BBa_K592009 1 amilCP amilCP, blue chromoprotein 2011-09-17T11:00:00Z 2015-05-08T01:12:48Z Acropora millepora Released HQ 2013 This chromoprotein, amilCP, naturally exhibits very strong color when expressed. The color is blue/purple and is visible to naked eye, thereby requiring no instruments to observe. This DNA was provided by Jeffrey Miller at UCLA. It was made BioBrick-compatible after removal of one illegal internal restriction site (EcoRI). false false _763_ 0 7929 9 In stock true Illegal internal restriction site had to be removed (EcoRI). false Lei Sun annotation2131628 1 amilCP range2131628 1 1 666 BBa_K592005 1 FixJ FixJ, the response regulator to YF1 2011-09-16T11:00:00Z 2015-05-08T01:12:48Z FixJ comes from the genome of Bradyrhizobium japonicum. FixJ comes from the genome of Bradyrhizobium japonicum. It's the wild-type response regulator to YF1, the blue light-sensing fusion protein. false false _763_ 0 7929 9 It's complicated false The sequence was information was provided by Moffat (Moffat et al. 2009). The DNA was synthesized by GenScript. false Lei Sun annotation2130114 1 FixJ range2130114 1 1 621 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 annotation7018 1 BBa_B0010 range7018 1 1 80 annotation4184 1 stem_loop range4184 1 12 55 BBa_Q04510 1 BBa_Q04510 QPI (B0034.C0051.B0015.R0051) 2003-12-02T12:00:00Z 2015-05-08T01:14:14Z Released HQ 2013 Lambda cI QPI w/ strong RBS false true _1_ 0 24 7 In stock false true Caitlin Conboy and Jennifer Braff component952901 1 BBa_B0010 component952885 1 BBa_B0034 component952926 1 BBa_R0051 component952895 1 BBa_C0051 component952911 1 BBa_B0012 annotation952926 1 BBa_R0051 range952926 1 939 987 annotation952911 1 BBa_B0012 range952911 1 890 930 annotation952895 1 BBa_C0051 range952895 1 19 768 annotation952901 1 BBa_B0010 range952901 1 802 881 annotation952885 1 BBa_B0034 range952885 1 1 12 BBa_R0010 1 LacI promoter (lacI regulated) 2003-01-31T12:00:00Z 2015-05-08T01:14:14Z The Plac insert was PCR'd from the MG1655 strain of E.coli K12. Released HQ 2013 Inverting regulatory region controlled by LacI (<bb_part>BBa_C0010</bb_part>, <bb_part>BBa_C0011</bb_part>, etc.) <p> The pLac regulatory region is a 243 base-pair sequence with standard BioBrick prefix and suffix sections on its ends. It contains two protein binding sites: CAP, which is generally present in E.coli and is assocciated with cell health and availability of glucose., and LacI, the Lac inhibitor <bb_part>BBa_C0010</bb_part> which binds in an dimerized cooperative manner to inhibit the transcription of the protein that follows. In the presence of lactose or IPTG, an analog of lactose, LacI is unable to correctly bind and inhibit transcription. This allows <bb_part>BBa_R0010</bb_part> to be used as a inverter or as a detector of lactose or IPTG. false true _1_ 0 24 7 In stock false <P> <P><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 this regulator. This part is incompatible with environments containing lactose or lactose analogs. true annotation1961222 1 BBa_R0010 range1961222 1 1 200 annotation1961221 1 end of LacI coding region (inactive) range1961221 1 1 88 annotation1961225 1 -10 range1961225 1 161 166 annotation1961227 1 start range1961227 1 173 173 annotation1961223 1 CAP binding site range1961223 1 89 126 annotation1961224 1 -35 range1961224 1 137 142 annotation1961226 1 LacI binding site range1961226 1 166 200 BBa_K592020 1 BBa_K592020 PFixK2-lambda C1-B0034-amilCP blue light sensor output 2011-09-20T11:00:00Z 2015-05-08T01:12:49Z FixK2 promoter: Bradyrhizibium japonicum amilCP: Acropora millepora Released HQ 2013 FixK2 promoter is the downstream signaling promoter of YF1/FixJ blue light-sensing system. The YF1/FixJ system become "inactive" when illuminated by blue light, and "active" in darkness. Needless to say, a system that works in the opposite way with lights activating and darkness inactivating is more desirable. Therefore, an inverter was placed behind FixK2 promoter. When in dark, YF1 becomes phosphorylated and activates FixJ, its own RR. FixJ in turn binds to FixK2 promoter, allowing the transcription of the lambda C1, thus repressing the amilCP output. In light however, YF1/FixJ has no effect on FixK2 promoter, which in turn has near-zero activity. The lambda C1 concentration drops, eventually amilCP will be produced. false false _763_ 0 7929 9 In stock false The Q04510 inverter contains B0015 double terminator which gives unspecific primer binding of VR. Touchdown PCR was required to amplify the sequence for screening. false Lei Sun component2226767 1 BBa_K592006 component2226789 1 BBa_K592009 component2226787 1 BBa_B0034 component2226785 1 BBa_Q04510 annotation2226785 1 BBa_Q04510 range2226785 1 259 1245 annotation2226787 1 BBa_B0034 range2226787 1 1254 1265 annotation2226767 1 BBa_K592006 range2226767 1 1 250 annotation2226789 1 BBa_K592009 range2226789 1 1272 1940 BBa_C0051 1 cI lam cI repressor from E. coli phage lambda (+LVA) 2003-01-31T12:00:00Z 2015-08-31T04:07:23Z Elowitz, M. B. Transport, Assembly, and Dynamics in Systems of Interacting Proteins. Thesis, Princeton Univ., Princeton (1999). Released HQ 2013 Coding region for the cI repressor based on cI repressor from bacteriophage lambda modified with an LVA tail for rapid degradation of the protein. cI repressor binds to the cI regulator (BBa_R0051).</P> false false _1_ 0 24 7 In stock false References (unparsed) here: <p><a href="http://www.nature.com/cgi-taf/DynaPage.taf?file=/nature/journal/v403/n6767/abs/403335a0_fs.html&dynoptions=doi1043774228">A synthetic oscillatory network of transcriptional regulators</a> , Elowitz M.B. , Leibler S., Nature(403),335-38: 2000</P> <P><a href="http://www.genesdev.org/cgi/content/full/15/22/3013">Octamerization of CI repressor is needed for effective repression of PRM and efficient switching from lysogeny. </a>Ian B. Dodd,1 Alison J. Perkins, Daniel Tsemitsidis, and J. Barry Egan , Genes and Development (Vol 15, No. 22) 3013-3022: 2001</P> <p></p> <P> References (unparsed) here: <p><a href="http://www.nature.com/cgi-taf/DynaPage.taf?file=/nature/journal/v403/n6767/abs/403335a0_fs.html&dynoptions=doi1043774228">A synthetic oscillatory network of transcriptional regulators</a> , Elowitz M.B. , Leibler S., Nature(403),335-38: 2000</P> <P><a href="http://www.genesdev.org/cgi/content/full/15/22/3013">Octamerization of CI repressor is needed for effective repression of PRM and efficient switching from lysogeny. </a>Ian B. Dodd,1 Alison J. Perkins, Daniel Tsemitsidis, and J. Barry Egan , Genes and Development (Vol 15, No. 22) 3013-3022: 2001</P> <p></p> <P>BBa_C0051 cI repressor is based on the cI repressor from the Elowitz's repressilator. It has been modified to include a rapid degradation LAA tail, and includes the BioBrick standard assembly head and tail restriction sites. The RBS has been removed. The stop codon has been changed from TAA to a double stop codon TAATAA.<P> true Vinay S Mahajan, Brian Chow, Peter Carr, Voichita Marinescu and Alexander D. Wissner-Gross annotation2213991 1 Help:Barcodes range2213991 1 751 775 annotation23334 1 cI lambda range23334 1 4 711 annotation23335 1 LVA range23335 1 712 744 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_K592006 1 BBa_K592006 FixK2 promoter 2011-09-16T11:00:00Z 2015-05-08T01:12:48Z FixK2 promoter omes from the genome of Bradyrhizobium japonicum. Released HQ 2013 FixK2 promoter is the wild-type promoter to which phospho-FixJ binds. FixJ in turn can be regulated by YF1, the blue light-sensing protein. This promoter shows very little leaky activity in the absence of FixJ. false false _763_ 0 7929 9 In stock false The sequence information was provided by Moffat (Moffat et al. 2009). The DNA was synthesized by GenScript. false Lei Sun annotation2130179 1 FixK2 promoter range2130179 1 1 250 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_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 annotation1686 1 T7 TE range1686 1 8 27 annotation1690 1 polya range1690 1 28 41 annotation1687 1 stop range1687 1 34 34 BBa_K1363400 1 BBa_K1363400 R0010-K592016-B0015-K502020 2014-10-01T11:00:00Z 2015-05-08T01:10:06Z This part is made up of genes provided from registry. This part consists of a blue light inducing amilCP expression system, where YF1 and FixJ sense the light and lamda CI acts as the not gate to control blue proterin expression. false false _1739_ 0 22736 9 In stock true A strong terminator is added to stop the leaky expression of lamda CI. false Wenhao Yang component2391773 1 BBa_K592016 component2391780 1 BBa_B0015 component2391758 1 BBa_R0010 component2391805 1 BBa_K592020 annotation2391780 1 BBa_B0015 range2391780 1 2013 2141 annotation2391805 1 BBa_K592020 range2391805 1 2150 4089 annotation2391758 1 BBa_R0010 range2391758 1 1 200 annotation2391773 1 BBa_K592016 range2391773 1 209 2004 BBa_K592004 1 YF1 YF1 blue-light sensor protein 2011-09-16T11:00:00Z 2015-05-08T01:12:48Z Ytva comes from the genome of Bacillus subtilis. FixL derives from the genome of Bradyrhizobium japonicum. Released HQ 2013 YF1 is a fusion protein of YtvA (B.subtilis) and FixL(Br.japonicum). It contains the N-terminal region of YtvA (1-127) and C-terminal region of FixL (258-505), interconnected by a helical linker. This fusion protein is designed by Andreas Moglich and Keith Moffat. As shown in previous research, Illumination of the fusion kinase YF1 reduced net kinase activity by &#8764;1000-fold in vitro. YF1 also controls gene expression in a light-dependent manner in vivo. false false _763_ 0 7929 9 In stock false The sequence information was provided in Moglich and Moffat's article. The physical DNA was synthesized by GenScript. Codon-optimization may enhance its expression. false Lei Sun annotation2130111 1 YF1 range2130111 1 1 1131 BBa_R0051 1 cI lam promoter (lambda cI regulated) 2003-01-31T12:00:00Z 2015-05-08T01:14:14Z <a href="http://www.nature.com/cgi-taf/DynaPage.taf?file=/nature/journal/v403/n6767/abs/403335a0_fs.html&dynoptions=doi1043774228">A synthetic oscillatory network of transcriptional regulators</a> , Elowitz M.B. , Leibler S., Nature(403),335-38: 2000 Released HQ 2013 The cI regulated promoter is based on the pR promtoer from bacteriohage lambda. The promoter has two two DNA binding sites for lambda cI repressor <bb_part>BBa_C0051</bb_part>. cI binding results in repression of transcription. The specific sequence used here is based on the cI repressible promoter used in the Elowitz repressilator (and references therein).</P> false true _1_ 0 24 7 In stock false <P> <P>In order to address concerns about the promoter transcribing in the reverse direction, we have removed the -35 and -10 signals responsible for the promoter activity in the reverse direction. (<b><font color="red">More details needed here! DE, 2/24/03</font></b>)<P> Incompatible with host expressing cI repressor. true Vinay S Mahajan, Brian Chow, Peter Carr, Voichita Marinescu and Alexander D. Wissner-Gross annotation7067 1 BBa_R0051 range7067 1 1 49 annotation2023 1 -35 range2023 1 15 20 annotation2022 1 -10 range2022 1 38 43 annotation2024 1 OR1 range2024 1 25 41 annotation2025 1 OR2 range2025 1 1 17 BBa_K592016 1 BBa_K592016 B0034-YF1-B0034-FixJ, blue light sensor and RR with RBS 2011-09-20T11:00:00Z 2015-05-08T01:12:49Z The components that made up of YF1 fusion protein comes from Bradyrhizobium japonicum and Bacillus subtilis. FixJ comes from the genome of Bradyrhizobium japonicum. Released HQ 2013 YF1 works in conjunction with its response regulator, FixJ. This part consists of RBS-coupled YF1 and FixJ without promoter. false false _763_ 0 7929 9 In stock false This constructs Strong RBS to ensure good expression. false Lei Sun component2136339 1 BBa_K592005 component2136333 1 BBa_B0034 component2136337 1 BBa_B0034 component2136335 1 BBa_K592004 annotation2136335 1 BBa_K592004 range2136335 1 19 1149 annotation2136333 1 BBa_B0034 range2136333 1 1 12 annotation2136337 1 BBa_B0034 range2136337 1 1158 1169 annotation2136339 1 BBa_K592005 range2136339 1 1176 1796 BBa_K592016_sequence 1 aaagaggagaaatactagatggctagttttcaatcatttgggataccaggacagctggaagtcatcaaaaaagcacttgatcacgtgcgagtcggtgtggtaattacagatcccgcacttgaagataatcctattgtctacgtaaatcaaggctttgttcaaatgaccggctacgagaccgaggaaattttaggaaagaactgtcgcttcttacaggggaaacacacagatccggcagaagtggacaacatcagaaccgctttacaaaataaagaaccggtcaccgttcagatccaaaactacaaaaaagacggaacgatgttctggaatgaattaaatattgatccaatggaaatagaggataaaacgtattttgtcggcattcagaatgatatcaccgagcaccagcagacccaggcgcgtctccaggaactgcaatccgagctcgtccacgtctccaggctgagcgccatgggcgaaatggcgtccgcgctcgcgcacgagctcaaccagccgctggcggcgatcagcaactacatgaagggctcgcggcggctgcttgccggcagcagtgatccgaacacaccgaaggtcgaaagcgccctggaccgcgccgccgagcaggcgctgcgcgccggccagatcatccggcgcctgcgcgacttcgttgcccgcggcgaatcggagaagcgggtcgagagtctctccaagctgatcgaggaggccggcgcgctcgggcttgccggcgcgcgcgagcagaacgtgcagctccgcttcagtctcgatccgggcgccgatctcgttctcgccgaccgggtgcagatccagcaggtcctggtcaacctgttccgcaacgcgctggaagcgatggctcagtcgcagcgacgcgagctcgtcgtcaccaacacccccgccgccgacgacatgatcgaggtcgaagtgtccgacaccggcagcggtttccaggacgacgtcattccgaacctgtttcagactttcttcaccaccaaggacaccggcatgggcgtgggactgtccatcagccgctcgatcatcgaagctcacggcgggcgcatgtgggccgagagcaacgcatcgggcggggcgaccttccgcttcaccctcccggcagccgacgagaattaataatactagagaaagaggagaaatactagatgacgaccaagggacatatctacgtcatcgacgacgacgcggcgatgcgggattcgctgaatttcctgctggattctgccggcttcggcgtcacgctgtttgacgacgcgcaagcctttctcgacgccctgccgggtctctccttcggctgcgtcgtctccgacgtgcgcatgccgggccttgacggcatcgagctgttgaagcggatgaaggcgcagcaaagcccctttccgatcctcatcatgaccggtcacggcgacgtgccgctcgcggtcgaggcgatgaagttaggggcggtcgactttctggaaaagcctttcgaggacgaccgcctcaccgccatgatcgaatcggcgatccgccaggccgagccggccgccaagagcgaggccgtcgcgcaggatatcgccgcccgcgtcgcctcgttgagccccagggagcgccaggtcatggaagggctgatcgccggcctttccaacaagctgatcgcccgcgagtacgacatcagcccgcgcaccatcgaggtgtatcgggccaacgtcatgaccaagatgcaggccaacagcctttcggagctggttcgcctcgcgatgcgcgccggcatgctcaacgattaataa BBa_R0010_sequence 1 caatacgcaaaccgcctctccccgcgcgttggccgattcattaatgcagctggcacgacaggtttcccgactggaaagcgggcagtgagcgcaacgcaattaatgtgagttagctcactcattaggcaccccaggctttacactttatgcttccggctcgtatgttgtgtggaattgtgagcggataacaatttcacaca BBa_B0034_sequence 1 aaagaggagaaa BBa_R0051_sequence 1 taacaccgtgcgtgttgactattttacctctggcggtgataatggttgc BBa_K592004_sequence 1 atggctagttttcaatcatttgggataccaggacagctggaagtcatcaaaaaagcacttgatcacgtgcgagtcggtgtggtaattacagatcccgcacttgaagataatcctattgtctacgtaaatcaaggctttgttcaaatgaccggctacgagaccgaggaaattttaggaaagaactgtcgcttcttacaggggaaacacacagatccggcagaagtggacaacatcagaaccgctttacaaaataaagaaccggtcaccgttcagatccaaaactacaaaaaagacggaacgatgttctggaatgaattaaatattgatccaatggaaatagaggataaaacgtattttgtcggcattcagaatgatatcaccgagcaccagcagacccaggcgcgtctccaggaactgcaatccgagctcgtccacgtctccaggctgagcgccatgggcgaaatggcgtccgcgctcgcgcacgagctcaaccagccgctggcggcgatcagcaactacatgaagggctcgcggcggctgcttgccggcagcagtgatccgaacacaccgaaggtcgaaagcgccctggaccgcgccgccgagcaggcgctgcgcgccggccagatcatccggcgcctgcgcgacttcgttgcccgcggcgaatcggagaagcgggtcgagagtctctccaagctgatcgaggaggccggcgcgctcgggcttgccggcgcgcgcgagcagaacgtgcagctccgcttcagtctcgatccgggcgccgatctcgttctcgccgaccgggtgcagatccagcaggtcctggtcaacctgttccgcaacgcgctggaagcgatggctcagtcgcagcgacgcgagctcgtcgtcaccaacacccccgccgccgacgacatgatcgaggtcgaagtgtccgacaccggcagcggtttccaggacgacgtcattccgaacctgtttcagactttcttcaccaccaaggacaccggcatgggcgtgggactgtccatcagccgctcgatcatcgaagctcacggcgggcgcatgtgggccgagagcaacgcatcgggcggggcgaccttccgcttcaccctcccggcagccgacgagaattaataa BBa_B0010_sequence 1 ccaggcatcaaataaaacgaaaggctcagtcgaaagactgggcctttcgttttatctgttgtttgtcggtgaacgctctc BBa_C0051_sequence 1 atgagcacaaaaaagaaaccattaacacaagagcagcttgaggacgcacgtcgccttaaagcaatttatgaaaaaaagaaaaatgaacttggcttatcccaggaatctgtcgcagacaagatggggatggggcagtcaggcgttggtgctttatttaatggcatcaatgcattaaatgcttataacgccgcattgcttgcaaaaattctcaaagttagcgttgaagaatttagcccttcaatcgccagagaaatctacgagatgtatgaagcggttagtatgcagccgtcacttagaagtgagtatgagtaccctgttttttctcatgttcaggcagggatgttctcacctgagcttagaacctttaccaaaggtgatgcggagagatgggtaagcacaaccaaaaaagccagtgattctgcattctggcttgaggttgaaggtaattccatgaccgcaccaacaggctccaagccaagctttcctgacggaatgttaattctcgttgaccctgagcaggctgttgagccaggtgatttctgcatagccagacttgggggtgatgagtttaccttcaagaaactgatcagggatagcggtcaggtgtttttacaaccactaaacccacagtacccaatgatcccatgcaatgagagttgttccgttgtggggaaagttatcgctagtcagtggcctgaagagacgtttggcgctgcaaacgacgaaaactacgctttagtagcttaataacgctgatagtgctagtgtagatcgc BBa_K592020_sequence 1 gccggagccgattatccgcacccgtccttggtcttggacacactcgctcgcgatccgaagccgcctttcaaagatactccgcagtgaaacgcatcttttaagcgcgacttgtcgccttcgcgcagcagaacactcgtatggcactcaatccatgatcgcttcgttcgctccgacgcgcgttgcggggcccccctcgaccggatgacaacacattgcgtcacctcaactgctgcgcgcgcactgcgtcacatactagagaaagaggagaaatactagatgagcacaaaaaagaaaccattaacacaagagcagcttgaggacgcacgtcgccttaaagcaatttatgaaaaaaagaaaaatgaacttggcttatcccaggaatctgtcgcagacaagatggggatggggcagtcaggcgttggtgctttatttaatggcatcaatgcattaaatgcttataacgccgcattgcttgcaaaaattctcaaagttagcgttgaagaatttagcccttcaatcgccagagaaatctacgagatgtatgaagcggttagtatgcagccgtcacttagaagtgagtatgagtaccctgttttttctcatgttcaggcagggatgttctcacctgagcttagaacctttaccaaaggtgatgcggagagatgggtaagcacaaccaaaaaagccagtgattctgcattctggcttgaggttgaaggtaattccatgaccgcaccaacaggctccaagccaagctttcctgacggaatgttaattctcgttgaccctgagcaggctgttgagccaggtgatttctgcatagccagacttgggggtgatgagtttaccttcaagaaactgatcagggatagcggtcaggtgtttttacaaccactaaacccacagtacccaatgatcccatgcaatgagagttgttccgttgtggggaaagttatcgctagtcagtggcctgaagagacgtttggcgctgcaaacgacgaaaactacgctttagtagcttaataacgctgatagtgctagtgtagatcgctactagagccaggcatcaaataaaacgaaaggctcagtcgaaagactgggcctttcgttttatctgttgtttgtcggtgaacgctctctactagagtcacactggctcaccttcgggtgggcctttctgcgtttatatactagagtaacaccgtgcgtgttgactattttacctctggcggtgataatggttgctactagagaaagaggagaaatactagatgagtgtgatcgctaaacaaatgacctacaaggtttatatgtcaggcacggtcaatggacactactttgaggtcgaaggcgatggaaaaggtaagccctacgagggggagcagacggtaaagctcactgtcaccaagggcggacctctgccatttgcttgggatattttatcaccacagtgtcagtacggaagcataccattcaccaagtaccctgaagacatccctgactatgtaaagcagtcattcccggagggctatacatgggagaggatcatgaactttgaagatggtgcagtgtgtactgtcagcaatgattccagcatccaaggcaactgtttcatctaccatgtcaagttctctggtttgaactttcctcccaatggacctgtcatgcagaagaagacacagggctgggaacccaacactgagcgtctctttgcacgagatggaatgctgctaggaaacaactttatggctctgaagttagaaggaggcggtcactatttgtgtgaatttaaaactacttacaaggcaaagaagcctgtgaagatgccagggtatcactatgttgaccgcaaactggatgtaaccaatcacaacaaggattacacttcggttgagcagtgtgaaatttccattgcacgcaaacctgtggtcgcctaataa BBa_Q04510_sequence 1 aaagaggagaaatactagatgagcacaaaaaagaaaccattaacacaagagcagcttgaggacgcacgtcgccttaaagcaatttatgaaaaaaagaaaaatgaacttggcttatcccaggaatctgtcgcagacaagatggggatggggcagtcaggcgttggtgctttatttaatggcatcaatgcattaaatgcttataacgccgcattgcttgcaaaaattctcaaagttagcgttgaagaatttagcccttcaatcgccagagaaatctacgagatgtatgaagcggttagtatgcagccgtcacttagaagtgagtatgagtaccctgttttttctcatgttcaggcagggatgttctcacctgagcttagaacctttaccaaaggtgatgcggagagatgggtaagcacaaccaaaaaagccagtgattctgcattctggcttgaggttgaaggtaattccatgaccgcaccaacaggctccaagccaagctttcctgacggaatgttaattctcgttgaccctgagcaggctgttgagccaggtgatttctgcatagccagacttgggggtgatgagtttaccttcaagaaactgatcagggatagcggtcaggtgtttttacaaccactaaacccacagtacccaatgatcccatgcaatgagagttgttccgttgtggggaaagttatcgctagtcagtggcctgaagagacgtttggcgctgcaaacgacgaaaactacgctttagtagcttaataacgctgatagtgctagtgtagatcgctactagagccaggcatcaaataaaacgaaaggctcagtcgaaagactgggcctttcgttttatctgttgtttgtcggtgaacgctctctactagagtcacactggctcaccttcgggtgggcctttctgcgtttatatactagagtaacaccgtgcgtgttgactattttacctctggcggtgataatggttgc BBa_K1363400_sequence 1 caatacgcaaaccgcctctccccgcgcgttggccgattcattaatgcagctggcacgacaggtttcccgactggaaagcgggcagtgagcgcaacgcaattaatgtgagttagctcactcattaggcaccccaggctttacactttatgcttccggctcgtatgttgtgtggaattgtgagcggataacaatttcacacatactagagaaagaggagaaatactagatggctagttttcaatcatttgggataccaggacagctggaagtcatcaaaaaagcacttgatcacgtgcgagtcggtgtggtaattacagatcccgcacttgaagataatcctattgtctacgtaaatcaaggctttgttcaaatgaccggctacgagaccgaggaaattttaggaaagaactgtcgcttcttacaggggaaacacacagatccggcagaagtggacaacatcagaaccgctttacaaaataaagaaccggtcaccgttcagatccaaaactacaaaaaagacggaacgatgttctggaatgaattaaatattgatccaatggaaatagaggataaaacgtattttgtcggcattcagaatgatatcaccgagcaccagcagacccaggcgcgtctccaggaactgcaatccgagctcgtccacgtctccaggctgagcgccatgggcgaaatggcgtccgcgctcgcgcacgagctcaaccagccgctggcggcgatcagcaactacatgaagggctcgcggcggctgcttgccggcagcagtgatccgaacacaccgaaggtcgaaagcgccctggaccgcgccgccgagcaggcgctgcgcgccggccagatcatccggcgcctgcgcgacttcgttgcccgcggcgaatcggagaagcgggtcgagagtctctccaagctgatcgaggaggccggcgcgctcgggcttgccggcgcgcgcgagcagaacgtgcagctccgcttcagtctcgatccgggcgccgatctcgttctcgccgaccgggtgcagatccagcaggtcctggtcaacctgttccgcaacgcgctggaagcgatggctcagtcgcagcgacgcgagctcgtcgtcaccaacacccccgccgccgacgacatgatcgaggtcgaagtgtccgacaccggcagcggtttccaggacgacgtcattccgaacctgtttcagactttcttcaccaccaaggacaccggcatgggcgtgggactgtccatcagccgctcgatcatcgaagctcacggcgggcgcatgtgggccgagagcaacgcatcgggcggggcgaccttccgcttcaccctcccggcagccgacgagaattaataatactagagaaagaggagaaatactagatgacgaccaagggacatatctacgtcatcgacgacgacgcggcgatgcgggattcgctgaatttcctgctggattctgccggcttcggcgtcacgctgtttgacgacgcgcaagcctttctcgacgccctgccgggtctctccttcggctgcgtcgtctccgacgtgcgcatgccgggccttgacggcatcgagctgttgaagcggatgaaggcgcagcaaagcccctttccgatcctcatcatgaccggtcacggcgacgtgccgctcgcggtcgaggcgatgaagttaggggcggtcgactttctggaaaagcctttcgaggacgaccgcctcaccgccatgatcgaatcggcgatccgccaggccgagccggccgccaagagcgaggccgtcgcgcaggatatcgccgcccgcgtcgcctcgttgagccccagggagcgccaggtcatggaagggctgatcgccggcctttccaacaagctgatcgcccgcgagtacgacatcagcccgcgcaccatcgaggtgtatcgggccaacgtcatgaccaagatgcaggccaacagcctttcggagctggttcgcctcgcgatgcgcgccggcatgctcaacgattaataatactagagccaggcatcaaataaaacgaaaggctcagtcgaaagactgggcctttcgttttatctgttgtttgtcggtgaacgctctctactagagtcacactggctcaccttcgggtgggcctttctgcgtttatatactagaggccggagccgattatccgcacccgtccttggtcttggacacactcgctcgcgatccgaagccgcctttcaaagatactccgcagtgaaacgcatcttttaagcgcgacttgtcgccttcgcgcagcagaacactcgtatggcactcaatccatgatcgcttcgttcgctccgacgcgcgttgcggggcccccctcgaccggatgacaacacattgcgtcacctcaactgctgcgcgcgcactgcgtcacatactagagaaagaggagaaatactagatgagcacaaaaaagaaaccattaacacaagagcagcttgaggacgcacgtcgccttaaagcaatttatgaaaaaaagaaaaatgaacttggcttatcccaggaatctgtcgcagacaagatggggatggggcagtcaggcgttggtgctttatttaatggcatcaatgcattaaatgcttataacgccgcattgcttgcaaaaattctcaaagttagcgttgaagaatttagcccttcaatcgccagagaaatctacgagatgtatgaagcggttagtatgcagccgtcacttagaagtgagtatgagtaccctgttttttctcatgttcaggcagggatgttctcacctgagcttagaacctttaccaaaggtgatgcggagagatgggtaagcacaaccaaaaaagccagtgattctgcattctggcttgaggttgaaggtaattccatgaccgcaccaacaggctccaagccaagctttcctgacggaatgttaattctcgttgaccctgagcaggctgttgagccaggtgatttctgcatagccagacttgggggtgatgagtttaccttcaagaaactgatcagggatagcggtcaggtgtttttacaaccactaaacccacagtacccaatgatcccatgcaatgagagttgttccgttgtggggaaagttatcgctagtcagtggcctgaagagacgtttggcgctgcaaacgacgaaaactacgctttagtagcttaataacgctgatagtgctagtgtagatcgctactagagccaggcatcaaataaaacgaaaggctcagtcgaaagactgggcctttcgttttatctgttgtttgtcggtgaacgctctctactagagtcacactggctcaccttcgggtgggcctttctgcgtttatatactagagtaacaccgtgcgtgttgactattttacctctggcggtgataatggttgctactagagaaagaggagaaatactagatgagtgtgatcgctaaacaaatgacctacaaggtttatatgtcaggcacggtcaatggacactactttgaggtcgaaggcgatggaaaaggtaagccctacgagggggagcagacggtaaagctcactgtcaccaagggcggacctctgccatttgcttgggatattttatcaccacagtgtcagtacggaagcataccattcaccaagtaccctgaagacatccctgactatgtaaagcagtcattcccggagggctatacatgggagaggatcatgaactttgaagatggtgcagtgtgtactgtcagcaatgattccagcatccaaggcaactgtttcatctaccatgtcaagttctctggtttgaactttcctcccaatggacctgtcatgcagaagaagacacagggctgggaacccaacactgagcgtctctttgcacgagatggaatgctgctaggaaacaactttatggctctgaagttagaaggaggcggtcactatttgtgtgaatttaaaactacttacaaggcaaagaagcctgtgaagatgccagggtatcactatgttgaccgcaaactggatgtaaccaatcacaacaaggattacacttcggttgagcagtgtgaaatttccattgcacgcaaacctgtggtcgcctaataa BBa_K592006_sequence 1 gccggagccgattatccgcacccgtccttggtcttggacacactcgctcgcgatccgaagccgcctttcaaagatactccgcagtgaaacgcatcttttaagcgcgacttgtcgccttcgcgcagcagaacactcgtatggcactcaatccatgatcgcttcgttcgctccgacgcgcgttgcggggcccccctcgaccggatgacaacacattgcgtcacctcaactgctgcgcgcgcactgcgtcaca BBa_K592009_sequence 1 atgagtgtgatcgctaaacaaatgacctacaaggtttatatgtcaggcacggtcaatggacactactttgaggtcgaaggcgatggaaaaggtaagccctacgagggggagcagacggtaaagctcactgtcaccaagggcggacctctgccatttgcttgggatattttatcaccacagtgtcagtacggaagcataccattcaccaagtaccctgaagacatccctgactatgtaaagcagtcattcccggagggctatacatgggagaggatcatgaactttgaagatggtgcagtgtgtactgtcagcaatgattccagcatccaaggcaactgtttcatctaccatgtcaagttctctggtttgaactttcctcccaatggacctgtcatgcagaagaagacacagggctgggaacccaacactgagcgtctctttgcacgagatggaatgctgctaggaaacaactttatggctctgaagttagaaggaggcggtcactatttgtgtgaatttaaaactacttacaaggcaaagaagcctgtgaagatgccagggtatcactatgttgaccgcaaactggatgtaaccaatcacaacaaggattacacttcggttgagcagtgtgaaatttccattgcacgcaaacctgtggtcgcctaataa BBa_K592005_sequence 1 atgacgaccaagggacatatctacgtcatcgacgacgacgcggcgatgcgggattcgctgaatttcctgctggattctgccggcttcggcgtcacgctgtttgacgacgcgcaagcctttctcgacgccctgccgggtctctccttcggctgcgtcgtctccgacgtgcgcatgccgggccttgacggcatcgagctgttgaagcggatgaaggcgcagcaaagcccctttccgatcctcatcatgaccggtcacggcgacgtgccgctcgcggtcgaggcgatgaagttaggggcggtcgactttctggaaaagcctttcgaggacgaccgcctcaccgccatgatcgaatcggcgatccgccaggccgagccggccgccaagagcgaggccgtcgcgcaggatatcgccgcccgcgtcgcctcgttgagccccagggagcgccaggtcatggaagggctgatcgccggcctttccaacaagctgatcgcccgcgagtacgacatcagcccgcgcaccatcgaggtgtatcgggccaacgtcatgaccaagatgcaggccaacagcctttcggagctggttcgcctcgcgatgcgcgccggcatgctcaacgattaataa BBa_B0012_sequence 1 tcacactggctcaccttcgggtgggcctttctgcgtttata 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