IRBBa_K658012 Version 1 (Component)3OC6HSL Sender and Receiver Device Driven by PLlac 0-1
BBa_I13266BBa_I13266 Version 1 (Component)Lux-based Sender/Receiver Device which outputs PoPS
BBa_M45632BBa_M45632 Version 1 (Component)A device to sense Vitamin D3
BBa_I13015BBa_I13015 Version 1 (Component)3OC<sub>6</sub>HSL Sender controlled by pBad
BBa_K102092BBa_K102092 Version 1 (Component)TA9In anti-sense input in test harness
BBa_K102122BBa_K102122 Version 1 (Component)TA12In anti-sense input in test harness
BBa_K102052BBa_K102052 Version 1 (Component)TA3In anti-sense input in test harness
BBa_K102112BBa_K102112 Version 1 (Component)TA11In anti-sense input in test harness
BBa_K102034BBa_K102034 Version 1 (Component)TA1In anti-sense input in test harness
BBa_K102072BBa_K102072 Version 1 (Component)TA7In anti-sense input in test harness
BBa_K102082BBa_K102082 Version 1 (Component)TA8In anti-sense input in test harness
BBa_K102042BBa_K102042 Version 1 (Component)TA2In anti-sense input in test harness
BBa_K102011BBa_K102011 Version 1 (Component)TA0 anti-sense input in test harness
BBa_K102102BBa_K102102 Version 1 (Component)TA10In anti-sense input in test harness
BBa_K102142BBa_K102142 Version 1 (Component)TA14In anti-sense input in test harness
BBa_K102132BBa_K102132 Version 1 (Component)TA13In anti-sense input in test harness
BBa_K102062BBa_K102062 Version 1 (Component)TA6In anti-sense input in test harness
BBa_K1834846BBa_K1834846 Version 1 (Component)Xylene Sensor! With AmilCP!
BBa_J04605BBa_J04605 Version 1 (Component)R0010 with Anti-Sense Theophillline Induced Antiswitch ("On Switch")
BBa_J04676BBa_J04676 Version 1 (Component)R0010 with Anti-Sense Theophillline Induced Antiswitch ("Off Switch")
BBa_I3600BBa_I3600 Version 1 (Component)Test: Chemotaxis response to secreted aspartate, sender cells (I3100.I3200.E0422)
BBa_I13038BBa_I13038 Version 1 (Component)Lux I/R Sender and Receiver w/ TetR regulation
BBa_I13037BBa_I13037 Version 1 (Component)Lux I/R Sender and Receiver w/ TetR regulation
BBa_K1090000BBa_K1090000 Version 1 (Component)AHL signal sender with RFP reporter under lac promoter control
BBa_K2033002BBa_K2033002 Version 1 (Component)isovaleryl-HSL, 3-methyl-N-[(3S)-2-oxooxolan-3-yl]butanamide Sender- BjaI
BBa_K359005BBa_K359005 Version 1 (Component)Senses AIP and has RFP reporter (from Agr quorum sensing system)
BBa_I3521BBa_I3521 Version 1 (Component)Test: Quorum threshold level and chemotaxis response, sender cells (I3600.I3520.I3500)
BBa_K658014BBa_K658014 Version 1 (Component)3OC6HSL Sender and Receiver Device with lux pR-5 Driven by PLlac 0-1
BBa_K658013BBa_K658013 Version 1 (Component)3OC6HSL Sender and Receiver Device with lux pR-3 Driven by PLlac 0-1
BBa_K2033004BBa_K2033004 Version 1 (Component)(3S)-3-[(2-oxo-3-phenylpropyl)amino]oxolan-2-one (3-phenyl-HSL) Sender- BraI
BBa_M31114BBa_M31114 Version 1 (Component)M13, gene II from HpaI to the end [1-831bp]
BBa_I1060BBa_I1060 Version 1 (Component)Custom cI(2) Protein w/LacO-1 Promoter (Used for Anti-sense inhibition)
BBa_K658015BBa_K658015 Version 1 (Component)3OC6HSL Sender and Receiver Device with lux pR-3/5 Driven by PLlac 0-1
BBa_K639004BBa_K639004 Version 1 (Component)rrnB P1-LacI-pLac-mCherry plausible stress sensor
BBa_K258012BBa_K258012 Version 1 (Component)AI2-dependent KGF synthesis with RFP reporter and AHL production for Quaroum Sensin Death Mechanism
BBa_J47421BBa_J47421 Version 1 (Component)constitutive luxI sender device
BBa_K091135BBa_K091135 Version 1 (Component)Las Sender Testing Device
BBa_I731017BBa_I731017 Version 1 (Component)Ptet bicistronic 3OC6HSL Sender + mCherry
BBa_I9023BBa_I9023 Version 1 (Component)sender (luxI) B0034.C0061.B0015
BBa_I9027BBa_I9027 Version 1 (Component)sender (rhlI) B0034.C0070.B0015
BBa_F1760BBa_F1760 Version 1 (Component)3OC<sub>14</sub>HSL Sender Device
BBa_I719021BBa_I719021 Version 1 (Component)Constitutive 3OC<sub>6</sub>HSL Sender Device
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.