61048) The above circuit is constructed mainly to test whether it produces Mamestra brassicae’s PBAN. If the circuit do work, it would result in the expression of the BFP gene and emission of blue fluorescent light.

PBAN Agrotis ipsilon 1 (BBa_K1415003)
AI.png

Peptide Sequence: LADDTPATPADQEMYRPDPEQIDSRTKYFSPRL

PBAN(AI)+pSB1C3 This biobrick is the PBAN of Agrotis ipsilon on the pSB1C3 backbone.

PBAN Agrotis ipsilon 2 (BBa_K1415103)
HALFAI.png

Pcons(BBa_J23101) + RBS(BBa_B0034) + PBAN(AI) This circuit is responsible for producing the Agrotis ipsilon’s PBAN. As Agrotis ipsilon’s PBAN is ingested by the female Agrotis ipsilon, the female Agrotis ipsilon will produce its own sex pheromone and attract male Agrotis ipsilons.

PBAN Agrotis ipsilon 3 (BBa_K1415203)
ALLAI.png

Pcons(BBa_J23101) + RBS(BBa_B0034) + PBAN(AI) + RBS(BBa_B0034) + BFP(BBa_K592100)+ Ter(BBa_J61048) The above circuit is constructed mainly to test whether it produces Agrotis ipsilon’s PBAN. If the circuit do work, it would result in the expression of the BFP gene and emission of blue fluorescent light.

PBAN Lymantria dispar 1 (BBa_K1415004)
LD.png

Peptide Sequence: LADDMPATMADQEVYRPEPEQIDSRNKUFSPRL

PBAN(AI)+pSB1C3 This biobrick is the PBAN of Lymantria dispar on the pSB1C3 backbone.

PBAN Lymantria dispar 2 (BBa_K1415104)
HALFLD.png

Pcons(BBa_J23101) + RBS(BBa_B0034) + PBAN(LD) This circuit is responsible for producing Lymantria dispar’s PBAN. As Lymantria dispar PBAN is ingested by the female Lymantria dispar, the female Lymantria dispar will produce its own sex pheromone and attract male Lymantria dispars.

PBAN Lymantria dispar 3 (BBa_K1415204)
ALLLD.png

Pcons(BBa_J23101) + RBS(BBa_B0034) + PBAN(LD) + RBS(BBa_B0034) + BFP(BBa_K592100)+ Ter(BBa_J61048) The above circuit is constructed mainly to test whether it produces Lymantria dispar’s PBAN. If the circuit do work, it would result in the expression of the BFP gene and the emission of blue fluorescent light.

PBAN Spodoptera litura 1 (BBa_K1415005)
SL.png

Peptide Sequence: LADDMPATPADQELYRPDPDQIDSRTKUFSPRL

PBAN(SL)+pSB1C3 This biobrick is the PBAN of Spodoptera litura on the pSB1C3 backbone.

PBAN Spodoptera litura 2 (BBa_K1415105)
HALFSL.png

Pcons(BBa_J23101) + RBS(BBa_B0034) + PBAN(SL) This circuit is responsible for producing the Spodoptera litura PBAN. As Spodoptera litura PBAN is ingested by the female Spodoptera litura, the female Spodoptera litura will produce its own sex pheromone and attract male Spodoptera lituras.

PBAN Spodoptera litura 3 (BBa_K1415205)
ALLSL.png

Pcons(BBa_J23101) + RBS(BBa_B0034) + PBAN(SL) + RBS(BBa_B0034) + BFP(BBa_K592100)+ Ter(BBa_J61048) The above circuit is constructed mainly to test whether it produces Spodoptera litura’s PBAN. If the circuit do work, it would result in the expression of the BFP gene and the emission of blue fluorescent light.

PBAN Helicoverpa armigera Hubner 1 (BBa_K1415006)
HAH.png

Peptide Sequence: LSDDMPARPADQEMYRQDPEQIDSRTKYFSPRL

PBAN(HAH)+pSB1C3 This biobrick is the PBAN of Helicoverpa armigera Hubner on the pSB1C3 backbone.

PBAN Helicoverpa armigera Hubner 2 (BBa_K1415106)
HALFHAH.png

Pcons(BBa_J23101) + RBS(BBa_B0034) + PBAN(HAH) This circuit is responsible for producing the Helicoverpa armigera Hubner’s PBAN. As Helicoverpa armigera Hubner’s PBAN is ingested by the female Helicoverpa armigera Hubner, the female Helicoverpa armigera Hubner will produce its own sex pheromone and attract male Helicoverpa armigera Hubners.

PBAN Helicoverpa armigera Hubner 3 (BBa_K1415206)
ALLHAH.png

Pcons(BBa_J23101) + RBS(BBa_B0034) + PBAN(HAH) + RBS(BBa_B0034) + BFP(BBa_K592100)+ Ter(BBa_J61048) The above circuit is constructed mainly to test whether it produces Helicoverpa armigera Hubner’s PBAN. If the circuit do work, it would result in the expression of the BFP gene and the emission of blue fluorescent light.

PBAN Adoxophyes sp. 1 (BBa_K1415007)
AS.png

Peptide Sequence: QSEAVTSSDEQVYRQDMSPVDGRLKYFSPRL

PBAN(AS)+pSB1C3 This biobrick is the PBAN of Adoxophyes sp. on the pSB1C3 backbone.

PBAN Adoxophyes sp. 2 (BBa_K1415107)
HALFAS.png

Pcons(BBa_J23101) + RBS(BBa_B0034) + PBAN(AS) This circuit is responsible for producing the Adoxophyes sp.’s PBAN. As Adoxophyes sp.’s PBAN is ingested by the female Adoxophyes sp., the female Adoxophyes sp. will produce its own sex pheromone and attract male Adoxophyes sp.

PBAN Adoxophyes sp. 3 (BBa_K1415207)
ALLAS.png

Pcons(BBa_J23101) + RBS(BBa_B0034) + PBAN(AS) + RBS(BBa_B0034) + BFP(BBa_K592100)+ Ter(BBa_J61048) The above circuit is constructed mainly to test whether it produces Adoxophyes sp.’s PBAN. If the circuit do work, it would result in the expression of the BFP gene and the emission of blue fluorescent light.

PBAN Solenopsis invicta 1 (BBa_K1415008)
SI.png

Peptide Sequence: GSGEDLSYGDAYEVDEDDHPLFVPR

PBAN(SI)+pSB1C3 This biobrick is the PBAN of Solenopsis invicta on the pSB1C3 backbone.

PBAN Solenopsis invicta 2 (BBa_K1415108)
HALFSI.png

Pcons(BBa_J23101) + RBS(BBa_B0034) + PBAN(SI) This circuit is responsible for producing the Solenopsis invicta’s PBAN. As Solenopsis invicta’s PBAN is ingested by the female Solenopsis invicta, the female Solenopsis invicta will produce its own sex pheromone and attract male Solenopsis invictas.

PBAN Solenopsis invicta 3 (BBa_K1415208)
ALLSI.png

Pcons(BBa_J23101) + RBS(BBa_B0034) + PBAN(SI) + RBS(BBa_B0034) + BFP(BBa_K592100)+ Ter(BBa_J61048) The above circuit is constructed mainly to test whether it produces Solenopsis invicta PBAN. If the circuit do work, it would result in the expression of the BFP gene and the emission of blue fluorescent light.

PBAN Aedes aegypti 1 (BBa_K1415009)
AA.png

Peptide Sequence: DASSSNENNSRPPFAPRL

PBAN(AA)+pSB1C3 This biobrick is the PBAN of Aedes aegypti on the pSB1C3 backbone.

PBAN Aedes aegypti 2 (BBa_K1415109)
HALFAA.png

Pcons(BBa_J23101) + RBS(BBa_B0034) + PBAN(AA) This circuit is responsible for producing the Aedes aegypti’s PBAN. As Aedes aegypti’s PBAN is ingested by the female Aedes aegypti, the female Aedes aegypti will produce its own sex pheromone and attract male Aedes aegyptis.

PBAN Aedes aegypti 3 (BBa_K1415209)
ALLAA.png

Pcons(BBa_J23101) + RBS(BBa_B0034) + PBAN(AA) + RBS(BBa_B0034) + BFP(BBa_K592100)+ Ter(BBa_J61048) The above circuit is constructed mainly to test whether it produces Aedes aegypti’s PBAN. If the circuit do work, it would result in the expression of the BFP gene and the emission of blue fluorescent light.