Cryptococcus neoformans Database in Synthetic Biology Open LanguageCnDatabase_collection Version 1 (Collection)This is a collection of Biological Genetic Parts of Cryptococcus neoformans containing 23 different promoters, coding sequences and terminators, which were previously used and whose efficacy has already been proven in this organism. This work was made in order to facilitate the build and assembly of genetic circuits and plasmids for the study of this pathogen.
PfadRBBa_K861060 Version 1 (Component)PfadR, synthetic promoter with tandem FadR binding site
PcarBBa_K861171 Version 1 (Component)Pcar, synthetic promoter repressed by CRP
BBa_K1699003BBa_K1699003 Version 1 (Component)gRNA for dCas9-VP64 targeting synthetic activation promoter pMLPm
BBa_K1699005BBa_K1699005 Version 1 (Component)gRNA for dCas9-VP64 targeting synthetic activation promoter pMLPm under U6 promoter
BBa_K1678004BBa_K1678004 Version 1 (Component)p48 synthetic promoter for L.plantarum
BBa_K1678002BBa_K1678002 Version 1 (Component)RibT promoted by p25 synthetic promoter
BBa_K1678003BBa_K1678003 Version 1 (Component)RibT promoted by p48 synthetic promoter
BBa_K2123204BBa_K2123204 Version 1 (Component)Bioaccumulator device: Strong promoter + OmpA fused to Synthetic Phytochelatin + B0015
BBa_K2136013BBa_K2136013 Version 1 (Component)hsp70 + rbsc2 synthetic constitutive promoter for Chlamydomonas
BBa_K2066126BBa_K2066126 Version 1 (Component)Synthetic Enhancer Project: NRII2302 Upstream Regulatory Region with Promoter
BBa_K2066544BBa_K2066544 Version 1 (Component)Synthetic Enhancer Project: glnAp2 promoter
BBa_K2066547BBa_K2066547 Version 1 (Component)Synthetic Enhancer Project: Spacer between Promoter and RBS
BBa_K1913022BBa_K1913022 Version 1 (Component)Synthetic plac-FixK2 hybrid promoter with RBS
BBa_K1913023BBa_K1913023 Version 1 (Component)Synthetic plac-FixK2 hybrid promoter with RBS
BBa_K1913024BBa_K1913024 Version 1 (Component)Synthetic ptet-FixK2 hybrid promoter with RBS
BBa_K1913029BBa_K1913029 Version 1 (Component)Synthetic plac-FixK2 hybrid promoter +RBS with mRFP
BBa_K1913030BBa_K1913030 Version 1 (Component)Synthetic plac-FixK2 hybrid promoter+RBS with mRFP
BBa_K1913031BBa_K1913031 Version 1 (Component)Synthetic ptet-FixK2 hybrid promoter+RBS with mRFP
BBa_K2066112BBa_K2066112 Version 1 (Component)Synthetic Enhancer Project: Ntr promoter driven NRII2302 (mut) on UNS Standard
Cryptococcus neoformans Database in Synthetic Biology Open LanguageCnD_collection Version 1 (Collection)This is a collection of Biological Genetic Parts of Cryptococcus neoformans containing 23 different promoters, coding sequences and terminators, which were previously used and whose efficacy has already been proven in this organism. This work was made in order to facilitate the build and assembly of genetic circuits and plasmids for the study of this pathogen.
BBa_K515100BBa_K515100 Version 1 (Component)IAA biosynthetic genes under control of the Pveg2 promoter
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.
BBa_K152004BBa_K152004 Version 1 (Component)Promoterless Synthetic Operon of CrtE,B,I,Y
BBa_K152005BBa_K152005 Version 1 (Component)Promoterless Synthetic Operon of CrtE,B,I,Y and GFP
BBa_K223021BBa_K223021 Version 1 (Component)SoxS + Part:BBa_K152005 (Promoterless Synthetic Operon of CrtE,B,I,Y and GFP)
BBa_K203120BBa_K203120 Version 1 (Component)Synthetic promoter; HB17
BBa_K203122BBa_K203122 Version 1 (Component)Synthetic promoter; HB19
BBa_K203123BBa_K203123 Version 1 (Component)Synthetic promoter; HB1
BBa_K203127BBa_K203127 Version 1 (Component)Synthetic promoter; HB3
BBa_K203128BBa_K203128 Version 1 (Component)Synthetic promoter; HB20
BBa_K203129BBa_K203129 Version 1 (Component)Synthetic promoter HB25
BBa_K203130BBa_K203130 Version 1 (Component)Synthetic promoter; HB7
BBa_K203131BBa_K203131 Version 1 (Component)Synthetic promoter; HB24
BBa_K203132BBa_K203132 Version 1 (Component)Synthetic promoter; HB21
BBa_K203133BBa_K203133 Version 1 (Component)Synthetic promoter;HB23
BBa_K203134BBa_K203134 Version 1 (Component)Synthetic promoter; HB22
BBa_K203135BBa_K203135 Version 1 (Component)Synthetic promoter; HB11