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Showing 3751 - 3761 of 3761 result(s)
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Public
GG100
BBa_K2145125 Version 1 (Component)
This part contains 2 fluorescent protein coding sites (RFP and GFP) with a spacer
Public
GG98
BBa_K2145123 Version 1 (Component)
This part contains 2 fluorescent protein coding sites (RFP and GFP) with a spacer
Public
BBa_K2144011
BBa_K2144011 Version 1 (Component)
Coding sequence for Nuclease with His6 and LPXTG tag regulated by T7-promoter
Public
BBa_K1088052
BBa_K1088052 Version 1 (Component)
GFP reporter with flexible linker at N-terminus for creation of GFP fusions
Public
BBa_K2123117
BBa_K2123117 Version 1 (Component)
Novel RFP device regulated by mercury: MerR (regulatory protein) + Stationary phase with mer operato
Public
BBa_K323163
BBa_K323163 Version 1 (Component)
VioC, VioD and VioE enzymes fused with zinc fingers under pBAD promoter in pSB4C5
Public
BBa_J24823
BBa_J24823 Version 1 (Component)
same as J24819 but with ACCACC Euk RBS removed and problem solved via J24822 removed
Public
BBa_K2123116
BBa_K2123116 Version 1 (Component)
Universal promoter for both phase of growth in tandem with downstram mer operator + RFP (K081014)
Public
SBOLDesigner CAD Tool
SBOLDesigner Version 3.1 (Agent)
SBOLDesigner is a simple, biologist-friendly CAD software tool for creating and manipulating the sequences of genetic constructs using the Synthetic Biology Open Language (SBOL) 2 data model. Throughout the design process, SBOL Visual symbols, a system of schematic glyphs, provide standardized visualizations of individual parts. SBOLDesigner completes a workflow for users of genetic design automation tools. It combines a simple user interface with the power of the SBOL standard and serves as a launchpad for more detailed designs involving simulations and experiments. Some new features in SBOLDesigner are the ability to add variant collections to combinatorial derivations, enumerating those collections, and the ability to view sequence features hierarchically. There are also some small changes to the way that preferences work in regards to saving a design with incomplete sequences.
Public
BBa_K541715
BBa_K541715 Version 1 (Component)
Multi-host vector pTG262 converted to BioBrick vector wtih LALF protein and SacB signal peptide
Public
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.
Showing 3751 - 3761 of 3761 result(s)
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