Difference between revisions of "Part:BBa K4390006"
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DNA assembly is the cornerstone of synthetic biology, and fast and reliable assembly is a necessity for this. Modular cloning with Type IIS restriction enzymes allows us to quickly assemble many complex multipart constructs from libraries of basic parts. The JUMP vector platform is compatible with the PhytoBrick standard, and vectors are compatible with BioBrick architecture as well as Standard European Vector Architecture (SEVA), and uses single stranded DNA overhangs (fusion sites) generated by BsmBI and BsaI digestion for ordered assembly. There are six different JUMP part types, corresponding to different elements of a transcriptional unit, the Promoter, Ribosome Binding Site (RBS), N-terminus, Open Reading Frame (ORF), C-terminus, and terminator. Figure 1 shows the fusion sites between these part types, and that basic parts can also take up more than one part by adopting a 5’ fusion site of one part and the 3’ fusion site of another. | DNA assembly is the cornerstone of synthetic biology, and fast and reliable assembly is a necessity for this. Modular cloning with Type IIS restriction enzymes allows us to quickly assemble many complex multipart constructs from libraries of basic parts. The JUMP vector platform is compatible with the PhytoBrick standard, and vectors are compatible with BioBrick architecture as well as Standard European Vector Architecture (SEVA), and uses single stranded DNA overhangs (fusion sites) generated by BsmBI and BsaI digestion for ordered assembly. There are six different JUMP part types, corresponding to different elements of a transcriptional unit, the Promoter, Ribosome Binding Site (RBS), N-terminus, Open Reading Frame (ORF), C-terminus, and terminator. Figure 1 shows the fusion sites between these part types, and that basic parts can also take up more than one part by adopting a 5’ fusion site of one part and the 3’ fusion site of another. | ||
− | [[File:JUMP fusionsites.png| | + | [[File:JUMP fusionsites.png| 800px |caption]] |
Revision as of 23:01, 29 September 2022
JUMP N-filler
Usage and Biology
DNA assembly is the cornerstone of synthetic biology, and fast and reliable assembly is a necessity for this. Modular cloning with Type IIS restriction enzymes allows us to quickly assemble many complex multipart constructs from libraries of basic parts. The JUMP vector platform is compatible with the PhytoBrick standard, and vectors are compatible with BioBrick architecture as well as Standard European Vector Architecture (SEVA), and uses single stranded DNA overhangs (fusion sites) generated by BsmBI and BsaI digestion for ordered assembly. There are six different JUMP part types, corresponding to different elements of a transcriptional unit, the Promoter, Ribosome Binding Site (RBS), N-terminus, Open Reading Frame (ORF), C-terminus, and terminator. Figure 1 shows the fusion sites between these part types, and that basic parts can also take up more than one part by adopting a 5’ fusion site of one part and the 3’ fusion site of another.
Characterization
Sequence and Features
- 10COMPATIBLE WITH RFC[10]
- 12COMPATIBLE WITH RFC[12]
- 21COMPATIBLE WITH RFC[21]
- 23COMPATIBLE WITH RFC[23]
- 25COMPATIBLE WITH RFC[25]
- 1000COMPATIBLE WITH RFC[1000]