BBa_K1139156BBa_K1139156 Version 1 (Component)Prm/lac V3-GFP-PlacIq-c1
BBa_K1139154BBa_K1139154 Version 1 (Component)Prm/lac V2-GFP-PlacIq-c1
BBa_K1139152BBa_K1139152 Version 1 (Component)Prm/lac V1-GFP-PlacIq-c1
BBa_K741021BBa_K741021 Version 1 (Component)plac-RBS-cI-T-pRM-anticro-T
"Part X"BBa_K1001752 Version 1 (Component)RFP and RBS behind Lamda Prm Promoter
BBa_K374003BBa_K374003 Version 1 (Component)Gifsy 1 prophage immunity region 1 promoters, Pr & Prm
Pr/Prm debBBa_S03338 Version 1 (Component)Pr with GFP and Prm+ with RFP
Pr/Prm debBBa_S03467 Version 1 (Component)Pr with CFP and Prm+ with YFP
BBa_K1683004BBa_K1683004 Version 1 (Component)pBAD+Strong RBS+E. coli tolC signal sequence+P. aeruginosa oprM
BBa_K741015BBa_K741015 Version 1 (Component)plac-RBS-cI-T-pRM-RBS-lysis-T
BBa_K374004BBa_K374004 Version 1 (Component)Gifsy-2 prophage immunity region. Contains pR and pRM promoters.
BBa_K741004BBa_K741004 Version 1 (Component)plac-RBS-cI-T-pRM-RBS-GFP-T
BBa_K831015BBa_K831015 Version 1 (Component)Inducible HipA7 toxin under the control of prm promoter
TraJR NonmBBa_J01025 Version 1 (Component)Non mobilizable TraJR, OnRFP, Key1 = [pRM TraJR][DblTerminator][OnRFP][OnKey1]
InATstBBa_J05503 Version 1 (Component)Sensing Device A (cI) TESTER (Pr+GFP+Prm+RFP)
Signal FilBBa_K2036020 Version 1 (Component)RBS-CI-TT-pR-RBS-CIII-RBS-RFP-LAAssrAtag-TT-pRM-RBS-GFP-LVAssrAtag
BBa_M45512BBa_M45512 Version 1 (Component)pRM + RBS + GFP + Stop Codon + RBS + phiR 73 delta + B0015
BBa_M45507BBa_M45507 Version 1 (Component)pRM + RBS + GFP + Stop Codon + RBS + phiR73 delta + GFP + B0015
BBa_I12032BBa_I12032 Version 1 (Component)Modified lamdba Prm promoter (repressed by p22 cI with cooperativity) RBS+
InBTstBBa_J05504 Version 1 (Component)Sensing Device B (cI+LVA) TESTER (Pr+GFP+Prm+RFP)
BBa_K741017BBa_K741017 Version 1 (Component)plac-RBS-cI-T-pRM-anticro-T-pCon(0.244)-RBS-crogfp-T
BBa_K741018BBa_K741018 Version 1 (Component)plac-RBS-cI-T-pRM-anticro-T-pCon(0.856)-RBS-crogfp-T
BBa_M45505BBa_M45505 Version 1 (Component)pRM promoter with phiR73 delta that is used to activate the promoter PF
BBa_J05210BBa_J05210 Version 1 (Component)Modifed Prm+ Promoter
Prm rnaBBa_I12005 Version 1 (Component)lambda Prm Inverted Antisense (No start codon)
BBa_K2036028BBa_K2036028 Version 1 (Component)placm-pRE-RBS-Cro-RBS-CII-TT-patp2-RBS-CI-TT-pR-RBS-CIII-RBS-ompA-iLDH-TT-pRM-RBS-beta-galactosidase
BBa_K2036027BBa_K2036027 Version 1 (Component)pRE-RBS-Cro-RBS-CII-TT-ptrp-RBS-CI-TT-pR-RBS-CIII-RBS-RFP-LAAssrAtag-TT-pRM-RBS-GFP-LVAssrAtag
BBa_K2036024BBa_K2036024 Version 1 (Component)placm-pRE-RBS-Cro-RBS-CII-TT-patp2-RBS-CI-TT-pR-RBS-CIII-RBS-iLDH-TT-pRM-RBS-beta-galactosidase
Prm+GFPBBa_S03336 Version 1 (Component)Prm+ with GFP as a reporter
SEGASEGA_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.