BBa_K844000 1 BBa_K844000 10x-Histidine (10x-His) Tag with double stop codon (TAATAA) 2012-10-01T11:00:00Z 2015-05-08T01:13:33Z Constructed through oligonucleotide annealing Released HQ 2013 10x-Histidine tag with double stop codon TAATAA to allow for better extraction of tagged products and protein termination in a single part. false false _1104_ 0 9404 9 In stock true none false Kathleen Miller annotation2206609 1 Stop range2206609 1 34 36 annotation2206607 1 10x-Histidine Tag range2206607 1 1 30 annotation2206608 1 Stop range2206608 1 31 33 BBa_J61101 1 BBa_J61101 Ribosome Binding Site Family Member 2007-01-28T12:00:00Z 2015-08-31T02:03:00Z N/A fix false false _95_ 0 483 95 In stock false N/A true John Anderson BBa_M1653 1 BBa_M1653 Human tenascin-C mRNA 2013-03-27T12:00:00Z 2015-05-08T01:13:57Z Human source An anti-marker that could be used to recognize the presence of lung cancer. false false _768_ 0 16132 9 Not in stock false Potential affects of restriction enzymes. false Howard Cordingley annotation2214560 1 start range2214560 1 1 3 annotation2214561 1 stop range2214561 1 6604 6606 annotation2214562 1 Tenascin-C range2214562 1 4 6603 BBa_I712074 1 BBa_I712074 T7 promoter (strong promoter from T7 bacteriophage) 2007-10-21T11:00:00Z 2015-08-31T04:07:46Z T7 bacteriophage T7 promoter is very specific promoter which is transcribed only by specific T7 RNA polymerase. Usually this promoter is used in expression systems where T7 promoter is cotransfected with T7 RNA polymerase. That ensures strong transcription of desired genes. false false _130_ 0 1856 9 In stock false true Rok Gaber BBa_M1655 1 BBa_M1655 Homo sapiens keratin 17 (KRT17) 2013-03-31T11:00:00Z 2015-05-08T01:13:57Z human Homo sapiens keratin 17 (KRT17) biomarker false false _768_ 0 16144 9 Not in stock false codon optimization and restriction enzyme sites were removed false whitney morgan annotation2214572 1 stop range2214572 1 1297 1299 annotation2214571 1 start range2214571 1 1 3 annotation2214573 1 KRT17 range2214573 1 4 1296 BBa_M1660 1 BBa_M1660 Lung cancer biosensor - early detection 2013-04-08T11:00:00Z 2015-05-08T01:13:57Z Human Biomakers for lung cancer detection in human epithelial-lining fluid false false _768_ 0 16148 9 Not in stock false This part can be used to introduce a delay between induction and expression of the Human tenascin-C mRNA and Homo sapiens keratin 17 (KRT17) gene. false Guevara Che Nyendu component2214833 1 BBa_J61103 component2214842 1 BBa_B0012 component2214825 1 BBa_M1653 component2214821 1 BBa_K844000 component2214832 1 BBa_I712074 component2214837 1 BBa_K844000 component2214841 1 BBa_M1655 component2214830 1 BBa_B0011 component2214816 1 BBa_I712074 component2214817 1 BBa_J61101 component2214826 1 BBa_B0012 annotation2214821 1 BBa_K844000 range2214821 1 75 110 annotation2214837 1 BBa_K844000 range2214837 1 6908 6943 annotation2214830 1 BBa_B0011 range2214830 1 6780 6825 annotation2214841 1 BBa_M1655 range2214841 1 6950 8248 annotation2214825 1 BBa_M1653 range2214825 1 117 6722 annotation2214842 1 BBa_B0012 range2214842 1 8257 8297 annotation2214832 1 BBa_I712074 range2214832 1 6834 6879 annotation2214826 1 BBa_B0012 range2214826 1 6731 6771 annotation2214816 1 BBa_I712074 range2214816 1 1 46 annotation2214833 1 BBa_J61103 range2214833 1 6888 6899 annotation2214817 1 BBa_J61101 range2214817 1 55 66 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 annotation1690 1 polya range1690 1 28 41 annotation7020 1 BBa_B0012 range7020 1 1 41 annotation1687 1 stop range1687 1 34 34 annotation1686 1 T7 TE range1686 1 8 27 BBa_J61103 1 BBa_J61103 Ribosome Binding Site Family Member 2007-04-23T11:00:00Z 2015-08-31T02:03:00Z N/A {{JCA_Arkin_RBSFamily}} false false _95_ 0 483 95 In stock false N/A false John Anderson BBa_B0011 1 BBa_B0011 LuxICDABEG (+/-) 2003-01-31T12:00:00Z 2015-08-31T04:07:20Z Derived from luxICDABEG operon terminator of Vibrio fischeri <genbank>AF170104</genbank>. Released HQ 2013 Bidirectional transcriptional terminator consisting of a 22 bp stem-loop.</p> false false _1_ 0 24 7 In stock false <P> <P>In the naturally-occuring sequence there is a mismatch in the stem of the stem loop. This can be corrected via an A-&gt;G mutation (at position 40 -- sequence coordinate/not MFOLD coordinate). The above sequence does not reflect this mutation (but the MFOLD image does). This terminator's location cannot be found using some inverted repeat detectors like PALINDROME because it is too short and contains a mismatch. This one was found with the help of Tom Knight. It lies between two coding regions that point towards eachother.<P> true Reshma Shetty annotation7019 1 BBa_B0011 range7019 1 1 46 annotation1683 1 stem_loop range1683 1 13 35 BBa_J61103_sequence 1 aaagattagaca BBa_M1655_sequence 1 atgaccactagcatccgtcaatttacctcgagcagcagtataaaaggctccagcggcttgggaggcggatcaagccgcacaagctgtcgtctgagcggtggcctgggagctggctcatgccgtttaggttctgccggtggtttgggtagcacgctgggcggttcctcgtacagtagctgttacagctttggtagcggcggcggctacggatcaagcttcggcggggtcgatggcctgctcgctggcggagaaaaagccacgatgcagaacttaaacgaccgactcgccagctatctggataaggttcgtgcactggaagaagcaaatactgaactggaagttaaaatccgcgattggtatcagcgccaggcgccgggcccagcgcgggattacagccagtattatcgaaccattgaagagctccaaaacaaaattctgactgccacagttgataatgcgaatattcttttacagattgataatgcacgtctggcagctgacgactttcgcaccaaattcgagaccgaacaggcactccgtctgagtgtggaggctgatatcaacgggcttcgacgcgtgttggacgagttaaccttagcgcgcgcagacctagaaatgcagattgaaaacctgaaggaggagctcgcatatctcaaaaaaaatcatgaagaagaaatgaatgcgttgcgcggccaggtcggcggggaaatcaatgttgagatggatgctgccccgggtgtggatctcagtcgcattttaaatgaaatgcgtgatcagtatgagaaaatggcagaaaaaaaccgtaaagacgcggaagattggtttttctctaaaaccgaagaattgaaccgcgaagtcgcaaccaactctgaactggttcagtcggggaaaagcgaaatttccgaattacgtcgtacgatgcaggccctggaaatcgaactacaatcgcagctgtcaatgaaggccagcctcgaaggcaatttggccgaaaccgagaaccgctactgtgtacagctgtcccagatccaaggtctgattggttcagtcgaagagcaactggcgcagctcagatgcgaaatggaacaacagaaccaggaatataaaatcttacttgatgtgaaaacgcgcctggagcaggaaatcgcgacgtatcgtcgcttactggaaggggaagacgcccatttgacccagtacaaaaaggaaccagtgaccactcgccaagttcgcaccatcgtggaagaggtccaggacgggaaagttattagtagtcgcgaacaagtgcatcagaccacccgctag BBa_J61101_sequence 1 aaagacaggacc BBa_I712074_sequence 1 taatacgactcactatagggaatacaagctacttgttctttttgca BBa_K844000_sequence 1 catcatcaccatcaccaccatcatcaccattaataa BBa_B0011_sequence 1 agagaatataaaaagccagattattaatccggcttttttattattt BBa_M1660_sequence 1 taatacgactcactatagggaatacaagctacttgttctttttgcatactagagaaagacaggacctactagagcatcatcaccatcaccaccatcatcaccattaataatactagatgggggccatgacccaattactggccggtgttttcctggcgtttctggctctggcgacagaaggtggtgtactgaaaaaagtgattcgccacaagcggcaaagcggagtaaatgcgacgcttccggaagagaatcagccggttgtgttcaaccatgtttataacatcaaactgccggtgggttcccagtgttctgttgatttggagagtgcgagtggagaaaaggacctagcgccgccttcagagccgtcggagtctttccaggaacatacagttgatggtgaaaatcaaattgtgtttacccaccgtatcaatatcccgcgtcgcgcctgcggttgtgctgccgccccagacgttaaagagcttctgtcacgacttgaagaactggagaacttagtgagcagtctgcgtgaacagtgcacggcgggtgccggctgctgcctccagccggcaacaggtcgcctggacacccgccccttctgctcggggcgaggcaattttagcacggaaggttgcggctgcgtatgtgaacctgggtggaaaggtcctaattgttctgaaccagaatgccctgggaattgtcatctgcgcgggcgctgcattgacggccagtgcatttgtgacgatggttttactggcgaggactgttcacaattggcctgcccatcagactgcaatgatcaaggtaagtgcgtgaatggcgtatgcatttgcttcgaaggttatgcgggcgctgactgctctcgtgaaatctgtccagtaccctgctccgaagaacatggcacttgtgtggacgggttatgtgtatgtcacgacggatttgccggcgatgattgtaataaacctctttgtctgaacaactgttataatcgcggtcgctgtgtagaaaatgaatgcgtatgtgatgaaggatttaccggtgaggattgcagtgaactgatttgtcctaacgattgctttgaccggggacgatgcatcaacggcacctgctactgtgaggagggcttcaccggtgaggactgcggtaaaccgacctgtccgcacgcttgtcacacccaaggtcgctgcgaggagggccagtgtgtctgtgatgaaggcttcgccggcgttgattgctccgaaaagcgctgcccagcggattgccataaccgggggcgttgcgttgatggtcggtgcgagtgcgacgacggtttcaccggagcggattgtggcgaactgaaatgcccgaacggctgctctggccacggccgttgtgtgaatggccagtgtgtttgcgatgagggctataccggcgaagattgttctcaactgcgttgccccaatgactgccatagccgtgggcgctgtgtcgaaggaaagtgtgtgtgtgagcaaggctttaaaggttatgattgctcagatatgagctgtcctaatgactgtcatcagcacgggcgctgtgtaaatggtatgtgcgtttgtgatgatggctacaccggagaggattgccgcgatcgtcaatgtccgcgtgactgttctaatcgcggtctgtgtgtggatggacaatgtgtgtgcgaagacggcttcacgggaccggattgtgcggaactctcttgcccaaacgactgtcacggtcaaggtcgctgtgtgaacggtcaatgcgtgtgtcatgaaggttttatgggcaaggattgtaaggaacagcgatgcccttccgattgccacggtcaaggacgttgtgtagatggccagtgcatctgccatgaaggattcaccggtctcgattgcggtcagcactcctgcccgagcgactgtaacaacctcggccaatgtgtaagtggtcgctgcatttgcaatgaaggttactcaggggaagactgtagcgaagttagcccgccgaaggatttggtggttacagaagtcaccgaggaaacggttaatctggcctgggacaatgaaatgcgggtaaccgaatatctggtagtttatacacccacccatgagggcgggctggaaatgcagtttcgcgtaccgggtgatcaaacgagtaccattatccaggagttagaaccgggcgtggaatatttcatccgcgtcttcgccattctggaaaacaaaaagtccatccctgtatcagctcgcgttgcaacctacctgccggccccggagggtctcaagtttaagagtatcaaagagacgagcgttgaagtcgaatgggacccactcgacattgctttcgaaacgtgggaaattatctttcgtaacatgaataaggaggatgagggcgaaataaccaaaagcttgcgtcgcccggagacctcttatcgccaaacgggattggcgcctggccaggagtacgagatttctcttcatattgtgaaaaataatactcgcggtccaggcctcaagcgtgtgacgaccacgcgccttgacgcgccctcacagattgaagttaaggatgttactgacaccacggcgctgattacctggttcaaaccgcttgcagaaattgatggcatagaactgacctacggcattaaggatgtcccgggtgaccgtaccaccatagacctgactgaggatgagaaccagtatagtatcggtaatctgaaaccggataccgaatatgaggtgagcctgatcagtcgccgtggagacatgtcgtctaacccggccaaagagacctttaccactggcctggatgcgccacgtaatcttaggcgcgtatcgcaaacagacaactcaattacccttgaatggcgtaacggtaaagcggccattgattcgtatcgaattaaatatgcaccgatttcaggcggcgaccacgcggaagttgatgttcctaaaagccagcaggcgaccacgaaaacgaccctgacgggcctgcgcccgggaacggaatacggtattggcgtatctgcggtgaaagaagacaaggaatccaacccggcgaccattaacgcggcaacagaattggatactccaaaagatctacaagtaagtgaaactgctgaaacgagtctcactctactgtggaaaactccgctggccaaatttgatcggtatcgtctcaactacagtctgccaaccggacagtgggttggggtacagttaccgcgtaacaccacatcatatgttttgcgcggcctggagccgggccaggaatacaatgtcttgctgacggcggagaaaggccgtcataaaagtaaaccggcgcgtgtcaaagcttcgaccgaacaggcaccagaactggaaaacctgacagttacggaggttgggtgggacggtttgcgcttgaactggaccgccgccgaccaggcatacgaacattttatcattcaggtgcaggaagccaacaaggtagaagcagcccgcaatctgaccgtccctgggagcctgagagctgtggatattccggggcttaaagccgcgacaccatatacggtgagtatatacggtgttatccagggctaccgtacgcctgttcttagcgctgaagcgagcaccggcgaaacccctaacctgggcgaggtggtggtggcggaagttggctgggatgcgctgaaactcaactggacagcccctgaaggagcctacgaatatttctttattcaggtccaggaagctgatacagttgaggcggcacagaaccttacggtccccgggggtttgcgttctaccgatctcccgggactgaaggcagcgacgcactacaccattacgatcagaggggtcacccaggattttagtactactcctctgagcgtggaagtcctgaccgaagaagttccggatatgggtaatctaacagtgacagaggtcagctgggatgcactccgactgaactggacgacaccggacggtacttacgaccaattcacaatccaagtgcaagaagcggaccaagtcgaggaggcgcataatcttacggtgccgggcagtctacgctccatggaaatcccgggcctgagggcggggacgccgtatactgttacgctacatggcgaagtacgcggtcattcgacacgtccgttggccgttgaagtcgttaccgaagacctccctcaactcggtgatctggcggtaagcgaagtgggttgggacggcctgcgcctgaattggaccgcagccgataacgcatacgagcatttcgtaatacaggttcaggaggtaaacaaagtggaagccgcgcagaatctgaccctcccgggctcgctgcgtgcagtggatattcctggcctggaagcagccacaccgtatcgtgtcagcatatacggcgtcatacgtggatatcgaacgccggtactgtcggcggaagcatccacggccaaagagccagaaattggcaacttgaacgtaagtgacattactcccgagtcgtttaaccttagttggatggccacggatgggatcttcgaaacctttacgattgagattatagatagcaaccgcttgctggagaccgtagaatataacatcagcggcgcggaacgtactgcgcacatttcgggcctgccaccgtctaccgacttcatagtgtacctgtcgggcctggcgccgagtatccgcacgaagacgatcagcgcaaccgcaaccacagaggcgttgcctttgctcgaaaacctgaccatcagtgatatcaatccatacggtttcacggtctcgtggatggcgagtgagaatgcatttgactcctttttagtgactgtcgtggactcaggtaaacttttagatcctcaggagtttactttgagcggcacccagcgcaaactggaactgcgtggactgattaccggcatcgggtatgaggtgatggtatctgggttcacgcagggtcatcaaaccaaaccattacgggctgagatcgtcactgaagcggaaccggaggtcgataacctactcgtctctgatgcaacgccggacggcttccgcttatcgtggacagccgatgaaggcgtattcgataactttgtcctgaaaattcgcgacactaaaaaacaatctgaacctcttgaaattacactgcttgctccggaacgtacacgtgatattactggcctgcgtgaagcgacggagtatgaaatcgaactgtatgggatttcgaagggtcggcgtagccagactgtgtcggcaattgccacgaccgccatgggatccccgaaagaagttatcttttcggacattaccgagaacagtgcaaccgtgtcatggcgcgccccgacagcgcaggttgagtcatttcgtattacatacgtcccaattaccggcggcacccctagtatggttaccgttgatggcacgaaaacgcagacgcgtttagttaaactgatacccggtgtggaatatttagtgagcatcatcgctatgaagggttttgaggaatccgaacctgtgtctggttcgttcacgaccgctctcgatggtccatccggtctggtcacggcgaacatcacggacagcgaagctctcgcgagatggcagccggcaattgcgaccgttgactcttatgtgatatcgtataccggggagaaagtgccagaaattacccgcaccgtgagcggaaacacagtggaatacgctctgactgatctggaaccggcaaccgaatacaccctgcgaattttcgccgagaaaggcccccaaaagagctccacaataactgcgaagtttaccacggatttagactctcctcgcgatctcacagcgacagaagtccagagcgaaaccgcactcttgacctggcggccaccacgtgcgagtgtcaccggctatctgttagtctacgagtctgtggatggtaccgtcaaagaagtaatagtcggaccggataccacctcctatagcctcgctgacctttccccgtcgacacattacaccgctaaaattcaggctttgaacggccccctgcgctccaatatgattcaaactatctttaccactattggtctgctgtatccgtttccgaaagattgctcccaggcaatgttaaatggcgacactacgtcgggcctgtacactatctatctaaatggtgataaggcagaggcattggaagtgttttgtgacatgacgtcggatggtggagggtggattgtctttttacgccgcaaaaacgggcgagaaaacttctatcagaactggaaggcctatgcggcagggtttggggatcggcgcgaggagttttggctggggctggacaatctgaacaaaattactgcacaaggccagtacgagctgcgtgttgatctgcgcgatcatggtgaaaccgcgtttgcggtgtatgataaattctctgtaggcgatgcgaaaactcgttataaactgaaggtagaagggtattcgggtacagccggcgattctatggcgtaccacaatggtcgttcgtttagcacgtttgataaagataccgacagtgccattaccaactgcgctctttcatacaaaggagctttttggtatcgcaactgccaccgcgtgaatttaatgggccgctacggagacaataatcattcgcagggagttaattggttccattggaagggtcatgagcacagcattcagttcgcggagatgaagttgcgtccgagtaactttcggaatctggaaggacgccgtaaacgcgcgtagtactagagtcacactggctcaccttcgggtgggcctttctgcgtttatatactagagagagaatataaaaagccagattattaatccggcttttttattattttactagagtaatacgactcactatagggaatacaagctacttgttctttttgcatactagagaaagattagacatactagagcatcatcaccatcaccaccatcatcaccattaataatactagatgaccactagcatccgtcaatttacctcgagcagcagtataaaaggctccagcggcttgggaggcggatcaagccgcacaagctgtcgtctgagcggtggcctgggagctggctcatgccgtttaggttctgccggtggtttgggtagcacgctgggcggttcctcgtacagtagctgttacagctttggtagcggcggcggctacggatcaagcttcggcggggtcgatggcctgctcgctggcggagaaaaagccacgatgcagaacttaaacgaccgactcgccagctatctggataaggttcgtgcactggaagaagcaaatactgaactggaagttaaaatccgcgattggtatcagcgccaggcgccgggcccagcgcgggattacagccagtattatcgaaccattgaagagctccaaaacaaaattctgactgccacagttgataatgcgaatattcttttacagattgataatgcacgtctggcagctgacgactttcgcaccaaattcgagaccgaacaggcactccgtctgagtgtggaggctgatatcaacgggcttcgacgcgtgttggacgagttaaccttagcgcgcgcagacctagaaatgcagattgaaaacctgaaggaggagctcgcatatctcaaaaaaaatcatgaagaagaaatgaatgcgttgcgcggccaggtcggcggggaaatcaatgttgagatggatgctgccccgggtgtggatctcagtcgcattttaaatgaaatgcgtgatcagtatgagaaaatggcagaaaaaaaccgtaaagacgcggaagattggtttttctctaaaaccgaagaattgaaccgcgaagtcgcaaccaactctgaactggttcagtcggggaaaagcgaaatttccgaattacgtcgtacgatgcaggccctggaaatcgaactacaatcgcagctgtcaatgaaggccagcctcgaaggcaatttggccgaaaccgagaaccgctactgtgtacagctgtcccagatccaaggtctgattggttcagtcgaagagcaactggcgcagctcagatgcgaaatggaacaacagaaccaggaatataaaatcttacttgatgtgaaaacgcgcctggagcaggaaatcgcgacgtatcgtcgcttactggaaggggaagacgcccatttgacccagtacaaaaaggaaccagtgaccactcgccaagttcgcaccatcgtggaagaggtccaggacgggaaagttattagtagtcgcgaacaagtgcatcagaccacccgctagtactagagtcacactggctcaccttcgggtgggcctttctgcgtttata BBa_M1653_sequence 1 atgggggccatgacccaattactggccggtgttttcctggcgtttctggctctggcgacagaaggtggtgtactgaaaaaagtgattcgccacaagcggcaaagcggagtaaatgcgacgcttccggaagagaatcagccggttgtgttcaaccatgtttataacatcaaactgccggtgggttcccagtgttctgttgatttggagagtgcgagtggagaaaaggacctagcgccgccttcagagccgtcggagtctttccaggaacatacagttgatggtgaaaatcaaattgtgtttacccaccgtatcaatatcccgcgtcgcgcctgcggttgtgctgccgccccagacgttaaagagcttctgtcacgacttgaagaactggagaacttagtgagcagtctgcgtgaacagtgcacggcgggtgccggctgctgcctccagccggcaacaggtcgcctggacacccgccccttctgctcggggcgaggcaattttagcacggaaggttgcggctgcgtatgtgaacctgggtggaaaggtcctaattgttctgaaccagaatgccctgggaattgtcatctgcgcgggcgctgcattgacggccagtgcatttgtgacgatggttttactggcgaggactgttcacaattggcctgcccatcagactgcaatgatcaaggtaagtgcgtgaatggcgtatgcatttgcttcgaaggttatgcgggcgctgactgctctcgtgaaatctgtccagtaccctgctccgaagaacatggcacttgtgtggacgggttatgtgtatgtcacgacggatttgccggcgatgattgtaataaacctctttgtctgaacaactgttataatcgcggtcgctgtgtagaaaatgaatgcgtatgtgatgaaggatttaccggtgaggattgcagtgaactgatttgtcctaacgattgctttgaccggggacgatgcatcaacggcacctgctactgtgaggagggcttcaccggtgaggactgcggtaaaccgacctgtccgcacgcttgtcacacccaaggtcgctgcgaggagggccagtgtgtctgtgatgaaggcttcgccggcgttgattgctccgaaaagcgctgcccagcggattgccataaccgggggcgttgcgttgatggtcggtgcgagtgcgacgacggtttcaccggagcggattgtggcgaactgaaatgcccgaacggctgctctggccacggccgttgtgtgaatggccagtgtgtttgcgatgagggctataccggcgaagattgttctcaactgcgttgccccaatgactgccatagccgtgggcgctgtgtcgaaggaaagtgtgtgtgtgagcaaggctttaaaggttatgattgctcagatatgagctgtcctaatgactgtcatcagcacgggcgctgtgtaaatggtatgtgcgtttgtgatgatggctacaccggagaggattgccgcgatcgtcaatgtccgcgtgactgttctaatcgcggtctgtgtgtggatggacaatgtgtgtgcgaagacggcttcacgggaccggattgtgcggaactctcttgcccaaacgactgtcacggtcaaggtcgctgtgtgaacggtcaatgcgtgtgtcatgaaggttttatgggcaaggattgtaaggaacagcgatgcccttccgattgccacggtcaaggacgttgtgtagatggccagtgcatctgccatgaaggattcaccggtctcgattgcggtcagcactcctgcccgagcgactgtaacaacctcggccaatgtgtaagtggtcgctgcatttgcaatgaaggttactcaggggaagactgtagcgaagttagcccgccgaaggatttggtggttacagaagtcaccgaggaaacggttaatctggcctgggacaatgaaatgcgggtaaccgaatatctggtagtttatacacccacccatgagggcgggctggaaatgcagtttcgcgtaccgggtgatcaaacgagtaccattatccaggagttagaaccgggcgtggaatatttcatccgcgtcttcgccattctggaaaacaaaaagtccatccctgtatcagctcgcgttgcaacctacctgccggccccggagggtctcaagtttaagagtatcaaagagacgagcgttgaagtcgaatgggacccactcgacattgctttcgaaacgtgggaaattatctttcgtaacatgaataaggaggatgagggcgaaataaccaaaagcttgcgtcgcccggagacctcttatcgccaaacgggattggcgcctggccaggagtacgagatttctcttcatattgtgaaaaataatactcgcggtccaggcctcaagcgtgtgacgaccacgcgccttgacgcgccctcacagattgaagttaaggatgttactgacaccacggcgctgattacctggttcaaaccgcttgcagaaattgatggcatagaactgacctacggcattaaggatgtcccgggtgaccgtaccaccatagacctgactgaggatgagaaccagtatagtatcggtaatctgaaaccggataccgaatatgaggtgagcctgatcagtcgccgtggagacatgtcgtctaacccggccaaagagacctttaccactggcctggatgcgccacgtaatcttaggcgcgtatcgcaaacagacaactcaattacccttgaatggcgtaacggtaaagcggccattgattcgtatcgaattaaatatgcaccgatttcaggcggcgaccacgcggaagttgatgttcctaaaagccagcaggcgaccacgaaaacgaccctgacgggcctgcgcccgggaacggaatacggtattggcgtatctgcggtgaaagaagacaaggaatccaacccggcgaccattaacgcggcaacagaattggatactccaaaagatctacaagtaagtgaaactgctgaaacgagtctcactctactgtggaaaactccgctggccaaatttgatcggtatcgtctcaactacagtctgccaaccggacagtgggttggggtacagttaccgcgtaacaccacatcatatgttttgcgcggcctggagccgggccaggaatacaatgtcttgctgacggcggagaaaggccgtcataaaagtaaaccggcgcgtgtcaaagcttcgaccgaacaggcaccagaactggaaaacctgacagttacggaggttgggtgggacggtttgcgcttgaactggaccgccgccgaccaggcatacgaacattttatcattcaggtgcaggaagccaacaaggtagaagcagcccgcaatctgaccgtccctgggagcctgagagctgtggatattccggggcttaaagccgcgacaccatatacggtgagtatatacggtgttatccagggctaccgtacgcctgttcttagcgctgaagcgagcaccggcgaaacccctaacctgggcgaggtggtggtggcggaagttggctgggatgcgctgaaactcaactggacagcccctgaaggagcctacgaatatttctttattcaggtccaggaagctgatacagttgaggcggcacagaaccttacggtccccgggggtttgcgttctaccgatctcccgggactgaaggcagcgacgcactacaccattacgatcagaggggtcacccaggattttagtactactcctctgagcgtggaagtcctgaccgaagaagttccggatatgggtaatctaacagtgacagaggtcagctgggatgcactccgactgaactggacgacaccggacggtacttacgaccaattcacaatccaagtgcaagaagcggaccaagtcgaggaggcgcataatcttacggtgccgggcagtctacgctccatggaaatcccgggcctgagggcggggacgccgtatactgttacgctacatggcgaagtacgcggtcattcgacacgtccgttggccgttgaagtcgttaccgaagacctccctcaactcggtgatctggcggtaagcgaagtgggttgggacggcctgcgcctgaattggaccgcagccgataacgcatacgagcatttcgtaatacaggttcaggaggtaaacaaagtggaagccgcgcagaatctgaccctcccgggctcgctgcgtgcagtggatattcctggcctggaagcagccacaccgtatcgtgtcagcatatacggcgtcatacgtggatatcgaacgccggtactgtcggcggaagcatccacggccaaagagccagaaattggcaacttgaacgtaagtgacattactcccgagtcgtttaaccttagttggatggccacggatgggatcttcgaaacctttacgattgagattatagatagcaaccgcttgctggagaccgtagaatataacatcagcggcgcggaacgtactgcgcacatttcgggcctgccaccgtctaccgacttcatagtgtacctgtcgggcctggcgccgagtatccgcacgaagacgatcagcgcaaccgcaaccacagaggcgttgcctttgctcgaaaacctgaccatcagtgatatcaatccatacggtttcacggtctcgtggatggcgagtgagaatgcatttgactcctttttagtgactgtcgtggactcaggtaaacttttagatcctcaggagtttactttgagcggcacccagcgcaaactggaactgcgtggactgattaccggcatcgggtatgaggtgatggtatctgggttcacgcagggtcatcaaaccaaaccattacgggctgagatcgtcactgaagcggaaccggaggtcgataacctactcgtctctgatgcaacgccggacggcttccgcttatcgtggacagccgatgaaggcgtattcgataactttgtcctgaaaattcgcgacactaaaaaacaatctgaacctcttgaaattacactgcttgctccggaacgtacacgtgatattactggcctgcgtgaagcgacggagtatgaaatcgaactgtatgggatttcgaagggtcggcgtagccagactgtgtcggcaattgccacgaccgccatgggatccccgaaagaagttatcttttcggacattaccgagaacagtgcaaccgtgtcatggcgcgccccgacagcgcaggttgagtcatttcgtattacatacgtcccaattaccggcggcacccctagtatggttaccgttgatggcacgaaaacgcagacgcgtttagttaaactgatacccggtgtggaatatttagtgagcatcatcgctatgaagggttttgaggaatccgaacctgtgtctggttcgttcacgaccgctctcgatggtccatccggtctggtcacggcgaacatcacggacagcgaagctctcgcgagatggcagccggcaattgcgaccgttgactcttatgtgatatcgtataccggggagaaagtgccagaaattacccgcaccgtgagcggaaacacagtggaatacgctctgactgatctggaaccggcaaccgaatacaccctgcgaattttcgccgagaaaggcccccaaaagagctccacaataactgcgaagtttaccacggatttagactctcctcgcgatctcacagcgacagaagtccagagcgaaaccgcactcttgacctggcggccaccacgtgcgagtgtcaccggctatctgttagtctacgagtctgtggatggtaccgtcaaagaagtaatagtcggaccggataccacctcctatagcctcgctgacctttccccgtcgacacattacaccgctaaaattcaggctttgaacggccccctgcgctccaatatgattcaaactatctttaccactattggtctgctgtatccgtttccgaaagattgctcccaggcaatgttaaatggcgacactacgtcgggcctgtacactatctatctaaatggtgataaggcagaggcattggaagtgttttgtgacatgacgtcggatggtggagggtggattgtctttttacgccgcaaaaacgggcgagaaaacttctatcagaactggaaggcctatgcggcagggtttggggatcggcgcgaggagttttggctggggctggacaatctgaacaaaattactgcacaaggccagtacgagctgcgtgttgatctgcgcgatcatggtgaaaccgcgtttgcggtgtatgataaattctctgtaggcgatgcgaaaactcgttataaactgaaggtagaagggtattcgggtacagccggcgattctatggcgtaccacaatggtcgttcgtttagcacgtttgataaagataccgacagtgccattaccaactgcgctctttcatacaaaggagctttttggtatcgcaactgccaccgcgtgaatttaatgggccgctacggagacaataatcattcgcagggagttaattggttccattggaagggtcatgagcacagcattcagttcgcggagatgaagttgcgtccgagtaactttcggaatctggaaggacgccgtaaacgcgcgtag BBa_B0012_sequence 1 tcacactggctcaccttcgggtgggcctttctgcgtttata 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