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Upstream region of the artificial neutral integration site option 2 (aNSo2). Can be used for genome integration of genes via homologous recombination in many strains of cyanobacteria such as PCC7942 and UTEX2793.
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Upstream region of the artificial Neutral integration Site option 2 (aNSo2). Can be used for genome integration of genes via homologous recombination in many strains of cyanobacteria such as PCC7942 and UTEX2793.
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This part is contained in the green expansion, a range of parts from <a href="https://2019.igem.org/Team:Marburg">iGEM Marburg 2019</a>that enables users of the Marburg Collection 2.0 to design MoClo compatible vectors for cyanobacteria as well as to engineer the genome of several cyanobacterial species.
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This part is contained in the Green Expansion, a range of parts from <a href="https://2019.igem.org/Team:Marburg">iGEM Marburg 2019</a>that enables users of the Marburg Collection 2.0 to design MoClo compatible vectors for cyanobacteria as well as to engineer the genome of several cyanobacterial species.
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===The green expansion===
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===The Green Expansion===
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The green expansion is an addition of parts to the Marburg Collection 2.0 <a href="http://2018.igem.org/Team:Marburg/Design">(See: Design of the Marburg Collection)</a> that features the world's first MoClo compatible shuttle vector for cyanobacteria <a href="https://parts.igem.org/Part:BBa_K3228069">BBa_K3228069</a> as well as all the parts needed for the genomic integration of one or multiple genes in cyanobacteria. It convinces with a striking flexibility and a very intuitive workflow for the de novo assembly of your plasmid of choice. It encompasses 5 different neutral integration sites to choose from: three conventional sites frequently used in the cyanobacterial community (NSI to NSIII) as well as our own rationally designed artificial neutral integration site options a.N.S.o. 1 and 2 <a href="https://2019.igem.org/Team:Marburg/Design">(See: Finding new artificial Neutral integration Site options).</a>These sites show no transcriptional activity from neighboring regions according to RNA-seq data and are therefore completely orthogonal. Additionally we offer 4 different antibiotic markers to use (chloramphenicol, gentamicin, spectinomycin and kanamycin). With the green expansion up to 20 genes can be introduced into a cyanobacterial strain.
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The Green Expansion is an addition of parts to the Marburg Collection 2.0 <a href="http://2018.igem.org/Team:Marburg/Design">(See: Design of the Marburg Collection)</a> that features the world's first MoClo compatible shuttle vector for cyanobacteria. <a href="https://parts.igem.org/Part:BBa_K3228069">BBa_K3228069</a>
[[File:GE LVL1 ori.png|500px|thumb|left|'''Figure 1''': Design of the first MoClo compatible shuttle vector for cyanobacteria for LVL 1 constructs. This can be used for the integration of simple genetic modules. ]]
[[File:GE LVL2 ori.png|500px|thumb|left|'''Figure 2''': Design of the first MoClo compatible shuttle vector for cyanobacteria for LVL 2 constructs. This can be used for the integration of complex genetic devices. ]]
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The Green Expansion also offers all the parts needed for the genomic integration of one or multiple genes in cyanobacteria. This M.E.G.A. (Modularized Engineering of Genome Areas) kit convinces with a striking flexibility and a very intuitive workflow for the de novo assembly of your plasmid of choice. It encompasses five different neutral integration sites to choose from: three conventional sites frequently used in the cyanobacterial community (NSI to NSIII) as well as our own rationally designed artificial Neutral integration Site options a.N.S.o. 1 and 2 <a href="https://2019.igem.org/Team:Marburg/Design">(See: Finding new artificial Neutral integration Site options).</a>These sites show no transcriptional activity from neighboring regions according to RNA-seq data and are therefore completely orthogonal. Additionally we offer four different antibiotic markers to use (chloramphenicol, gentamicin, spectinomycin and kanamycin). With the Green Expansion up to 20 genes can be introduced into a cyanobacterial strain.
[[File:GE genomic integration.png|500px|thumb|left|'''Figure 3''': Overview over the modularized editing of genome area kit (M.E.G.A. kit) ]]
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Thanks to the flexible design this expansion can also be used for the genomic modification of any chassis after the introduction of new species specific LVL 0 integration sites to our Marburg Collection 2.0. As the workflow to build new homologies is a bit more intricate compared to the one pot on step assembly of our other parts due to the internal BsmbI cutting site, we described the workflow for that in our design section <a href="https://2019.igem.org/Team:Marburg/Design">(See: Design of neutral integration sites).</a>
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Thanks to the flexible design this expansion can also be used for the genomic modification of any chassis after the introduction of a new species specific LVL 0 integration sites to our Marburg Collection 2.0. As the workflow to build new homologies is a bit more intricate compared to the one pot on step assembly of our other parts due to the internal BsmBI cutting site, we described the workflow for that in our design section <a href="https://2019.igem.org/Team:Marburg/Design">(See: Design of neutral integration sites).</a>
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The green expansion proves a valuable addition to our Marburg Collection 2.0 and to the iGEM Registry of Standard Biological Parts. It services users of our chassis and other cyanobacterial strains with a useful tool for genomic modifications but it also contributes a shell that can be used to modify any other model organism as well.
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The Green Expansion proves a valuable addition to our Marburg Collection 2.0 and to the iGEM Registry of Standard Biological Parts. It services users of our chassis and other cyanobacterial strains with a useful tool for genomic modifications but it also contributes a shell that can be used to modify any other model organism as well.
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These parts are compatible with the RCF [1000] standard. These parts are compatible with any part collection that uses the PhytoBrick standard of overhangs. For more information we recommend to head over to <a href="http://2018.igem.org/Team:Marburg/Design">Design of the Marburg Collection iGEM Marburg 2018</a>.
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These parts are compatible with the RCF [1000] standard and can be used in any part collection that uses the PhytoBrick standard of overhangs. For more information we recommend to head over to <a href="http://2018.igem.org/Team:Marburg/Design">Design of the Marburg Collection iGEM Marburg 2018</a>.
pMC_0_1_23_aNSo2_integration (neutral integration site for cyanobacteria)
Sequence and Features
Assembly Compatibility:
10
COMPATIBLE WITH RFC[10]
12
COMPATIBLE WITH RFC[12]
21
COMPATIBLE WITH RFC[21]
23
COMPATIBLE WITH RFC[23]
25
COMPATIBLE WITH RFC[25]
1000
COMPATIBLE WITH RFC[1000]
Description
Upstream region of the artificial Neutral integration Site option 2 (aNSo2). Can be used for genome integration of genes via homologous recombination in many strains of cyanobacteria such as PCC7942 and UTEX2793.
This part is contained in the Green Expansion, a range of parts from iGEM Marburg 2019that enables users of the Marburg Collection 2.0 to design MoClo compatible vectors for cyanobacteria as well as to engineer the genome of several cyanobacterial species.
The Green Expansion
The Green Expansion is an addition of parts to the Marburg Collection 2.0 (See: Design of the Marburg Collection) that features the world's first MoClo compatible shuttle vector for cyanobacteria. BBa_K3228069
Figure 1: Design of the first MoClo compatible shuttle vector for cyanobacteria for LVL 1 constructs. This can be used for the integration of simple genetic modules.
Figure 2: Design of the first MoClo compatible shuttle vector for cyanobacteria for LVL 2 constructs. This can be used for the integration of complex genetic devices.
The Green Expansion also offers all the parts needed for the genomic integration of one or multiple genes in cyanobacteria. This M.E.G.A. (Modularized Engineering of Genome Areas) kit convinces with a striking flexibility and a very intuitive workflow for the de novo assembly of your plasmid of choice. It encompasses five different neutral integration sites to choose from: three conventional sites frequently used in the cyanobacterial community (NSI to NSIII) as well as our own rationally designed artificial Neutral integration Site options a.N.S.o. 1 and 2 (See: Finding new artificial Neutral integration Site options).These sites show no transcriptional activity from neighboring regions according to RNA-seq data and are therefore completely orthogonal. Additionally we offer four different antibiotic markers to use (chloramphenicol, gentamicin, spectinomycin and kanamycin). With the Green Expansion up to 20 genes can be introduced into a cyanobacterial strain.
Figure 3: Overview over the modularized editing of genome area kit (M.E.G.A. kit)
Thanks to the flexible design this expansion can also be used for the genomic modification of any chassis after the introduction of a new species specific LVL 0 integration sites to our Marburg Collection 2.0. As the workflow to build new homologies is a bit more intricate compared to the one pot on step assembly of our other parts due to the internal BsmBI cutting site, we described the workflow for that in our design section (See: Design of neutral integration sites).
The Green Expansion proves a valuable addition to our Marburg Collection 2.0 and to the iGEM Registry of Standard Biological Parts. It services users of our chassis and other cyanobacterial strains with a useful tool for genomic modifications but it also contributes a shell that can be used to modify any other model organism as well.
Compability
These parts are compatible with the RCF [1000] standard and can be used in any part collection that uses the PhytoBrick standard of overhangs. For more information we recommend to head over to Design of the Marburg Collection iGEM Marburg 2018.
