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Showing 1 - 38 of 38 result(s)



Public
BBa_K121008
BBa_K121008 Version 1 (Component)
Planning
Public
BBa_K121009
BBa_K121009 Version 1 (Component)
planning
Public
BBa_K1897031
BBa_K1897031 Version 1 (Component)
B0033 with flanking Scar sites
Public
BBa_K957000
BBa_K957000 Version 1 (Component)
Arsenic inducible mtrB with cut sites flanking RBS
Public
BBa_K1897032
BBa_K1897032 Version 1 (Component)
B0032 with flanking Scar sites
Public
BBa_K138002
BBa_K138002 Version 1 (Component)
Arabinose Landing Pad
Public
BBa_K270002
BBa_K270002 Version 1 (Component)
Leucine Landing Pad
Public
BBa_K223057
BBa_K223057 Version 1 (Component)
Rear Flanking Sequence (HlyB and HlyD)
Public
BBa_K223056
BBa_K223056 Version 1 (Component)
Front Flanking Sequence (HlyR, IS1, HlyC)
Public
BBa_J42022
BBa_J42022 Version 1 (Component)
PolyLinker for Nested Landing Pad
Public
BBa_K1648051
BBa_K1648051 Version 1 (Component)
PfOprF with HoxKGZ flanking sequences
Public
BBa_K1076001
BBa_K1076001 Version 1 (Component)
Flanking genes for FadR deletion
Public
ExbB
BBa_I765002 Version 1 (Component)
ExbB membrane spanning protein in TonB-ExbB-ExbD complex [ Escherichia coli K12 ]
Public
BBa_I720007
BBa_I720007 Version 1 (Component)
araBp->rpoN (leucine landing pad)
Public
BBa_I720008
BBa_I720008 Version 1 (Component)
Ara landing pad (pBBLP 6)
Public
BBa_I720009
BBa_I720009 Version 1 (Component)
Ara landing pad (pBBLP 7)
Public
ApaI
BBa_I11080 Version 1 (Component)
ApaI restriction site with extra flanking nucleotides
Public
MluI
BBa_I11079 Version 1 (Component)
MluI restriction enzyme site with flanking nucleotides
Public
XbaI
BBa_I11082 Version 1 (Component)
XbaI restriction site with extra flanking nucleotides
Public
BamHI
BBa_I11081 Version 1 (Component)
BamHI restriction site with extra flanking nucleotides
Public
BBa_K284090
BBa_K284090 Version 1 (Component)
Downstream construction flanking FSTK gene
Public
BBa_K284080
BBa_K284080 Version 1 (Component)
Upstream construction flanking FSTK gene
Public
HindIII
BBa_I11076 Version 1 (Component)
HindIII restriction enzyme site with extra flanking nucleotides
Public
SacII
BBa_I11078 Version 1 (Component)
SacII restriction enzyme site with extra flanking nucleotides
Public
SalI
BBa_I11077 Version 1 (Component)
SalI restriction enzyme site with extra flanking nucleotides
Public
BmtI
BBa_I11075 Version 1 (Component)
BmtI restriction enzyme site with extra flanking nucleotides
Public
PvuI
BBa_I11073 Version 1 (Component)
PvuI restriction enzyme site with extra flanking nucleotides
Public
KpnI
BBa_I11071 Version 1 (Component)
KpnI restriction enzyme site with extra flanking nucleotides
Public
XmaI
BBa_I11074 Version 1 (Component)
XmaI restriction enzyme site with extra flanking nucleotides
Public
BBa_K341444
BBa_K341444 Version 1 (Component)
mCherry -> landing pad -> I-Scel site
Public
BBa_K1225000
BBa_K1225000 Version 1 (Component)
Promoter with flanking BpiI sites for GGC.
Public
BBa_K138000
BBa_K138000 Version 1 (Component)
NifHp in BioBrick Compatible Leucine Landing Pad
Public
BBa_K957002
BBa_K957002 Version 1 (Component)
Salicylate inducible mtrB with cut sites flanking RBS
Public
BBa_M1131
BBa_M1131 Version 1 (Component)
5' flanking region of Lactase-phlorizin hydrolase (LPH), eukaryotic
Public
BBa_K138001
BBa_K138001 Version 1 (Component)
nifHp driving mutant NifL in Leucine Landing Pad
Public
BBa_J18900
BBa_J18900 Version 1 (Component)
I am just playing around with this part
Public
BBa_I720010
BBa_I720010 Version 1 (Component)
Ara landing pad (pBBLP 8)
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 1 - 38 of 38 result(s)