BBa_K1039003 1 Bxb1-int Bxb1 integrase 2013-07-07T11:00:00Z 2015-05-08T01:08:50Z Ghosh P, Kim AI, Hatfull GF. The orientation of mycobacteriophage Bxb1 inte- gration is solely dependent on the central dinucleotide of attP and attB. Molecular Cell 2003, 12:1101???1111. In nature, serine integrases allow phages to integrate into the bacterial genome by site-specific recombination between attachment sites on the phage and bacterial genomes (attP and attB), both of which are between 30 and 60 bp depending which phage serine integrase is considered. Recombination between attP and attB leaves behind left and right attachment sites (attL and attR), which cannot be acted upon by Int alone. Thus, in the presence of Int alone, this recombination is irreversible (1). false false _1346_ 0 14183 9 In stock false ... false Aaron Bender BBa_I714036 1 BBa_I714036 Riboregulator key 1 2007-10-24T11:00:00Z 2015-08-31T04:07:47Z J01008 Released HQ 2013 The same as J01008 false false _142_ 0 1911 9 In stock false The Isaacs key1 riboregulator taR12 is modeled on the hok/sok post-segregational killing method of plasmid R1. It makes 25 base pairs with its counterpart, the riboregulator J01010 (aka "lock 1" or "crR12"). Isaacs documentation (see reference #1): Upon induction of the araC promoter (using 0.25% arabinose solution), the taR12 key activated the corresponding crR12 lock to express the downstream indicator, GFP, to levels of fluorescence 19-fold greater than without taR12 expression. Maximal expression was reached at 70 minutes after addition of arabinose solution, and was maintained after that point. false Chunbo Lou BBa_K1039021 1 BBa_K1039021 Bxb1 integrase and Recombination Directionality Factor (RDF) Under ???Lock and Key??? Control with L 2013-09-12T11:00:00Z 2015-05-08T01:08:50Z BBa_I714036, BBa_R0011, BBa_J23119 and BBa_Q04121 were obtained from the iGEM 2013 distribution kit. The rest of the biobricks were synthesized by BioBasic Inc. Bxb1 integrase (BBa_K1039003) and lacI repressor (BBa_Q04121) are under the constitutive strong promoter BBa_J23119. Key (BBa_I714036) and Bxb1 RDF (BBa_K1039006) are under the lac inducible promoter BBa_R0011. Bxb1 integrase (BBa_K1039003) and recombination directionality factor (RDF) (BBa_K1039006) with ribosome binding sites associated with the cis-repressive RNA ???lock??? (BBa_J01010), so translation is inhibited. The trans-activating RNA ???key??? (BBa_I714036) can displace the lock and allows translation. Together, Bxb1 integrase and RDF (BBa_K1039003 and BBa_K1039006) catalyze site-specific recombination between Bxb1 attR and attL sites (Bba_K1039033 and Bba_K1039034) They will also allow flipping of Bxb1 invertible promoter switches BBa_K1039004 and BBa_K1039004 from RL state to PB state. Lock and key regulate BXB1 integrase and BRDF expression. BXB1 integrase and BRDF???s expression is blocked by lock. Key expression is controlled by a lacI repressor, upon IPTG addition to the media, key will be expressed, which then unlocks BXB1 integrase and BRDF. false false _1346_ 0 18339 9 Not in stock false Bxb1 Integrase (BBa_K1039003) has the following three silent mutations, to remove forbidden restriction sites, base 273 G->A, base 1269 A->T and base 1440 G->A false Jama Hagi-Yusuf component2340545 1 BBa_J23119 component2340594 1 BBa_K1039006 component2340587 1 BBa_R0011 component2340574 1 BBa_R0011 component2340566 1 BBa_K1039003 component2340579 1 BBa_I714036 component2340565 1 BBa_J01010 component2340573 1 BBa_B0015 component2340564 1 BBa_Q04121 component2340592 1 BBa_J01010 component2340586 1 BBa_B0015 annotation2340545 1 BBa_J23119 range2340545 1 1 35 annotation2340579 1 BBa_I714036 range2340579 1 3180 3273 annotation2340587 1 BBa_R0011 range2340587 1 3419 3472 annotation2340565 1 BBa_J01010 range2340565 1 1423 1462 annotation2340573 1 BBa_B0015 range2340573 1 2980 3108 annotation2340586 1 BBa_B0015 range2340586 1 3282 3410 annotation2340566 1 BBa_K1039003 range2340566 1 1469 2971 annotation2340564 1 BBa_Q04121 range2340564 1 44 1414 annotation2340574 1 BBa_R0011 range2340574 1 3117 3170 annotation2340594 1 BBa_K1039006 range2340594 1 3528 4295 annotation2340592 1 BBa_J01010 range2340592 1 3482 3521 BBa_C0012 1 lacI lacI repressor from E. coli (+LVA) 2003-01-31T12:00:00Z 2015-08-31T04:07:23Z represillator of Elowitz and Leibler (2000) Released HQ 2013 Coding region for the LacI protein with an LVA degradation tail and without an RBS. LacI binds to the pLac regulator <bb_part>BBa_R0010</bb_part> and PLlac01 hybrid regulator <bb_part>BBa_R0011</bb_part> and inhibits transcription. IPTG (Isopropylthiogalactoside) binds to LacI and inhibits its operation, therefore promoting transcription.</P> <P>A rapid degredation tail (LVA) has been added to improve the High to Low performance of this part.</P> false false _1_ 0 24 7 In stock false References (unparsed) here: <p>Elowitz, M.B., Leibler, S. A synthetic oscillatory network of transcriptional regulators. <em>Nature</em> 403, 335-338 (2000). <a href="http://biobricks.ai.mit.edu/BB_References.htm#ELOW00">[ELOW00]</a><br> <br> </P> <P> References (unparsed) here: <p>Elowitz, M.B., Leibler, S. A synthetic oscillatory network of transcriptional regulators. <em>Nature</em> 403, 335-338 (2000). <a href="http://biobricks.ai.mit.edu/BB_References.htm#ELOW00">[ELOW00]</a><br> <br> </P> <P>Sequence taken from the repressilator of Elowitz and Leibler (2000). The obtained sequence was compared to the wild-type sequence for LacI obtained through a database search. The sequence had been modified from the wild-type in that wild-type GTG start was changed to an ATG start (note, actual ORF in E.coli has several GTG starts it would seem). The LVA tag has been added for quicker degradation.<P> Incompatible with systems containing LacI, lactose, or IPTG. true Grace Kenney, Daniel Shen, Neelaksh Varshney, Samantha Sutton annotation2213988 1 Help:Barcodes range2213988 1 1129 1153 annotation1723 1 lacI-LVA range1723 1 1 1128 annotation1722 1 LVA range1722 1 1090 1128 annotation7031 1 BBa_C0012 range7031 1 1 1128 BBa_B0010 1 BBa_B0010 T1 from E. coli rrnB 2003-11-19T12:00:00Z 2015-08-31T04:07:20Z Transcriptional terminator consisting of a 64 bp stem-loop. false false _1_ 0 24 7 In stock false true Randy Rettberg annotation4184 1 stem_loop range4184 1 12 55 annotation7018 1 BBa_B0010 range7018 1 1 80 BBa_B0015 1 BBa_B0015 double terminator (B0010-B0012) 2003-07-16T11:00:00Z 2015-08-31T04:07:20Z Released HQ 2013 Double terminator consisting of BBa_B0010 and BBa_B0012 false true _1_ 0 24 7 In stock false true Reshma Shetty component1916610 1 BBa_B0010 component1916612 1 BBa_B0012 annotation1916612 1 BBa_B0012 range1916612 1 89 129 annotation1916610 1 BBa_B0010 range1916610 1 1 80 BBa_B0012 1 BBa_B0012 TE from coliphageT7 2003-01-31T12:00:00Z 2015-08-31T04:07:20Z Derived from the TE terminator of T7 bacteriophage between Genes 1.3 and 1.4 <genbank>V01146</genbank>. Released HQ 2013 Transcription terminator for the <i>E.coli</i> RNA polymerase. false false _1_ 0 24 7 In stock false <P> <P>Suggested by Sri Kosuri and Drew Endy as a high efficiency terminator. The 5' end cutoff was placed immediately after the TAA stop codon and the 3' end cutoff was placed just prior to the RBS of Gene 1.4 (before AAGGAG).<P> Use anywhere transcription should be stopped when the gene of interest is upstream of this terminator. false Reshma Shetty annotation7020 1 BBa_B0012 range7020 1 1 41 annotation1687 1 stop range1687 1 34 34 annotation1686 1 T7 TE range1686 1 8 27 annotation1690 1 polya range1690 1 28 41 BBa_K1039006 1 BBa_K1039006 Bxb1 Recombination Directionality Factor 2013-09-09T11:00:00Z 2015-05-08T01:08:50Z The sequence was designed by Bonnet lab at the Department of Bioengineering, Stanford University, and was further modified by Waterloo team. This is the recombination directionality factor (RDF) that acts with Bxb1 serine integrase. It reverses the recombination directionality of Bxb1 integrase (BBa_K1039003). In concert with Bxb1 RDF, Bxb1 integrase (BBa_K1039003) catalyzes site-specific recombination between Bxb1 attR and attL sites, to produce Bxb1 attP and attB sites. This recombination is uni-directional, i.e. attP and attB cannot be recombined to produce attL and attR in the presence of Bxb1 integrase and RDF. In concert with Bxb1 RDF (BBa_K1039006), Bxb1 integrase can be used to flip the Bxb1 invertible promoter switches BBa_K1039004 and BBa_K1039005 from RL state to PB state. false false _1346_ 0 14649 9 In stock false to be written later. false Urooj Kishor annotation2339258 1 Bxb1 RDF range2339258 1 1 768 BBa_J01010 1 Lock 1 Riboregulator Lock 1 2005-11-05T12:00:00Z 2015-08-31T04:08:12Z Biobricked version of Isaacs' riboregulator cis repressed lock, crR12. false false _13_ 0 395 13 In stock false false Golden Bear BBa_B0034 1 BBa_B0034 RBS (Elowitz 1999) -- defines RBS efficiency 2003-01-31T12:00:00Z 2015-08-31T04:07:20Z Released HQ 2013 RBS based on Elowitz repressilator. false true _1_ 0 24 7 In stock false Varies from -6 to +1 region from original sequence to accomodate BioBricks suffix. <p>No secondary structures are formed in the given RBS region. Users should check for secondary structures induced in the RBS by upstream and downstream elements in the +50 to -50 region, as such structures will greatly affect the strength of the RBS. Contact info for this part: <a href="mailto:(bchow@media.mit.edu)">Brian Chow</a> true Vinay S Mahajan, Voichita D. Marinescu, Brian Chow, Alexander D Wissner-Gross and Peter Carr IAP, 2003. annotation23325 1 conserved range23325 1 5 8 BBa_J23119 1 BBa_J23119 constitutive promoter family member 2006-08-23T11:00:00Z 2015-08-31T04:08:40Z Overlap extension of synthetic oligonucleotides Released HQ 2013 Later false true _52_ 0 483 95 In stock false N/A true John Anderson BBa_R0011 1 lacI+pL Promoter (lacI regulated, lambda pL hybrid) 2003-01-31T12:00:00Z 2015-05-08T01:14:14Z represillator of Elowitz and Leibler (2000) Released HQ 2013 Inverting regulatory region controlled by LacI (<bb_part>BBa_C0010</bb_part>, <bb_part>BBa_C0011</bb_part>, etc.) <p> The PLlac 0-1 promoter is a hybrid regulatory region consisting of the promoter P(L) of phage lambda with the cI binding sites replaced with lacO1. The hybrid design allows for strong promotion that can nevertheless be tightly repressed by LacI, the Lac inhibitor (i.e. repressor) (<bb_part>BBa_C0010</bb_part>) ([LUTZ97]). The activity of the promoter can be regulated over a >600-fold range by IPTG in E.Coli DH5-alpha-Z1 (same paper reference). false true _1_ 0 24 7 In stock false <P> <P>hybrid promoter design to create strong promoter that is, at the same time, highly repressible. note that the upstream operator installed in this hybrid is slightly different than the one in the original source (Lutz and Bujard, 1997). the most upstream operator region is slightly truncated in the represillator version, so that both operators in the hybrid are the same sequence. see references for details. also, the sequence has been truncated after the transcriptional start site.<P>LacI binds to this regulator. This part is incompatible with species containing active LacI coding regions. Lactose and IPTG disable the operation of LacI and increase transcription. This part is incompatible with environments containing lactose or lactose analogs. true Neelaksh Varshney, Grace Kenney, Daniel Shen, Samantha Sutton annotation2002 1 -10 range2002 1 43 48 annotation2000 1 -35 range2000 1 20 25 annotation2001 1 lac O1 range2001 1 26 42 annotation7064 1 BBa_R0011 range7064 1 1 54 annotation1999 1 lac O1 range1999 1 3 19 BBa_Q04121 1 lacI QPI (B0034.C0012.B0015.R0011) 2003-12-02T12:00:00Z 2015-05-08T01:14:13Z Released HQ 2013 LacI QPI with strong RBS, hybrid promoter false false _1_ 0 24 7 In stock false true Caitlin Conboy component2221136 1 BBa_C0012 component2221134 1 BBa_B0034 component2221146 1 BBa_R0011 component2221145 1 BBa_B0015 annotation2221145 1 BBa_B0015 range2221145 1 1180 1308 annotation2221146 1 BBa_R0011 range2221146 1 1317 1370 annotation2221136 1 BBa_C0012 range2221136 1 19 1146 annotation2221134 1 BBa_B0034 range2221134 1 1 12 BBa_B0034_sequence 1 aaagaggagaaa BBa_J23119_sequence 1 ttgacagctagctcagtcctaggtataatgctagc BBa_B0010_sequence 1 ccaggcatcaaataaaacgaaaggctcagtcgaaagactgggcctttcgttttatctgttgtttgtcggtgaacgctctc BBa_Q04121_sequence 1 aaagaggagaaatactagatggtgaatgtgaaaccagtaacgttatacgatgtcgcagagtatgccggtgtctcttatcagaccgtttcccgcgtggtgaaccaggccagccacgtttctgcgaaaacgcgggaaaaagtggaagcggcgatggcggagctgaattacattcccaaccgcgtggcacaacaactggcgggcaaacagtcgttgctgattggcgttgccacctccagtctggccctgcacgcgccgtcgcaaattgtcgcggcgattaaatctcgcgccgatcaactgggtgccagcgtggtggtgtcgatggtagaacgaagcggcgtcgaagcctgtaaagcggcggtgcacaatcttctcgcgcaacgcgtcagtgggctgatcattaactatccgctggatgaccaggatgccattgctgtggaagctgcctgcactaatgttccggcgttatttcttgatgtctctgaccagacacccatcaacagtattattttctcccatgaagacggtacgcgactgggcgtggagcatctggtcgcattgggtcaccagcaaatcgcgctgttagcgggcccattaagttctgtctcggcgcgtctgcgtctggctggctggcataaatatctcactcgcaatcaaattcagccgatagcggaacgggaaggcgactggagtgccatgtccggttttcaacaaaccatgcaaatgctgaatgagggcatcgttcccactgcgatgctggttgccaacgatcagatggcgctgggcgcaatgcgcgccattaccgagtccgggctgcgcgttggtgcggatatctcggtagtgggatacgacgataccgaagacagctcatgttatatcccgccgttaaccaccatcaaacaggattttcgcctgctggggcaaaccagcgtggaccgcttgctgcaactctctcagggccaggcggtgaagggcaatcagctgttgcccgtctcactggtgaaaagaaaaaccaccctggcgcccaatacgcaaaccgcctctccccgcgcgttggccgattcattaatgcagctggcacgacaggtttcccgactggaaagcgggcaggctgcaaacgacgaaaactacgctttagtagcttaataactctgatagtgctagtgtagatctctactagagccaggcatcaaataaaacgaaaggctcagtcgaaagactgggcctttcgttttatctgttgtttgtcggtgaacgctctctactagagtcacactggctcaccttcgggtgggcctttctgcgtttatatactagagaattgtgagcggataacaattgacattgtgagcggataacaagatactgagcaca BBa_K1039003_sequence 1 atgagagccctggtagtcatccgcctgtcccgcgtcaccgatgctacgacttcaccggagcgtcagctggagtcttgccagcagctctgcgcccagcgcggctgggacgtcgtcggggtagcggaggatctggacgtctccggggcggtcgatccgttcgaccggaagcgcagaccgaacctggcccggtggctagcgttcgaggagcaaccgttcgacgtgatcgtggcgtaccgggtagaccggttgacccgatcgatccggcatctgcaacagctggtccactgggccgaggaccacaagaagctggtcgtctccgcgaccgaagcgcacttcgatacgacgacgccgtttgcggcggtcgtcatcgcgcttatgggaacggtggcgcagatggaattagaagcgatcaaagagcggaaccgttcggctgcgcatttcaatatccgcgccgggaaataccgaggatccctgccgccgtggggatacctgcctacgcgcgtggacggggagtggcggctggtgccggaccctgtgcagcgagagcgcatcctcgaggtgtatcaccgcgtcgtcgacaaccacgagccgctgcacctggtggcccacgacctgaaccggcgtggtgtcctgtcgccgaaggactacttcgcgcagctgcaaggccgcgagccgcagggccgggagtggtcggctaccgcgctgaagcgatcgatgatctccgaggcgatgctcgggtacgcgactctgaacggtaagaccgtccgagacgacgacggagccccgctggtgcgggctgagccgatcctgacccgtgagcagctggaggcgctgcgcgccgagctcgtgaagacctcccgggcgaagcccgcggtgtctaccccgtcgctgctgctgcgggtgttgttctgcgcggtgtgcggggagcccgcgtacaagttcgccgggggaggacgtaagcacccgcgctaccgctgccgctcgatggggttcccgaagcactgcgggaacggcacggtggcgatggccgagtgggacgcgttctgcgaggagcaggtgctggatctgctcggggacgcggagcgtctggagaaagtctgggtagccggctcggactccgcggtcgaactcgcggaggtgaacgcggagctggtggacctgacgtcgctgatcggctccccggcctaccgggccggctctccgcagcgagaagcactggatgcccgtattgcggcgctggccgcgcggcaagaggagctggagggtcttgaggctcgcccgtctggctgggagtggcgcgagaccgggcagcggttcggggactggtggcgggagcaggacaccgcggcaaagaacacctggcttcggtcgatgaacgttcggctgacgttcgacgtccgcggcgggctgactcgcacgatcgacttcggggatctgcaagagtacgagcagcatctcaggctcggcagcgtggtcgaacggctacacaccgggatgtcgtag BBa_K1039006_sequence 1 atgactcagcgtatcgtctttctacccgatactcagttgcctttcgaggcgcgcaaagagatgcaagcggtcatccgcttcatcggggatgtccagccgtacggcgtggtacatatcggtgacgtcctagacctgccgcagccctcgcgctggaaccggggaaccaagggcgagttcgagggctcggtgtaccgcgacgcggactacgccaagaagaacctgatggagccgctgcgcaaggtctacgacggctggatcgggatgcacgagggcaaccacgatctgcgagcccgcgagtacctggccaagaacgcaccggccctggagggtacgcacgctttcgacatcgacgtgctgctcgacttcgacgggttcggtgtggagctgctgcctgacttctacgacatcgctccgggctggatctccactcacgggcacatgggcaagatgacgctatcccagatcgccggatcgacagcgctcaacggtgccaagaagttcggcaagtccgtggtctgcggccacacgcaccggcaggctgtcgtctcgcactcgttcgggtacggcggctcggtgcgcaagaccgtcaccggcatggaagtcgggcacctgatggacatgaagaaggccaactatctaaagggcggagccgggaactggcagatgggcttcgggatgctcacggtcgacggcaagcatgtcaaggctgagatcgtcccgatcctgggaggcaagttcaccgttgacggccaggtctgggaagtctga BBa_K1039021_sequence 1 ttgacagctagctcagtcctaggtataatgctagctactagagaaagaggagaaatactagatggtgaatgtgaaaccagtaacgttatacgatgtcgcagagtatgccggtgtctcttatcagaccgtttcccgcgtggtgaaccaggccagccacgtttctgcgaaaacgcgggaaaaagtggaagcggcgatggcggagctgaattacattcccaaccgcgtggcacaacaactggcgggcaaacagtcgttgctgattggcgttgccacctccagtctggccctgcacgcgccgtcgcaaattgtcgcggcgattaaatctcgcgccgatcaactgggtgccagcgtggtggtgtcgatggtagaacgaagcggcgtcgaagcctgtaaagcggcggtgcacaatcttctcgcgcaacgcgtcagtgggctgatcattaactatccgctggatgaccaggatgccattgctgtggaagctgcctgcactaatgttccggcgttatttcttgatgtctctgaccagacacccatcaacagtattattttctcccatgaagacggtacgcgactgggcgtggagcatctggtcgcattgggtcaccagcaaatcgcgctgttagcgggcccattaagttctgtctcggcgcgtctgcgtctggctggctggcataaatatctcactcgcaatcaaattcagccgatagcggaacgggaaggcgactggagtgccatgtccggttttcaacaaaccatgcaaatgctgaatgagggcatcgttcccactgcgatgctggttgccaacgatcagatggcgctgggcgcaatgcgcgccattaccgagtccgggctgcgcgttggtgcggatatctcggtagtgggatacgacgataccgaagacagctcatgttatatcccgccgttaaccaccatcaaacaggattttcgcctgctggggcaaaccagcgtggaccgcttgctgcaactctctcagggccaggcggtgaagggcaatcagctgttgcccgtctcactggtgaaaagaaaaaccaccctggcgcccaatacgcaaaccgcctctccccgcgcgttggccgattcattaatgcagctggcacgacaggtttcccgactggaaagcgggcaggctgcaaacgacgaaaactacgctttagtagcttaataactctgatagtgctagtgtagatctctactagagccaggcatcaaataaaacgaaaggctcagtcgaaagactgggcctttcgttttatctgttgtttgtcggtgaacgctctctactagagtcacactggctcaccttcgggtgggcctttctgcgtttatatactagagaattgtgagcggataacaattgacattgtgagcggataacaagatactgagcacatactagagaactagaatcacctcttggatttgggtattaaagaggagatactagatgagagccctggtagtcatccgcctgtcccgcgtcaccgatgctacgacttcaccggagcgtcagctggagtcttgccagcagctctgcgcccagcgcggctgggacgtcgtcggggtagcggaggatctggacgtctccggggcggtcgatccgttcgaccggaagcgcagaccgaacctggcccggtggctagcgttcgaggagcaaccgttcgacgtgatcgtggcgtaccgggtagaccggttgacccgatcgatccggcatctgcaacagctggtccactgggccgaggaccacaagaagctggtcgtctccgcgaccgaagcgcacttcgatacgacgacgccgtttgcggcggtcgtcatcgcgcttatgggaacggtggcgcagatggaattagaagcgatcaaagagcggaaccgttcggctgcgcatttcaatatccgcgccgggaaataccgaggatccctgccgccgtggggatacctgcctacgcgcgtggacggggagtggcggctggtgccggaccctgtgcagcgagagcgcatcctcgaggtgtatcaccgcgtcgtcgacaaccacgagccgctgcacctggtggcccacgacctgaaccggcgtggtgtcctgtcgccgaaggactacttcgcgcagctgcaaggccgcgagccgcagggccgggagtggtcggctaccgcgctgaagcgatcgatgatctccgaggcgatgctcgggtacgcgactctgaacggtaagaccgtccgagacgacgacggagccccgctggtgcgggctgagccgatcctgacccgtgagcagctggaggcgctgcgcgccgagctcgtgaagacctcccgggcgaagcccgcggtgtctaccccgtcgctgctgctgcgggtgttgttctgcgcggtgtgcggggagcccgcgtacaagttcgccgggggaggacgtaagcacccgcgctaccgctgccgctcgatggggttcccgaagcactgcgggaacggcacggtggcgatggccgagtgggacgcgttctgcgaggagcaggtgctggatctgctcggggacgcggagcgtctggagaaagtctgggtagccggctcggactccgcggtcgaactcgcggaggtgaacgcggagctggtggacctgacgtcgctgatcggctccccggcctaccgggccggctctccgcagcgagaagcactggatgcccgtattgcggcgctggccgcgcggcaagaggagctggagggtcttgaggctcgcccgtctggctgggagtggcgcgagaccgggcagcggttcggggactggtggcgggagcaggacaccgcggcaaagaacacctggcttcggtcgatgaacgttcggctgacgttcgacgtccgcggcgggctgactcgcacgatcgacttcggggatctgcaagagtacgagcagcatctcaggctcggcagcgtggtcgaacggctacacaccgggatgtcgtagtactagagccaggcatcaaataaaacgaaaggctcagtcgaaagactgggcctttcgttttatctgttgtttgtcggtgaacgctctctactagagtcacactggctcaccttcgggtgggcctttctgcgtttatatactagagaattgtgagcggataacaattgacattgtgagcggataacaagatactgagcacatactagagacccaaatccaggaggtgaatctagtaggtggttaatgaaaattaacttacttactagaaatatctctaaaaagccagattattaatccggctttactagagccaggcatcaaataaaacgaaaggctcagtcgaaagactgggcctttcgttttatctgttgtttgtcggtgaacgctctctactagagtcacactggctcaccttcgggtgggcctttctgcgtttatatactagagaattgtgagcggataacaattgacattgtgagcggataacaagatactgagcacatactagagaactagaatcacctcttggatttgggtattaaagaggagatactagatgactcagcgtatcgtctttctacccgatactcagttgcctttcgaggcgcgcaaagagatgcaagcggtcatccgcttcatcggggatgtccagccgtacggcgtggtacatatcggtgacgtcctagacctgccgcagccctcgcgctggaaccggggaaccaagggcgagttcgagggctcggtgtaccgcgacgcggactacgccaagaagaacctgatggagccgctgcgcaaggtctacgacggctggatcgggatgcacgagggcaaccacgatctgcgagcccgcgagtacctggccaagaacgcaccggccctggagggtacgcacgctttcgacatcgacgtgctgctcgacttcgacgggttcggtgtggagctgctgcctgacttctacgacatcgctccgggctggatctccactcacgggcacatgggcaagatgacgctatcccagatcgccggatcgacagcgctcaacggtgccaagaagttcggcaagtccgtggtctgcggccacacgcaccggcaggctgtcgtctcgcactcgttcgggtacggcggctcggtgcgcaagaccgtcaccggcatggaagtcgggcacctgatggacatgaagaaggccaactatctaaagggcggagccgggaactggcagatgggcttcgggatgctcacggtcgacggcaagcatgtcaaggctgagatcgtcccgatcctgggaggcaagttcaccgttgacggccaggtctgggaagtctga BBa_C0012_sequence 1 atggtgaatgtgaaaccagtaacgttatacgatgtcgcagagtatgccggtgtctcttatcagaccgtttcccgcgtggtgaaccaggccagccacgtttctgcgaaaacgcgggaaaaagtggaagcggcgatggcggagctgaattacattcccaaccgcgtggcacaacaactggcgggcaaacagtcgttgctgattggcgttgccacctccagtctggccctgcacgcgccgtcgcaaattgtcgcggcgattaaatctcgcgccgatcaactgggtgccagcgtggtggtgtcgatggtagaacgaagcggcgtcgaagcctgtaaagcggcggtgcacaatcttctcgcgcaacgcgtcagtgggctgatcattaactatccgctggatgaccaggatgccattgctgtggaagctgcctgcactaatgttccggcgttatttcttgatgtctctgaccagacacccatcaacagtattattttctcccatgaagacggtacgcgactgggcgtggagcatctggtcgcattgggtcaccagcaaatcgcgctgttagcgggcccattaagttctgtctcggcgcgtctgcgtctggctggctggcataaatatctcactcgcaatcaaattcagccgatagcggaacgggaaggcgactggagtgccatgtccggttttcaacaaaccatgcaaatgctgaatgagggcatcgttcccactgcgatgctggttgccaacgatcagatggcgctgggcgcaatgcgcgccattaccgagtccgggctgcgcgttggtgcggatatctcggtagtgggatacgacgataccgaagacagctcatgttatatcccgccgttaaccaccatcaaacaggattttcgcctgctggggcaaaccagcgtggaccgcttgctgcaactctctcagggccaggcggtgaagggcaatcagctgttgcccgtctcactggtgaaaagaaaaaccaccctggcgcccaatacgcaaaccgcctctccccgcgcgttggccgattcattaatgcagctggcacgacaggtttcccgactggaaagcgggcaggctgcaaacgacgaaaactacgctttagtagcttaataactctgatagtgctagtgtagatctc BBa_J01010_sequence 1 aactagaatcacctcttggatttgggtattaaagaggaga BBa_B0012_sequence 1 tcacactggctcaccttcgggtgggcctttctgcgtttata BBa_R0011_sequence 1 aattgtgagcggataacaattgacattgtgagcggataacaagatactgagcaca BBa_I714036_sequence 1 acccaaatccaggaggtgaatctagtaggtggttaatgaaaattaacttacttactagaaatatctctaaaaagccagattattaatccggctt BBa_B0015_sequence 1 ccaggcatcaaataaaacgaaaggctcagtcgaaagactgggcctttcgttttatctgttgtttgtcggtgaacgctctctactagagtcacactggctcaccttcgggtgggcctttctgcgtttata 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