EF
BBa_K238014 Version 1 (Component)
ligation of ech and fcs

BBa_K1638036
BBa_K1638036 Version 1 (Component)
Sce VMA Intein with promoter

BBa_K1316014
BBa_K1316014 Version 1 (Component)
pRhamnose regulating csgB + J23110 constitutive Anderson promoter regulating csgA with a His tag

BBa_K1172205
BBa_K1172205 Version 1 (Component)
GldA - glycerol dehydrogenase from Escherichia coli with medium Anderson promoter and medium RBS

BBa_I769009
BBa_I769009 Version 1 (Component)
feruloyl-CoA hydratase for vanillin biosynthesis (ech)

BBa_I769007
BBa_I769007 Version 1 (Component)
feruloyl-CoA hydratase for vanillin biosynthesis (ech)

BBa_I769008
BBa_I769008 Version 1 (Component)
feruloyl-CoA hydratase for vanillin biosynthesis (ech)

BBa_K1172306
BBa_K1172306 Version 1 (Component)
Riboflavin synthesis gene cluster from s. oneidensis under control of a strong Anderson promoter

BBa_K1172305
BBa_K1172305 Version 1 (Component)
Riboflavin synthesis gene cluster from s. oneidensis under control of a medium Anderson promoter

BBa_K1199001
BBa_K1199001 Version 1 (Component)
LinA γ-HCH->1,3,4,6-tetrachloro-1,4-cyclohexadiene

BBa_K1172507
BBa_K1172507 Version 1 (Component)
Outer membrane porin OprF from Pseudomonas fluorescens with strong Anderson promoter and strong RBS

BBa_K1172504
BBa_K1172504 Version 1 (Component)
Outer membrane porin OprF from Pseudomonas fluorescens with medium Anderson promotor and weak RBS

BBa_K1172505
BBa_K1172505 Version 1 (Component)
Outer membrane porin OprF from Pseudomonas fluorescens with medium Anderson promotor and medium RBS

BBa_K654030
BBa_K654030 Version 1 (Component)
Anderson 1.0 Promoter - Promoter only part

BBa_K1199041
BBa_K1199041 Version 1 (Component)
LinA gamma-HCH->1,3,4,6-tetrachloro-1,4-cyclohexadiene

BBa_K1199002
BBa_K1199002 Version 1 (Component)
LinA gamma-HCH->1,3,4,6-tetrachloro-1,4-cyclohexadiene

Sc-Si4 gen
BBa_K1602032 Version 1 (Component)
Inducible generator of HisTag-Scaffold_Si4-Tag fusion protein

BBa_K227015
BBa_K227015 Version 1 (Component)
RBS34+OmpR(sph)+Term+ompC+GFP

BBa_K341000
BBa_K341000 Version 1 (Component)
recombination sequence + eGFP+I-Sce I cutting site

BBa_K292009
BBa_K292009 Version 1 (Component)
Stem cell factor (SCF) or c-kit-ligand

BBa_K341005
BBa_K341005 Version 1 (Component)
recombination sequence + Kan+I-Sce I cutting site

BBa_K341006
BBa_K341006 Version 1 (Component)
recombination sequence +chlr+I-Sce I cutting site

BBa_K341004
BBa_K341004 Version 1 (Component)
recombination sequence +mCherry+I-Sce I cutting site

BBa_K2013020
BBa_K2013020 Version 1 (Component)
Sc Alcohol dehydrogenase 2

BBa_K1129021
BBa_K1129021 Version 1 (Component)
Enoyl-CoA hydratase/aldolase (Ech) under arabinose promoter

BBa_K223012
BBa_K223012 Version 1 (Component)
SCP + RBS + SoxR + TT + SoxS + RBS + BLH + TT

BBa_K779409
BBa_K779409 Version 1 (Component)
U6-TetO-Sc MammoBlock

BBa_K1129022
BBa_K1129022 Version 1 (Component)
Enoyl-CoA hydratase/aldolase (Ech) under pTET constitutive promoter

BBa_K223015
BBa_K223015 Version 1 (Component)
SCP + RBS + SoxR + TT + SoxS + RBS + RalDH II + TT

BBa_K1199047
BBa_K1199047 Version 1 (Component)
LinA-RBS-LinB gamma-HCH->2,5-dichloro-2,5-cyclohexadiene-1,4-diol

BBa_K1321317
BBa_K1321317 Version 1 (Component)
Anderson J23112-RFP in pSEVA331-Bb

BBa_K223018
BBa_K223018 Version 1 (Component)
SCP + RBS + SoxR + TT + SoxS + RBS + BLH + RBS + RALDH II + TT

BBa_K654097
BBa_K654097 Version 1 (Component)
Anderson 0.10 E. coli Reference Promoter

BBa_K654098
BBa_K654098 Version 1 (Component)
Anderson 0.01 E. coli Reference Promoter

BBa_K1199045
BBa_K1199045 Version 1 (Component)
LinA-F2A-LinB F2A can cleave LinA and LinB to mediate gamma-HCH

BBa_I719004
BBa_I719004 Version 1 (Component)
ech gene

BBa_K238028
BBa_K238028 Version 1 (Component)
ech with RBS

BBa_I742011
BBa_I742011 Version 1 (Component)
ech (feruloyl hydratase/aldolase; vanillin biosynthesis)

BBa_I719001
BBa_I719001 Version 1 (Component)
ech and fcs genes

BBa_I719011
BBa_I719011 Version 1 (Component)
ech and fcs genes

BBa_I754000
BBa_I754000 Version 1 (Component)
Feruloyl CoA Hyratase for vanillin biosynthesis-ech

BBa_I754001
BBa_I754001 Version 1 (Component)
ech protein generator for vanillin biosynthesis

BBa_I769106
BBa_I769106 Version 1 (Component)
ech protein generator for vanillin biosynthesis

BBa_K1199003
BBa_K1199003 Version 1 (Component)
LinA gamma-HCH-> 1,3,4,6-tetrachloro-1,4-cyclohexadiene

BBa_K1199038
BBa_K1199038 Version 1 (Component)
LinA gamma-HCH->1,3,4,6-tetrachloro-1,4-cyclohexadiene

BBa_I735000
BBa_I735000 Version 1 (Component)
ech gene coding sequence for feruoyl CoA hydratese

BBa_K1199050
BBa_K1199050 Version 1 (Component)
LinA gamma-HCH->1,3,4,6-tetrachloro-1,4-cyclohexadiene, lacking stop coden

BBa_I718001
BBa_I718001 Version 1 (Component)
ech My new test generator part Feruloyl CoA hydratase for vanilin

Bacillus subtilis Collection
bsu_collection Version 1 (Collection)
This collection includes information about promoters, operators, CDSs and proteins from Bacillus subtilis. Functional interactions such as transcriptional activation and repression, protein production and various protein-protein interactions are also included.

SEGA
SEGA_collection Version 1 (Collection)
In the Standardized Genome Architecture (SEGA), genomic integration of DNA fragments is enabled by λ-Red recombineering and so-called landing pads that are a common concept in synthetic biology and typically contain features that i) enable insertion of additional genetic elements and ii) provide well-characterized functional parts such as promoters and genes, and iii) provides insulation against genome context-dependent effects. The SEGA landing pads allow for reusable homology regions and time-efficient construction of parallel genetic designs with a minimal number of reagents and handling steps. SEGA bricks, typically synthetic DNA or PCR fragments, are integrated on the genome simply by combining the two reagents (i.e. competent cells and DNA), followed by incubation steps, and successful recombinants are identified by visual inspection on agar plates. The design of the SEGA standard was heavily influenced by the Standard European Vector Architecture (SEVA). SEGA landing pads typically hosts two major genetic “control elements” that influence gene expression on the transcriptional (C1), and translational (C2) level. Furthermore, landing pads contain gadgets such as selection and counterselection markers.