BBa_K2066505
1
BBa_K2066505
BsmBI Cut Site + G + Sticky End 3
2016-08-24T11:00:00Z
2016-08-25T12:10:40Z
Briggs, A. W., Rios, X., Chari, R., Yang, L., Zhang, F., Mali, P., & Church, G. M. (2012). Iterative capped assembly: rapid and scalable synthesis of repeat-module DNA such as TAL effectors from individual monomers. Nucleic acids research, gks624.
This is an intermediate part used in the construction of WM16_002. This part contains the BsmBI cut site followed by a single nucleotide spacer (G) followed by sticky end 2. Sticky end 2 is one of three sticky ends used by WM iGEM 2016 for Iterative Capped Assembly. ICA design method based off of Briggs, A. W., Rios, X., Chari, R., Yang, L., Zhang, F., Mali, P., & Church, G. M. (2012). Iterative capped assembly: rapid and scalable synthesis of repeat-module DNA such as TAL effectors from individual monomers. Nucleic acids research, gks624.
false
false
_2534_
31526
31526
9
false
G was selected as the spacer nucleotide as per Briggs et al., 2012. Sticky End 2 was chosen as per supplemental material from Briggs et al., 2012.
false
Kalen Clifton, Christine Gao, Andrew Halleran, Ethan Jones, Likhitha Kolla, Joseph Maniaci, John Marken, John Mitchell, Callan Monette, Adam Reiss
BBa_K2066018
1
BBa_K2066018
UNS 2 Sequence, from Torella et al., 2013
2016-07-11T11:00:00Z
2016-10-19T05:41:43Z
Torella, J. P., Boehm, C. R., Lienert, F., Chen, J. H., Way, J. C., & Silver, P. A. (2013). Rapid construction of insulated genetic circuits via synthetic sequence-guided isothermal assembly. Nucleic acids research, gkt860.
This is Unique Nucleotide Sequence 2, (UNS 2), from Torella et al., 2013. The William and Mary iGEM team has adopted this as our standard prefix; as such, all of our parts will have this sequence immediately following the BioBrick prefix. We took this measure in order to allow easier Gibson Assembly cloning of our parts. Primer sequences which can be used to clone with the UNS 2/3 standard can be found on our wiki.
false
false
_2534_
31544
27446
9
false
UNS 2 was chosen because it works well with UNS 3 and it is in accordance with the BioBrick standard.
false
Kalen Clifton, Christine Gao, Andrew Halleran, Ethan Jones, Likhitha Kolla, Joseph Maniaci, John Marken, John Mitchell, Callan Monette, Adam Reiss
BBa_K2066504
1
BBa_K2066504
ICA:BsmBI Cut Site + G + Sticky End 2
2016-08-24T11:00:00Z
2016-08-25T11:55:55Z
This part was synthesized as part of a gBlock / using IDT DNA synthesis. Part sequence based off of supplemental material from Briggs et al., 2012.
This is an intermediate part used in the construction of WM16_002. This part contains the BsmBI cut site followed by a single nucleotide spacer (G) followed by sticky end 2. Sticky end 2 is one of three sticky ends used by WM iGEM 2016 for Iterative Capped Assembly. ICA design method based off of Briggs, A. W., Rios, X., Chari, R., Yang, L., Zhang, F., Mali, P., & Church, G. M. (2012). Iterative capped assembly: rapid and scalable synthesis of repeat-module DNA such as TAL effectors from individual monomers. Nucleic acids research, gks624.
false
false
_2534_
31526
27446
9
false
G was selected as the spacer nucleotide as per Briggs et al., 2012. Sticky End 2 was chosen as per supplemental material from Briggs et al., 2012.
false
Kalen Clifton, Christine Gao, Andrew Halleran, Ethan Jones, Likhitha Kolla, Joseph Maniaci, John Marken, John Mitchell, Callan Monette, Adam Reiss
BBa_K2066514
1
BBa_K2066514
16bp spacer from UNS X
2016-10-05T11:00:00Z
2016-10-09T08:56:09Z
This part was synthesized as part of a gBlock/ using IDT DNA synthesis. Part sequence is first 16 bp of UNS X sequence from Torella et al., 2013.
This is an intermediate part used in the construction of WM16_002-WM16_004. This part is a spacer region.
The sequence is the first 16 base pairs from the USN X sequence. UNS X sequence from the supplemental material of Torella, J. P., Boehm, C. R., Lienert, F., Chen, J. H., Way, J. C., & Silver, P. A. (2013). Rapid construction of insulated genetic circuits via synthetic sequence-guided isothermal assembly. Nucleic acids research, gkt860.
false
false
_2534_
27446
27446
9
false
N/A
false
Kalen Clifton, Christine Gao, Andrew Halleran, Ethan Jones, Likhitha Kolla, Joseph Maniaci, John Marken, John Mitchell, Callan Monette, Adam Reiss
BBa_K2066502
1
BBa_K2066502
1xTetO Binding Site
2016-08-24T11:00:00Z
2016-08-25T07:55:30Z
This part was synthesized as part of a gBlock / using IDT DNA synthesis. Tet Operator Sequence based off of Addgene Plasmid #17655.
This is an intermediate part used in the construction of WM16 TetO ICA parts (WM16_K2066002-WM16_K2066010). This part contains the TetO repeat sequence used by WM for ICA creation of TetO binding arrays. Tet Operator Sequence based off of Addgene Plasmid #17655. ICA design method based off of Briggs, A. W., Rios, X., Chari, R., Yang, L., Zhang, F., Mali, P., & Church, G. M. (2012). Iterative capped assembly: rapid and scalable synthesis of repeat-module DNA such as TAL effectors from individual monomers. Nucleic acids research, gks624.
false
false
_2534_
27446
27446
9
false
n/a
false
Joseph L Maniaci
BBa_K2066019
1
BBa_K2066019
UNS 3 Sequence, from Torella et al., 2013
2016-07-11T11:00:00Z
2016-10-19T05:43:00Z
Torella, J. P., Boehm, C. R., Lienert, F., Chen, J. H., Way, J. C., & Silver, P. A. (2013). Rapid construction of insulated genetic circuits via synthetic sequence-guided isothermal assembly. Nucleic acids research, gkt860.
This is Unique Nucleotide Sequence 3, (UNS 3), from Torella et al., 2013. The William and Mary iGEM team has adopted this as our standard prefix; as such, all of our parts will have this sequence immediately following the BioBrick prefix. We took this measure in order to allow easier Gibson Assembly cloning of our parts. Primer sequences which can be used to clone with the UNS 2/3 standard can be found on our wiki.
The sequence for this part came from the following paper: Torella, J. P., Boehm, C. R., Lienert, F., Chen, J. H., Way, J. C., & Silver, P. A. (2013). Rapid construction of insulated genetic circuits via synthetic sequence-guided isothermal assembly. Nucleic acids research, gkt860. A huge thanks to all the researchers involved in its original creation!
false
false
_2534_
31544
27446
9
false
This UNS sequence was chosen to serve as the 3' primer in our standard because it works well with UNS 2 and it adheres to the BioBrick standards.
false
Kalen Clifton, Christine Gao, Andrew Halleran, Ethan Jones, Likhitha Kolla, Joseph Maniaci, John Marken, John Mitchell, Callan Monette, Adam Reiss
BBa_K2066021
1
BBa_K2066021
UNS 5 Sequence, from Torella et al., 2013
2016-08-24T11:00:00Z
2016-10-19T05:45:29Z
This part was synthesized as part of a gBlock / using IDT DNA synthesis. Torella, J. P., Boehm, C. R., Lienert, F., Chen, J. H., Way, J. C., & Silver, P. A. (2013). Rapid construction of insulated genetic circuits via synthetic sequence-guided isothermal assembly. Nucleic acids research, gkt860.
This is Unique Nucleotide Sequence 5, (UNS 5), from Torella et al., 2013. The William and Mary iGEM team has adopted this as our standard prefix; as such, all of our parts will have this sequence immediately following the BioBrick prefix. We took this measure in order to allow easier Gibson Assembly cloning of our parts. Primer sequences which can be used to clone with the UNS 2/3 standard can be found on our wiki. The sequence for this part came from the following paper: Torella, J. P., Boehm, C. R., Lienert, F., Chen, J. H., Way, J. C., & Silver, P. A. (2013). Rapid construction of insulated genetic circuits via synthetic sequence-guided isothermal assembly. Nucleic acids research, gkt860. A huge thanks to all the researchers involved in its original creation!
false
false
_2534_
31544
27446
9
false
UNS 5 was chosen along with UNS 4 to serve as primer binding sites which will create an amplicon that contains the base sequence for our ICA monomer but does not contain USN 2 or 3.
false
Joseph L Maniaci
BBa_K2066006
1
BBa_K2066006
Tet Monomer B w/ 16 bp spacer for ICA
2016-10-08T11:00:00Z
2016-10-12T12:01:22Z
ICA method and sequence design based on Briggs et al., 2012 and its supplement. Briggs, A. W., Rios, X., Chari, R., Yang, L., Zhang, F., Mali, P., & Church, G. M. (2012). Iterative capped assembly: rapid and scalable synthesis of repeat-module DNA such as TAL effectors from individual monomers. Nucleic acids research, gks624. The UNS2, UNS3, UNS 4, and UNS 5 sequences are taken from Torella et al. 2013 and are ideal for cloning long sequences of monomers. Torella, J. P., Boehm, C. R., Lienert, F., Chen, J. H., Way, J. C., & Silver, P. A. (2013). Rapid construction of insulated genetic circuits via synthetic sequence-guided isothermal assembly. Nucleic acids research, gkt860.
The part is flanked by UNS 2 and UNS 3 as per the WM UNS gibson cloning standard. This part is the TetO, 16BP spacer 'B' monomer for use in ICA to create repeated TetO Arrays of variable length. The monomer can be PCR amplified using UNS 4 and UNS 5 PCR landing pads. Next, the part should cut with BsmBI restriction enzyme to expose sticky ends and used to extend monomer in ICA. Monomer B (this part) can bind to Monomer A. This part contains the following: UNS 2 (WM standard gibson/amplification primer site) ??? UNS 4 (used to provide orthogonal amplification of monomers alone) ??? BsmBI site ??? sticky end 2 - Tet Repeat ??? 16 bp spacer (taken as first 16 bp from UNS X) ??? BsmBI site ??? Sticky end 3 - UNS 5 (orthogonal amplification in conjunction with UNS 4) ??? UNS 3 (WM standard gibson/amplification primer site).
ICA method and sequence design based on Briggs et al., 2012 and its supplement.
Briggs, A. W., Rios, X., Chari, R., Yang, L., Zhang, F., Mali, P., & Church, G. M. (2012). Iterative capped assembly: rapid and scalable synthesis of repeat-module DNA such as TAL effectors from individual monomers. Nucleic acids research, gks624.
The UNS2, UNS3, UNS 4, and UNS 5 sequences are taken from Torella et al. 2013 and are ideal for cloning long sequences of monomers.
Torella, J. P., Boehm, C. R., Lienert, F., Chen, J. H., Way, J. C., & Silver, P. A. (2013). Rapid construction of insulated genetic circuits via synthetic sequence-guided isothermal assembly. Nucleic acids research, gkt860.
false
false
_2534_
27446
27446
9
false
Design of monomer part was based off of TALEN monomer design in Briggs et al., 2012.
false
Kalen Clifton, Christine Gao, Andrew Halleran, Ethan Jones, Likhitha Kolla, Joseph Maniaci, John Marken, John Mitchell, Callan Monette, Adam Reiss
component2494475
1
BBa_K2066514
component2494474
1
BBa_K2066502
component2494477
1
BBa_K2066021
component2494473
1
BBa_K2066504
component2494476
1
BBa_K2066505
component2494472
1
BBa_K2066020
component2494471
1
BBa_K2066018
component2494478
1
BBa_K2066019
annotation2494478
1
BBa_K2066019
range2494478
1
178
217
annotation2494475
1
BBa_K2066514
range2494475
1
111
126
annotation2494474
1
BBa_K2066502
range2494474
1
92
110
annotation2494473
1
BBa_K2066504
range2494473
1
81
91
annotation2494476
1
BBa_K2066505
range2494476
1
127
137
annotation2494472
1
BBa_K2066020
range2494472
1
41
80
annotation2494471
1
BBa_K2066018
range2494471
1
1
40
annotation2494477
1
BBa_K2066021
range2494477
1
138
177
BBa_K2066020
1
BBa_K2066020
UNS 4 Sequence, from Torella et al., 2013
2016-08-24T11:00:00Z
2016-10-19T05:44:31Z
This part was synthesized as part of a gBlock / using IDT DNA synthesis. Torella, J. P., Boehm, C. R., Lienert, F., Chen, J. H., Way, J. C., & Silver, P. A. (2013). Rapid construction of insulated genetic circuits via synthetic sequence-guided isothermal assembly. Nucleic acids research, gkt860.
This is Unique Nucleotide Sequence 4, (UNS 4), from Torella et al., 2013. The William and Mary iGEM team has adopted this as our standard prefix; as such, all of our parts will have this sequence immediately following the BioBrick prefix. We took this measure in order to allow easier Gibson Assembly cloning of our parts. Primer sequences which can be used to clone with the UNS 2/3 standard can be found on our wiki.
The sequence for this part came from the following paper: Torella, J. P., Boehm, C. R., Lienert, F., Chen, J. H., Way, J. C., & Silver, P. A. (2013). Rapid construction of insulated genetic circuits via synthetic sequence-guided isothermal assembly. Nucleic acids research, gkt860. A huge thanks to all the researchers involved in its original creation!
false
false
_2534_
31544
27446
9
false
UNS 4 was chosen along with UNS 5 to serve as primer binding sites which will create an amplicon that contains the base sequence for our ICA monomer but does not contain USN 2 or 3.
false
Kalen Clifton, Christine Gao, Andrew Halleran, Ethan Jones, Likhitha Kolla, Joseph Maniaci, John Marken, John Mitchell, Callan Monette, Adam Reiss
BBa_K2066019_sequence
1
gcactgaaggtcctcaatcgcactggaaacatcaaggtcg
BBa_K2066505_sequence
1
cgtctcgactt
BBa_K2066006_sequence
1
gctgggagttcgtagacggaaacaaacgcagaatccaagcctgacctcctgccagcaatagtaagacaacacgcaaagtccgtctcggctatccctatcagtgatagagaccaggatacatagattcgtctcgacttgagccaactccctttacaacctcactcaagtccgttagaggcactgaaggtcctcaatcgcactggaaacatcaaggtcg
BBa_K2066514_sequence
1
ccaggatacatagatt
BBa_K2066018_sequence
1
gctgggagttcgtagacggaaacaaacgcagaatccaagc
BBa_K2066502_sequence
1
tccctatcagtgatagaga
BBa_K2066504_sequence
1
cgtctcggcta
BBa_K2066020_sequence
1
ctgacctcctgccagcaatagtaagacaacacgcaaagtc
BBa_K2066021_sequence
1
gagccaactccctttacaacctcactcaagtccgttagag
igem2sbol
1
iGEM to SBOL conversion
Conversion of the iGEM parts registry to SBOL2.1
James Alastair McLaughlin
Chris J. Myers
2017-03-06T15:00:00.000Z