BBa_K118012 1 BBa_K118012 Synthetic ribosome binding site added by Son of Babel procedure 2008-08-18T11:00:00Z 2015-05-08T01:09:36Z Synthetic DNA This is a 4bp synthetic ribosome binding site which can be added by fusion PCR using a reverse primer and the Son of Babel cloning system. false false _192_ 0 3282 9 Not in stock false The part can be added by fusion PCR using a Son of Babel reverse primer. false Andrew Hall BBa_B1006 1 BBa_B1006 Terminator (artificial, large, %T~>90) 2006-08-30T11:00:00Z 2015-08-31T04:07:21Z modified E. coli thr terminator, replaced all A-T pairs in stem with C-G pairs Released HQ 2013 Artificial terminator, estimated %T~>90% *8bp stem, 6nt loop *Bidirectional, estimated reverse %T~>90% false true _41_ 0 745 41 In stock false Bidirectional, with the reverse estimated to be less effective than the forward. Has a polyA tail of 9 residues. true Haiyao Huang annotation1898429 1 modified thr terminator range1898429 1 10 31 annotation1898431 1 PolyA range1898431 1 1 9 annotation1898430 1 PolyA range1898430 1 32 39 annotation1898428 1 B1006 range1898428 1 1 39 BBa_I742151 1 BBa_I742151 crtE (geranylgeranyl pyrophosphate synthase) coding sequence. 2007-10-23T11:00:00Z 2015-08-31T04:08:03Z Pantoea ananatis (formerly Erwinia uredovora) DSMZ 30080 (ATCC 19321). Accession: D90087. crtE (geranylgeranyl pyrophosphate synthase) from Pantoea ananatis (formerly Erwinia uredovora) DSMZ 30080 (ATCC 19321). Accession: D90087. Part of the carotenoid biosynthesis parthway. false false _123_ 0 837 163 Not in stock false No important considerations. false Chris French BBa_K274100 1 BBa_K274100 CrtEBI with rbs 2009-09-17T11:00:00Z 2015-05-08T01:11:45Z Gene coding sequences come from Pantoea ananatis (formerly Erwinia uredovora) (Accession number D90087), a type of Gram negative Enterobacteriaceae. This Composite Biobrick is created by standard assembly of Part BBa_K118014, Part BBa_K118006 and Part BBa_K118005. This Composite Biobrick is created by standard assembly of Part BBa_K118014 (CrtE with rbs), Part BBa_K118006 (CrtB with rbs) and Part BBa_K118005 (CrtI with rbs), which are submitted by previous iGEM teams. The whole cassette is on plasmid pSB1A2 (high copy, Ampicillin resistance). Together, enzymes CrtE, CrtB and CrtI convert colourless farnesyl pyrophosphate to red lycopene (via intermediates geranylgeranyl pyroiphosphate and phytoene). The red lycopene pigment can then be used as a coloured signal output, e.g. for biosensors. There is already individual ribosome binding site before each enzyme gene sequence. Internal restriction sites have been removed by previous iGEM teams. Please refer to Parts BBa_K118014, BBa_K118006 and BBa_K118005 for more information on individual Biobricks components. This Composite Biobrick has been put under constitutive promoter R0011 (see Part BBa_K274110) and arabinose-inducible promoter I0500 (see Part BBa_274120), transformed and tested in E.coli strain MG1655. Amount of lycopene produced can be measured by photospectrometer with absorbance at 475nm (lycopene extraction using acetone). false true _374_ 0 5416 9 In stock false The colourless precursor, farnesyl pyrophosphate, is naturally produced in E.coli using Non-mevalonate Pathway (from pyruvate and glyceraldehyde-3-phosphate). Our experiences showed that the Composite Biobrick, when put under a promoter, works better in E.coli strains with up-regulated level of precursors. E.coli strain MG1655 demonostrates higher level of pigment (lycopene) production than strain TOP10. false Siming Ma component2021352 1 BBa_J15001 component2021348 1 BBa_K118012 component2021357 1 BBa_J15001 component2021354 1 BBa_K118002 component2021349 1 BBa_I742151 component2021361 1 BBa_K118003 annotation2021349 1 BBa_I742151 range2021349 1 11 922 annotation2021361 1 BBa_K118003 range2021361 1 1904 3385 annotation2021357 1 BBa_J15001 range2021357 1 1888 1897 annotation2021354 1 BBa_K118002 range2021354 1 947 1879 annotation2021348 1 BBa_K118012 range2021348 1 1 4 annotation2021352 1 BBa_J15001 range2021352 1 931 940 BBa_J92000 1 BBa_J92000 Lead Uptake Transporter 2010-05-22T11:00:00Z 2015-05-08T01:08:30Z Borremans,B., Hobman,J.L., Provoost,A., Brown,N.L. and van Der Lelie,D. "Cloning and functional analysis of the pbr lead resistance determinant of Ralstonia metallidurans CH34" J. Bacteriol. 183 (19), 5651-5658 (2001) This part was derived from the Pbr T lead uptake protein from Ralstonia metallidurans. The protein is responsible for the uptake of Pb 2+ ions. This part can be used for projects where one needs to uptake lead ions from the environment into the cell interior. false false _415_ 0 6514 415 Not in stock false When designing the part we checked the gene sequence/restriction site profile to make sure the part would be compatible with standards 10 and 23. false Justin D Smith BBa_I750016 1 BBa_I750016 Gas Vesicle polycistonic gene 2007-10-20T11:00:00Z 2015-08-31T04:08:05Z This 5.7Kbp part contains 11 open reading frames coding for gas vesicle genes (gvpB,R,N,F,G,L,S,K,J,T and U) from Bacillus megaterium VT1660 AF053765. Original AF053765 DNA in pBluescriptIIKS plasmid (pNL29 in "Gas Vesicle genes identified in Bacillus megaterium and Functional Expression in Escherichia coli, Ning Li and Maura C. Cannon Jounal of bacteriology May 1998 p2450-2458). This 5.7Kbp part contains 11 open reading frames coding for gas vesicle genes (gvpB,R,N,F,G,L,S,K,J,T and U) from Bacillus megaterium VT1660 AF053765. Promotion of the sequence results in expression of gas vesicles which slow the rate of settling of the cells in Saline. false false _132_ 0 1721 9 It's complicated false Site directed mutagenesis was performed in four rounds to remove 3 PstI sites and one EcoRI site from gvpL in the sequence. Primers with biobrick prefix and suffix were then used in a PCR reaction to amplify the part. Finally BBa_J61035 was used to provide the plasmid backbone which introduced a RBS at the front of the part. true Phillip Dodson annotation1951688 1 gvpL range1951688 1 2633 3842 annotation1954601 1 t->c range1954601 1 2772 2772 annotation1951686 1 gvpF range1951686 1 1597 2364 annotation1951692 1 gvpT range1951692 1 4746 5624 annotation1951698 1 gvpL g696a range1951698 1 3328 3328 annotation1951682 1 b0034 range1951682 1 1 12 annotation1951697 1 gvpL g351a range1951697 1 2983 2983 annotation1951693 1 gvpU range1951693 1 5648 6064 annotation1954603 1 t->a range1954603 1 4532 4532 annotation1951696 1 gvpL g318a range1951696 1 2950 2950 annotation1954616 1 First copy of 40bp section range1954616 1 3304 3343 annotation1954599 1 c->a range1954599 1 718 718 annotation1954604 1 g->a range1954604 1 5070 5070 annotation1951691 1 gvpJ range1951691 1 4407 4709 annotation1951687 1 gvpG range1951687 1 2364 2632 annotation1951683 1 gvpB range1951683 1 19 285 annotation1954602 1 t->a range1954602 1 3222 3222 annotation1951685 1 gvpN range1951685 1 656 1583 annotation1954600 1 t->c range1954600 1 2703 2703 annotation1954598 1 10 repeats of 40bp induced durring mutagenesis range1954598 1 3344 3743 annotation1951690 1 gvpK range1951690 1 4101 4385 annotation1954605 1 g->a range1954605 1 5133 5133 annotation1951684 1 gvpR range1951684 1 361 627 annotation1951689 1 gvpS range1951689 1 3860 4147 annotation1951694 1 gvpL g213a range1951694 1 2845 2845 BBa_J15001 1 BBa_J15001 strong synthetic E. coli ribosome binding site with SacI site. 2007-07-12T11:00:00Z 2015-08-31T04:08:32Z Synthetic. This is a strong synthetic E. coli ribosome binding site. It is synthesised as two complementary oligonucleotides rather than being incorporated into a biobrick plasmid. It incorporates a SacI site overlapping the XbaI site, which is preserved when it is added to any other biobrick. This allows easy detection of the RBS after it has been added upstream of a biobrick coding sequence in a plasmid vector. false false _163_ 0 837 163 Not in stock false Note the presence of a SacI site overlapping the XbaI site, which is preserved when this biobrick is added to any other biobrick. At the time of writing, this biobrick is added as a short piece of DNA composed of two complementary oligonucleotides rather than being incorporated into a biobrick cloning vector by itself. It can be added upstream of a biobrick coding sequence, and its presence can easily be detected in miniprep DNA on a gel by using a SacI-SpeI or similar digest. false Chris French annotation1938045 1 SacI range1938045 1 1 3 annotation1938046 1 rbs range1938046 1 4 10 BBa_I721002 1 BBa_I721002 Lead Binding Protein 2007-10-25T11:00:00Z 2015-08-31T04:07:53Z ralstonia metallidurans lead binding protein part 3 false false _113_ 0 1531 58 It's complicated true none true Jeffrey Hofmann BBa_K118002 1 BBa_K118002 crtB coding sequence encoding phytoene synthase 2008-07-23T11:00:00Z 2015-05-08T01:09:36Z Pantoea ananatis genomic DNA Released HQ 2013 This is the coding sequence of crtB from Pantoea ananatis (formerly Erwinia uredovora) (Accession number D90087). It encodes phytoene synthase, part of the carotenoid biosynthesis pathway, which converts geranylgeranyl diphosphate to phytoene. Reference: Misawa,N., Nakagawa,M., Kobayashi,K., Yamano,S., Izawa,Y., Nakamura,K. and Harashima,K. Elucidation of the Erwinia uredovora carotenoid biosynthetic pathway by functional analysis of gene products expressed in Escherichia coli. J. Bacteriol. 172 (12), 6704-6712 (1990) false false _192_ 0 3282 9 In stock true No special considerations. true Andrew Hall annotation1995701 1 crtB coding sequence range1995701 1 1 930 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_J92002 1 BBa_J92002 Lead Remover and Reporter Device 2010-05-22T11:00:00Z 2015-05-08T01:08:30Z The majority of the subparts come from existing parts in the registry. We also designed a lead uptake part (Bba_J92000) which transports lead into the cell. Our device has two main functions. First of all, it acts as an environmental lead sensor, alerting the user to the presence of lead 2+ ions. Secondly it bioaccumulates the lead ions and removes them from the solution. false true _415_ 0 6514 415 Not in stock false In order to design this part we used the standard 23. We used the NEB biobrick assembly kit for this standard. false Justin D Smith component2236642 1 BBa_I750016 component2236610 1 BBa_J92000 component2236663 1 BBa_K274100 component2236668 1 BBa_B1006 component2236607 1 BBa_I721002 component2236615 1 BBa_B1006 component2236647 1 BBa_B1006 component2236648 1 BBa_I721001 component2236616 1 BBa_I721001 component2236606 1 BBa_B0034 component2236604 1 BBa_J23119 component2236609 1 BBa_B0034 annotation2236606 1 BBa_B0034 range2236606 1 44 55 annotation2236616 1 BBa_I721001 range2236616 1 2489 2582 annotation2236607 1 BBa_I721002 range2236607 1 62 460 annotation2236604 1 BBa_J23119 range2236604 1 1 35 annotation2236609 1 BBa_B0034 range2236609 1 469 480 annotation2236663 1 BBa_K274100 range2236663 1 8812 12196 annotation2236647 1 BBa_B1006 range2236647 1 8663 8701 annotation2236648 1 BBa_I721001 range2236648 1 8710 8803 annotation2236668 1 BBa_B1006 range2236668 1 12205 12243 annotation2236610 1 BBa_J92000 range2236610 1 487 2433 annotation2236642 1 BBa_I750016 range2236642 1 2591 8654 annotation2236615 1 BBa_B1006 range2236615 1 2442 2480 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_K118003 1 BBa_K118003 crtI coding sequence encoding phytoene dehydrogenase 2008-07-23T11:00:00Z 2015-05-08T01:09:36Z Pantoea ananatis genomic DNA Released HQ 2013 This is the coding sequence of crtI from Pantoea ananatis (formerly Erwinia uredovora) (Accession number D90087). It encodes phytoene dehydrogenase, part of the carotenoid biosynthesis pathway, which converts Phytoene to Lycopene. false false _192_ 0 3282 9 In stock true The native crtI sequence contains two internal PstI sites. Primers crtImutf1 and crtImutf2 were ordered so that the MABEL protocol (invented for this purpose) could be used to remove these sites. The mutagenic primers were as follows: * crtImutf1: gtt tac agt aag gtt gcc * crtImutf2: agt aac tct ctg ttt gtg c In both cases, the PstI site CTGCAG was converted to CTGCAA, a silent mutation. true Andrew Hall annotation1968245 1 PstI site removed range1968245 1 889 894 annotation1995702 1 crtI coding sequence range1995702 1 1 1479 annotation1968244 1 PstI site removed range1968244 1 478 483 BBa_I721001 1 BBa_I721001 Lead Promoter 2007-10-25T11:00:00Z 2015-08-31T04:07:53Z ralstonia metallidurans Lead Promoter (Part 4) messed up EcoRI site false false _113_ 0 1531 58 It's complicated true none true Jeffrey Hofmann BBa_B0034_sequence 1 aaagaggagaaa BBa_J92002_sequence 1 ttgacagctagctcagtcctaggtataatgctagctactagagaaagaggagaaatactagatgatgcggatcggtgaactgggcaagaaggcagattgcttggtgcagaccgtgcgcttttacgagtcagaaggcttgctgcccgagcctgcacgtagcgagggcaacttcaggctctatgacgaagtccatttgcagcgcttgctgttcatccgccgctgccgggcgaaggacatgacgctggatgagatccgtcaactgctgaacttacgggatcggccagagttgggctgcggcgaggtgaacgcgctggtcgacgctcatatcgcgcaagtgcggaccaagatgaaggaattgcgcgccttggagcgcgagttaatggatctgcgacgctcctgcgatagcgcccgaacctcgcgcgagtgcggcattctcaacagcttggccgagcccgcctgatactagagaaagaggagaaatactagatgcaagccctgcgtctcctttcgattgttctgctctctctgttcgtgacggtctcgaccgcacaggcagatcctctcgccacgcaagacaaggccaagcaaatctggcaagtactggactaccttgctgtcgactatggccggtccgtcaaggatggccacgtcgccaacgaagccgagtatgccgagatgcaggagttcgcgcaggccgctgaacggcagctaaccgagttgccgccgacgccagccgcgccagagttggccaaggaagcggcggcgttgcgcgcatccattgcagaaaaggccccgcccgaatcagtcggcgagcaagctcgcaaactggccggcggactcctcgcagcctatccggtcccgatggcccccggcaagctgcccgatctgcaacaaggggcaaagctgtatcaaagccaatgtgcttcgtgccacggcgtttccgggcacgcggacggcccactagctgcaaagctgagcccgccaccgatcgccctggctgatcacgagcgcgcccaggagcgcagcgtctttgccctacagcaaatcatcacgcgcggggtagaagggacgtcgatgccggcatttgctcaactctcggacgaggaacgctgggcgctcgcctattttgcctcgaccctttcgtattcggatgccgaccgccaggccggcgccaagctgtggacctctcaaccggctctccacgcagccgtgcccacgctggccttgttaagccagacctccgaggctgcgctcgccaagaccgtcggggcggatgccgctcgccaactgaccgcgtacctcaggagcacgccgggctcggtcaccgcgtcaagcaccgacagcctgatgatcgccagagacaagctgaaggaaagcttggccaccctggacaagggcgacaggcagttggcttcgcggctggcgttgtctgcctatctcgacggcttcgagcccgtcgagccggcgctggctgccaagaaccaggcgctgttccaggatatcgagaagacgatggggctctatcgcaatgctgtgacagcgggccaggtggaacgcgcccatgaaattgcgcagaagttgcaatcgcagcttgacgacgcacaggaggcgctgggcggcaccaatgacgccatatcgaccttcctcggcgccctgacaatcctgctacgagaagggcttgaagccctgttggtggtcgtcgcgatgatggcgttcctgaagaaagcggatcgcaccgatgtcctgccctacgtgcatgcaggctgggttactgcgctggcggccggtgggctgacctgggcggtagccacctatgtcgtcgacctgagtggcgccagtcgcgagatgacggaaggtttttccgcagtgtttgccgcaatcgtgttgcttggcgtgggcatgtggatgcaccagaagagtcttgcgggtcgctggcaggcctatgtgaaggcgaagctgtcctcggcattgaacaagaaatcagcgctgatgctgttcctgctgtcgttcgtgaccgtctatcgagaagtgtttgaaacagtcctcttttacgctgccctgtggacagagggcaacggtgtatttttgctcgcaggacttgcgtcgggtatcgccatcctggccgcgatcgccatcgtgctcctgcgctccacggcgcgcctgccgattggtcagttctttgccttcagctcagcattggtcggcgtgttggcggtcgttctgattggtaaaggcatagctgcgcttcagaaagtcggcttcctacaagttacgccgatctccatgcctcgtatcgacgtcctgggcatttatccgtccgtccagaccgtcgtagcgcaagtcctgattctgctcattatcgccgcaagcgtcgtctacaatttgcggtcgcaccggccatctacccaggtgcaccaccaccaccaccactaatactagagaaaaaaaaaccccgcccctgacagggcggggtttttttttactagagggttgcttcctataaaaaacttgactctatatctactagaggttttctaatgatggcatccggggaaaaccttgtcaatgaagagcgatctatgtactagagaaagaggagaaatactagatgtctattcaaaaaagtactaatagttcaagtttagcagaagtcattgaccgtattttagataaaggaattgttattgatgcttttgcaagagtttctgttgtaggaattgaaattttaacgattgaagcgcgagtggttattgccagtgttgatacatggttacgctatgcagaagcagtagggcttcttcgtgacgacgtagaagaaaacggtcttcctgaacgttcaaattcaagtgaagggcagccgcgttttagtatttaatatgaagtggtatggaaccttccttttttgagggtggttccagcttttagatctaactattggaggctactaaaaatggaaattaaaaaaattatgcaagccgtgaacgactttttcggtgaacacgtagctcctcctcataaaattacctcggtggaagctactgaagatgaaggttggagagttattgttgaagtcattgaagaacgagaatatatgaaaaaatacgccaaagatgaaatgctcggaacgtacgagtgctttgtaaataaagaaaaagaagtcatttcattcaaacgactcgacgtcagatatagaagcgccattggcattgaagcataaacgataagatggcaggaggaacgtaaaaatgaccgtcttaacagacaaaaggaaaaaaggcagtggagcttttatacaagatgacgagacaaaagaggttctttcaagagcgctgagctatttaaaatccggctattccattcattttacaggtcctgccggcggaggcaaaacctctttagcgcgagcgcttgctaaaaagagaaagcgtcctgtaatgctgatgcacgggaatcacgagctcaacaacaaagatttaattggcgattttacgggatacacgagcaaaaaagtaatcgaccagtacgttcgttctgtctataaaaaagatgaacaggtgagtgaaaactggcaggatggccgattgcttgaagctgtaaaaaatggctatacgctgatttacgacgaatttactcgttctaagcctgcgacgaataatatctttctatcgatattagaagaaggcgtgctgccgctgtatggagtaaaaatgaccgatccttttgtgcgcgtgcatcccgatttccgcgtcatcttcacaagcaatccagctgagtatgccggcgtatatgatacgcaagatgcgcttctcgacaggttaattaccatgtttattgattataaagacatcgacagagagacagcgattttaacggagaaaacggacgtagaagaagatgaagcgcgcacaattgtaacgctcgtagcaaacgtgcgaaaccgctctggagacgaaaacagcagcggacttagcctgcgggcttcgcttatgatcgctacccttgccacgcagcaagacattcctatcgatggaagtgacgaagattttcaaacgttatgtatcgatattttgcatcatccgcttaccaaatgtttggatgaagaaaatgcaaaaagcaaagccgaaaaaatcattttagaagaatgtaagaatatagacactgaagaaaagtaaaggagcttgaaaacatgagtgaaacaaacgaaacaggtatttatatttttagcgccattcaaacggataaagacgaagaatttggcgccgtggaagtagaaggaacaaaagctgaaacatttttgattcgctacaaagacgcggctatggtagcagctgaagtaccgatgaaaatttatcatcctaatcgccaaaatttattaatgcatcaaaacgcagtagcagcgattatggacaagaacgatacggttattccaatcagctttgggaatgtattcaaatcaaaagaagacgtaaaagttcttttggaaaacctttatccgcagtttgaaaagctgtttccagcgatcaaaggaaaaattgaagtcggtttaaaagtaattgggaaaaaagaatggcttgagaaaaaagtaaacgaaaatcctgaacttgagaaagtatcagcatccgtaaaaggaaaatcagaagcagccggttattatgagcgtattcaacttggaggaatggctcaaaagatgtttacttccctgcaaaaagaagtcaagacagatgtgttttctccgcttgaagaagcagcggaagcagcaaaagcaaatgagccaacgggcgaaacgatgcttttaaacgcgtctttcttaattaaccgagaagatgaagcgaagtttgatgaaaaagtaaatgaagcgcatgaaaactggaaagacaaagccgattttcattacagcggtccttggcctgcttataattttgtgaacattcgcctaaaagtagaagagaaataacgtgcttcacaaattagtaaccgcacccattaaccttgtagtgaaaatcggcgaaaaagtacaggaagaagctgataaacagctatatgaccttccgacgattcagcaaaagctcattcagcttcaaatgatgtttgagcttggtgaaattccagaagaagcgtttcaagaaaaagaagatgaattgttaatgaggtacgaaattgcgaaacgcagagaaattgaacaatgggaagagctaacacaaaaaagaaatgaggaatcctagatgggagaattactgtatttatacggtttaattccaacaaaagaagcagcagccatagagccgtttccatcttataaggggtttgacggagaacattcactgtacccaattgcgtttgatcaggtgacggctgtagtttctaagctggatgctgacacctattcagaaaaagtgattcaagaaaaaatggagcaggatatgagctggctgcaagaaaaagcatttcatcatcacgaaacggtagccgctttgtacgaagaatttacgatcattccattaaaattttgcaccatttataaaggtgaagaaagtctgcaagcagctattgagattaacaaagaaaagatagaaaattcactgacgctgcttcaaggaaatgaagagtggaatgtgaaaatttactgtgatgatacagagcttaaaaaaggaatcagcgaaacgaatgaaagcgtgaaagcgaaaaaacaagaaattagtcacttatcaccaggaagacagttttttgaaaagaaaaaaatagatcagctgattgaaaaagaattagagcttcacaaaaacaaagtgtgtgaagagatacatgacaagctaaaagaattatcgctttatgactctgttaaaaagaattggagcaaagacgtaactggcgcagctgaacagatggcgtggaacagcgtgtttcttctcccgtctctgcaaattactaagttcgtacgtgtttcttctcccgtctctgcaaattactaagttcgtacgtgtttcttctcccgtctctgcaaattactaagttcgtacgtgtttcttctcccgtctctgcaaattactaagttcgtacgtgtttcttctcccgtctctgcaaattactaagttcgtacgtgtttcttctcccgtctctgcaaattactaagttcgtacgtgtttcttctcccgtctctgcaaattactaagttcgtacgtgtttcttctcccgtctctgcaaattactaagttcgtacgtgtttcttctcccgtctctgcaaattactaagttcgtacgtgtttcttctcccgtctctgcaaattactaagttcgtacgtgtttcttctcccgtctctgcaaattactaagttcgtaaacgaaatagaagagcttcagcaaaggcttgaaaataaaggctggaagtttgaagtgacgggaccatggccgccctatcatttctcgagctttgcgtaaagtgaggaattaacattatgtctcttaaacaatccatggagaataaagatattgctcttattgatattttagatgtcattttagataaaggagtcgccattaaaggagacttaatcatttccatagctggcgtcgatttagtgtatttggatttgcgggtgcttatttcttcggttgaaacgcttgtgcaagcaaaagaaggaaatcacaaaccaatcacttctgaacaatttgataaacaaaaggaggaattaatggatgcaaccggtcagccaagcaaatggacgaatccacttggatcctgatcaagctgaacaaggcttagcgcagcttgtgatgacagttattgagctattgaggcaaatcgttgaacgtcatgccatgaggcgggtggagggtggaacgttgacggacgaacaaattgaaaacttaggaattgcactaatgaacttagaagaaaaaatggacgagttgaaagaggtgttcggtctggatgcagaagatttaaatattgatcttggaccgctaggcagcctgctttaagcggtcagtaggaggaacagtatggcagtcgaacataatatgcagtcaagtacgattgtagatgtgctcgaaaagattttggataaaggagtcgttatagcgggggacatcaccgtaggaattgcagatgtcgagctattaacgataaagatccgcttgattgtggcttcggttgataaggcaaaagaaatcggcatggactggtgggaaaatgatccgtatctcagttcaaaaggagccaataacaaagcgctcgaagaagaaaataaaatgctgcatgagcggttaaaaacgcttgaagaaaaaatagaaacgaaacgttaaaaactgtacgctacttaaaaaatggagggatttacaatggcaactgaaacaaaattagataacacacaggcagaaaacaaggaaaataaaaatgcggaaaacggttcaaaagaaaagaacggttcaaaagcaagcaaaacaacaagcagcgggccaatcaaacgagcggtagcaggaggcatcatcggtgcaacgattggatatgtatcgactcctgaaaatcgaaaaagtctccttgaccgcattgatacagacgaattaaaaagcaaagcatctgatttaggaacaaaggtaaaagaaaaatcaaaaagcagcgtggccagcctgaaaacatctgcgggaagcttgtttaaaaaagataaagataaatcaaaagatgatgaagaaaacgtaaattcttctagtagcgaaacagaagacgataacgttcaagagtacgacgagttaaaagaagaaaatcaaactcttcaagatcgcttatcacagcttgaagaaaaaatgaacatgcttgttgagcttagcctcaataaaaatcaagacgaagaagcggaagatacagattccgacgaagaagagaacgatgagaacgatgaaaacgatgaaaacgagcaggacgatgaaaacgaagaagaaacatctaagccacgtaaaaaggataaaaaagaagctgaggaagaagaaagtgaaagtgacgaagacagcgaggaagaagaggaagattctcgctcaaacaaaaaaaataaaaaagtaaaaacagaagaagaagacgaagatgaaagcgaagaagaaaaaaaggaagcgaaaccaaaaaagtcaacagctaaaaaatcaaaaaatacaaaagcaaagaaaaacacggacgaagaagatgatgaagcaacatctctttctagtgaagacgatacaacagcctaagacgtaaaggaggaaagaaagacatgagtacaggcccttctttttcaactaaagacaatacgcttgaatactttgtgaaagcttctaataaacacggcttttcacttgatatttcattaaatgtaaacggcgctgtgatttccggtaccatgatttcagcaaaagaatactttgattacttaagcgaaacgtttgaagaaggcagtgaagtggctcaggcgctaagcgaacaattctctttagcaagcgaagcgagcgaatcaaacggagaagcagaagcccattttattcatttgaaaaatacaaagatttactgtggagacagtaaatctactccttctaaaggcaaaatcttttggagagggaaaatagcagaagtagacgggtttttcttaggaaagatttctgatgcaaaatcaacgagtaaaaagagttcataatactagagaaaaaaaaaccccgcccctgacagggcggggtttttttttactagagggttgcttcctataaaaaacttgactctatatctactagaggttttctaatgatggcatccggggaaaaccttgtcaatgaagagcgatctatgtactagaggaggtactagatgacggtctgcgcaaaaaaacacgttcatctcactcgcgatgctgcggagcagttactggctgatattgatcgacgccttgatcagttattgcccgtggagggagaacgggatgttgtgggtgccgcgatgcgtgaaggtgcgctggcaccgggaaaacgtattcgccccatgttgctgttgctgaccgcccgcgatctgggttgcgctgtcagccatgacggattactggatttggcctgtgcggtggaaatggtccacgcggcttcgctgatccttgacgatatgccctgcatggacgatgcgaagctgcggcgcggacgccctaccattcattctcattacggagagcatgtggcaatactggcggcggttgccttgctgagtaaagcctttggcgtaattgccgatgcagatggcctcacgccgctggcaaaaaatcgggcggtttctgaactgtcaaacgccatcggcatgcaaggattggttcagggtcagttcaaggatctgtctgaaggggataagccgcgcagcgctgaagctattttgatgacgaatcactttaaaaccagcacgctgttttgtgcctccatgcagatggcctcgattgttgcgaatgcctccagcgaagcgcgtgattgcctgcatcgtttttcacttgatcttggtcaggcatttcaactgctggacgatttgaccgatggcatgaccgacaccggtaaggatagcaatcaggacgccggtaaatcgacgctggtcaatctgttaggcccgagggcggttgaagaacgtctgagacaacatcttcagcttgccagtgagcatctctctgcggcctgccaacacgggcacgccactcaacattttattcaggcctggtttgacaaaaaactcgctgccgtcagttaataatactagagctcaaggaggtactagatgaataatccgtcgttactcaatcatgcggtcgaaacgatggcagttggctcgaaaagttttgcgacagcctcaaagttatttgatgcaaaaacccggcgcagcgtactgatgctctacgcctggtgccgccattgtgacgatgttattgacgatcagacgctgggctttcaggcccggcagcctgccttacaaacgcccgaacaacgtctgatgcaacttgagatgaaaacgcgccaggcctatgcaggatcgcagatgcacgaaccggcgtttgcggcttttcaggaagtggctatggctcatgatatcgccccggcttacgcgtttgatcatctggaaggcttcgccatggatgtacgcgaagcgcaatacagccaactggatgatacgctgcgctattgctatcacgttgcaggcgttgtcggcttgatgatggcgcaaatcatgggcgtgcgggataacgccacgctggaccgcgcctgtgaccttgggctggcatttcagttgaccaatattgctcgcgatattgtggacgatgcgcatgcgggccgctgttatctgccggcaagctggctggagcatgaaggtctgaacaaagagaattatgcggcacctgaaaaccgtcaggcgctgagccgtatcgcccgtcgtttggtgcaggaagcagaaccttactatttgtctgccacagccggcctggcagggttgcccctgcgttccgcctgggcaatcgctacggcgaagcaggtttaccggaaaataggtgtcaaagttgaacaggccggtcagcaagcctgggatcagcggcagtcaacgaccacgcccgaaaaattaacgctgctgctggccgcctctggtcaggcccttacttcccggatgcgggctcatcctccccgccctgcgcatctctggcagcgcccgctctaataatactagagctcaaggaggtactagatgaaaccaactacggtaattggtgcaggcttcggtggcctggcactggcaattcgtctacaagctgcggggatccccgtcttactgcttgaacaacgtgataaacccggcggtcgggcttatgtctacgaggatcaggggtttacctttgatgcaggcccgacggttatcaccgatcccagtgccattgaagaactgtttgcactggcaggaaaacagttaaaagagtatgtcgaactgctgccggttacgccgttttaccgcctgtgttgggagtcagggaaggtctttaattacgataacgatcaaacccggctcgaagcgcagattcagcagtttaatccccgcgatgtcgaaggttatcgtcagtttctggactattcacgcgcggtgtttaaagaaggctatctaaagctcggtactgtcccttttttatcgttcagagacatgcttcgcgccgcacctcaactggcgaaactgcaagcatggagaagcgtttacagtaaggttgccagttacatcgaagatgaacatctgcgccaggcgttttctttccactcgctgttggtgggcggcaatcccttcgccacctcatccatttatacgttgatacacgcgctggagcgtgagtggggcgtctggtttccgcgtggcggcaccggcgcattagttcaggggatgataaagctgtttcaggatctgggtggcgaagtcgtgttaaacgccagagtcagccatatggaaacgacaggaaacaagattgaagccgtgcatttagaggacggtcgcaggttcctgacgcaagccgtcgcgtcaaatgcagatgtggttcatacctatcgcgacctgttaagccagcaccctgccgcggttaagcagtccaacaaactgcaaactaagcgcatgagtaactctctgtttgtgctctattttggtttgaatcaccatcatgatcagctcgcgcatcacacggtttgtttcggcccgcgttaccgcgagctgattgacgaaatttttaatcatgatggcctcgcagaggacttctcactttatctgcacgcgccctgtgtcacggattcgtcactggcgcctgaaggttgcggcagttactatgtgttggcgccggtgccgcatttaggcaccgcgaacctcgactggacggttgaggggccaaaactacgcgaccgtatttttgcgtaccttgagcagcattacatgcctggcttacggagtcagctggtcacgcaccggatgtttacgccgtttgattttcgcgaccagcttaatgcctatcatggctcagccttttctgtggagcccgttcttacccagagcgcctggtttcggccgcataaccgcgataaaaccattactaatctctacctggtcggcgcaggcacgcatcccggcgcaggcattcctggcgtcatcggctcggcaaaagcgacagcaggtttgatgctggaggatctgatataataatactagagaaaaaaaaaccccgcccctgacagggcggggtttttttt BBa_J15001_sequence 1 ctcaaggagg BBa_K118002_sequence 1 atgaataatccgtcgttactcaatcatgcggtcgaaacgatggcagttggctcgaaaagttttgcgacagcctcaaagttatttgatgcaaaaacccggcgcagcgtactgatgctctacgcctggtgccgccattgtgacgatgttattgacgatcagacgctgggctttcaggcccggcagcctgccttacaaacgcccgaacaacgtctgatgcaacttgagatgaaaacgcgccaggcctatgcaggatcgcagatgcacgaaccggcgtttgcggcttttcaggaagtggctatggctcatgatatcgccccggcttacgcgtttgatcatctggaaggcttcgccatggatgtacgcgaagcgcaatacagccaactggatgatacgctgcgctattgctatcacgttgcaggcgttgtcggcttgatgatggcgcaaatcatgggcgtgcgggataacgccacgctggaccgcgcctgtgaccttgggctggcatttcagttgaccaatattgctcgcgatattgtggacgatgcgcatgcgggccgctgttatctgccggcaagctggctggagcatgaaggtctgaacaaagagaattatgcggcacctgaaaaccgtcaggcgctgagccgtatcgcccgtcgtttggtgcaggaagcagaaccttactatttgtctgccacagccggcctggcagggttgcccctgcgttccgcctgggcaatcgctacggcgaagcaggtttaccggaaaataggtgtcaaagttgaacaggccggtcagcaagcctgggatcagcggcagtcaacgaccacgcccgaaaaattaacgctgctgctggccgcctctggtcaggcccttacttcccggatgcgggctcatcctccccgccctgcgcatctctggcagcgcccgctctaataa BBa_K118003_sequence 1 atgaaaccaactacggtaattggtgcaggcttcggtggcctggcactggcaattcgtctacaagctgcggggatccccgtcttactgcttgaacaacgtgataaacccggcggtcgggcttatgtctacgaggatcaggggtttacctttgatgcaggcccgacggttatcaccgatcccagtgccattgaagaactgtttgcactggcaggaaaacagttaaaagagtatgtcgaactgctgccggttacgccgttttaccgcctgtgttgggagtcagggaaggtctttaattacgataacgatcaaacccggctcgaagcgcagattcagcagtttaatccccgcgatgtcgaaggttatcgtcagtttctggactattcacgcgcggtgtttaaagaaggctatctaaagctcggtactgtcccttttttatcgttcagagacatgcttcgcgccgcacctcaactggcgaaactgcaagcatggagaagcgtttacagtaaggttgccagttacatcgaagatgaacatctgcgccaggcgttttctttccactcgctgttggtgggcggcaatcccttcgccacctcatccatttatacgttgatacacgcgctggagcgtgagtggggcgtctggtttccgcgtggcggcaccggcgcattagttcaggggatgataaagctgtttcaggatctgggtggcgaagtcgtgttaaacgccagagtcagccatatggaaacgacaggaaacaagattgaagccgtgcatttagaggacggtcgcaggttcctgacgcaagccgtcgcgtcaaatgcagatgtggttcatacctatcgcgacctgttaagccagcaccctgccgcggttaagcagtccaacaaactgcaaactaagcgcatgagtaactctctgtttgtgctctattttggtttgaatcaccatcatgatcagctcgcgcatcacacggtttgtttcggcccgcgttaccgcgagctgattgacgaaatttttaatcatgatggcctcgcagaggacttctcactttatctgcacgcgccctgtgtcacggattcgtcactggcgcctgaaggttgcggcagttactatgtgttggcgccggtgccgcatttaggcaccgcgaacctcgactggacggttgaggggccaaaactacgcgaccgtatttttgcgtaccttgagcagcattacatgcctggcttacggagtcagctggtcacgcaccggatgtttacgccgtttgattttcgcgaccagcttaatgcctatcatggctcagccttttctgtggagcccgttcttacccagagcgcctggtttcggccgcataaccgcgataaaaccattactaatctctacctggtcggcgcaggcacgcatcccggcgcaggcattcctggcgtcatcggctcggcaaaagcgacagcaggtttgatgctggaggatctgatataataa BBa_I742151_sequence 1 atgacggtctgcgcaaaaaaacacgttcatctcactcgcgatgctgcggagcagttactggctgatattgatcgacgccttgatcagttattgcccgtggagggagaacgggatgttgtgggtgccgcgatgcgtgaaggtgcgctggcaccgggaaaacgtattcgccccatgttgctgttgctgaccgcccgcgatctgggttgcgctgtcagccatgacggattactggatttggcctgtgcggtggaaatggtccacgcggcttcgctgatccttgacgatatgccctgcatggacgatgcgaagctgcggcgcggacgccctaccattcattctcattacggagagcatgtggcaatactggcggcggttgccttgctgagtaaagcctttggcgtaattgccgatgcagatggcctcacgccgctggcaaaaaatcgggcggtttctgaactgtcaaacgccatcggcatgcaaggattggttcagggtcagttcaaggatctgtctgaaggggataagccgcgcagcgctgaagctattttgatgacgaatcactttaaaaccagcacgctgttttgtgcctccatgcagatggcctcgattgttgcgaatgcctccagcgaagcgcgtgattgcctgcatcgtttttcacttgatcttggtcaggcatttcaactgctggacgatttgaccgatggcatgaccgacaccggtaaggatagcaatcaggacgccggtaaatcgacgctggtcaatctgttaggcccgagggcggttgaagaacgtctgagacaacatcttcagcttgccagtgagcatctctctgcggcctgccaacacgggcacgccactcaacattttattcaggcctggtttgacaaaaaactcgctgccgtcagttaataa BBa_J92000_sequence 1 atgcaagccctgcgtctcctttcgattgttctgctctctctgttcgtgacggtctcgaccgcacaggcagatcctctcgccacgcaagacaaggccaagcaaatctggcaagtactggactaccttgctgtcgactatggccggtccgtcaaggatggccacgtcgccaacgaagccgagtatgccgagatgcaggagttcgcgcaggccgctgaacggcagctaaccgagttgccgccgacgccagccgcgccagagttggccaaggaagcggcggcgttgcgcgcatccattgcagaaaaggccccgcccgaatcagtcggcgagcaagctcgcaaactggccggcggactcctcgcagcctatccggtcccgatggcccccggcaagctgcccgatctgcaacaaggggcaaagctgtatcaaagccaatgtgcttcgtgccacggcgtttccgggcacgcggacggcccactagctgcaaagctgagcccgccaccgatcgccctggctgatcacgagcgcgcccaggagcgcagcgtctttgccctacagcaaatcatcacgcgcggggtagaagggacgtcgatgccggcatttgctcaactctcggacgaggaacgctgggcgctcgcctattttgcctcgaccctttcgtattcggatgccgaccgccaggccggcgccaagctgtggacctctcaaccggctctccacgcagccgtgcccacgctggccttgttaagccagacctccgaggctgcgctcgccaagaccgtcggggcggatgccgctcgccaactgaccgcgtacctcaggagcacgccgggctcggtcaccgcgtcaagcaccgacagcctgatgatcgccagagacaagctgaaggaaagcttggccaccctggacaagggcgacaggcagttggcttcgcggctggcgttgtctgcctatctcgacggcttcgagcccgtcgagccggcgctggctgccaagaaccaggcgctgttccaggatatcgagaagacgatggggctctatcgcaatgctgtgacagcgggccaggtggaacgcgcccatgaaattgcgcagaagttgcaatcgcagcttgacgacgcacaggaggcgctgggcggcaccaatgacgccatatcgaccttcctcggcgccctgacaatcctgctacgagaagggcttgaagccctgttggtggtcgtcgcgatgatggcgttcctgaagaaagcggatcgcaccgatgtcctgccctacgtgcatgcaggctgggttactgcgctggcggccggtgggctgacctgggcggtagccacctatgtcgtcgacctgagtggcgccagtcgcgagatgacggaaggtttttccgcagtgtttgccgcaatcgtgttgcttggcgtgggcatgtggatgcaccagaagagtcttgcgggtcgctggcaggcctatgtgaaggcgaagctgtcctcggcattgaacaagaaatcagcgctgatgctgttcctgctgtcgttcgtgaccgtctatcgagaagtgtttgaaacagtcctcttttacgctgccctgtggacagagggcaacggtgtatttttgctcgcaggacttgcgtcgggtatcgccatcctggccgcgatcgccatcgtgctcctgcgctccacggcgcgcctgccgattggtcagttctttgccttcagctcagcattggtcggcgtgttggcggtcgttctgattggtaaaggcatagctgcgcttcagaaagtcggcttcctacaagttacgccgatctccatgcctcgtatcgacgtcctgggcatttatccgtccgtccagaccgtcgtagcgcaagtcctgattctgctcattatcgccgcaagcgtcgtctacaatttgcggtcgcaccggccatctacccaggtgcaccaccaccaccaccactaa BBa_I750016_sequence 1 aaagaggagaaatactagatgtctattcaaaaaagtactaatagttcaagtttagcagaagtcattgaccgtattttagataaaggaattgttattgatgcttttgcaagagtttctgttgtaggaattgaaattttaacgattgaagcgcgagtggttattgccagtgttgatacatggttacgctatgcagaagcagtagggcttcttcgtgacgacgtagaagaaaacggtcttcctgaacgttcaaattcaagtgaagggcagccgcgttttagtatttaatatgaagtggtatggaaccttccttttttgagggtggttccagcttttagatctaactattggaggctactaaaaatggaaattaaaaaaattatgcaagccgtgaacgactttttcggtgaacacgtagctcctcctcataaaattacctcggtggaagctactgaagatgaaggttggagagttattgttgaagtcattgaagaacgagaatatatgaaaaaatacgccaaagatgaaatgctcggaacgtacgagtgctttgtaaataaagaaaaagaagtcatttcattcaaacgactcgacgtcagatatagaagcgccattggcattgaagcataaacgataagatggcaggaggaacgtaaaaatgaccgtcttaacagacaaaaggaaaaaaggcagtggagcttttatacaagatgacgagacaaaagaggttctttcaagagcgctgagctatttaaaatccggctattccattcattttacaggtcctgccggcggaggcaaaacctctttagcgcgagcgcttgctaaaaagagaaagcgtcctgtaatgctgatgcacgggaatcacgagctcaacaacaaagatttaattggcgattttacgggatacacgagcaaaaaagtaatcgaccagtacgttcgttctgtctataaaaaagatgaacaggtgagtgaaaactggcaggatggccgattgcttgaagctgtaaaaaatggctatacgctgatttacgacgaatttactcgttctaagcctgcgacgaataatatctttctatcgatattagaagaaggcgtgctgccgctgtatggagtaaaaatgaccgatccttttgtgcgcgtgcatcccgatttccgcgtcatcttcacaagcaatccagctgagtatgccggcgtatatgatacgcaagatgcgcttctcgacaggttaattaccatgtttattgattataaagacatcgacagagagacagcgattttaacggagaaaacggacgtagaagaagatgaagcgcgcacaattgtaacgctcgtagcaaacgtgcgaaaccgctctggagacgaaaacagcagcggacttagcctgcgggcttcgcttatgatcgctacccttgccacgcagcaagacattcctatcgatggaagtgacgaagattttcaaacgttatgtatcgatattttgcatcatccgcttaccaaatgtttggatgaagaaaatgcaaaaagcaaagccgaaaaaatcattttagaagaatgtaagaatatagacactgaagaaaagtaaaggagcttgaaaacatgagtgaaacaaacgaaacaggtatttatatttttagcgccattcaaacggataaagacgaagaatttggcgccgtggaagtagaaggaacaaaagctgaaacatttttgattcgctacaaagacgcggctatggtagcagctgaagtaccgatgaaaatttatcatcctaatcgccaaaatttattaatgcatcaaaacgcagtagcagcgattatggacaagaacgatacggttattccaatcagctttgggaatgtattcaaatcaaaagaagacgtaaaagttcttttggaaaacctttatccgcagtttgaaaagctgtttccagcgatcaaaggaaaaattgaagtcggtttaaaagtaattgggaaaaaagaatggcttgagaaaaaagtaaacgaaaatcctgaacttgagaaagtatcagcatccgtaaaaggaaaatcagaagcagccggttattatgagcgtattcaacttggaggaatggctcaaaagatgtttacttccctgcaaaaagaagtcaagacagatgtgttttctccgcttgaagaagcagcggaagcagcaaaagcaaatgagccaacgggcgaaacgatgcttttaaacgcgtctttcttaattaaccgagaagatgaagcgaagtttgatgaaaaagtaaatgaagcgcatgaaaactggaaagacaaagccgattttcattacagcggtccttggcctgcttataattttgtgaacattcgcctaaaagtagaagagaaataacgtgcttcacaaattagtaaccgcacccattaaccttgtagtgaaaatcggcgaaaaagtacaggaagaagctgataaacagctatatgaccttccgacgattcagcaaaagctcattcagcttcaaatgatgtttgagcttggtgaaattccagaagaagcgtttcaagaaaaagaagatgaattgttaatgaggtacgaaattgcgaaacgcagagaaattgaacaatgggaagagctaacacaaaaaagaaatgaggaatcctagatgggagaattactgtatttatacggtttaattccaacaaaagaagcagcagccatagagccgtttccatcttataaggggtttgacggagaacattcactgtacccaattgcgtttgatcaggtgacggctgtagtttctaagctggatgctgacacctattcagaaaaagtgattcaagaaaaaatggagcaggatatgagctggctgcaagaaaaagcatttcatcatcacgaaacggtagccgctttgtacgaagaatttacgatcattccattaaaattttgcaccatttataaaggtgaagaaagtctgcaagcagctattgagattaacaaagaaaagatagaaaattcactgacgctgcttcaaggaaatgaagagtggaatgtgaaaatttactgtgatgatacagagcttaaaaaaggaatcagcgaaacgaatgaaagcgtgaaagcgaaaaaacaagaaattagtcacttatcaccaggaagacagttttttgaaaagaaaaaaatagatcagctgattgaaaaagaattagagcttcacaaaaacaaagtgtgtgaagagatacatgacaagctaaaagaattatcgctttatgactctgttaaaaagaattggagcaaagacgtaactggcgcagctgaacagatggcgtggaacagcgtgtttcttctcccgtctctgcaaattactaagttcgtacgtgtttcttctcccgtctctgcaaattactaagttcgtacgtgtttcttctcccgtctctgcaaattactaagttcgtacgtgtttcttctcccgtctctgcaaattactaagttcgtacgtgtttcttctcccgtctctgcaaattactaagttcgtacgtgtttcttctcccgtctctgcaaattactaagttcgtacgtgtttcttctcccgtctctgcaaattactaagttcgtacgtgtttcttctcccgtctctgcaaattactaagttcgtacgtgtttcttctcccgtctctgcaaattactaagttcgtacgtgtttcttctcccgtctctgcaaattactaagttcgtacgtgtttcttctcccgtctctgcaaattactaagttcgtaaacgaaatagaagagcttcagcaaaggcttgaaaataaaggctggaagtttgaagtgacgggaccatggccgccctatcatttctcgagctttgcgtaaagtgaggaattaacattatgtctcttaaacaatccatggagaataaagatattgctcttattgatattttagatgtcattttagataaaggagtcgccattaaaggagacttaatcatttccatagctggcgtcgatttagtgtatttggatttgcgggtgcttatttcttcggttgaaacgcttgtgcaagcaaaagaaggaaatcacaaaccaatcacttctgaacaatttgataaacaaaaggaggaattaatggatgcaaccggtcagccaagcaaatggacgaatccacttggatcctgatcaagctgaacaaggcttagcgcagcttgtgatgacagttattgagctattgaggcaaatcgttgaacgtcatgccatgaggcgggtggagggtggaacgttgacggacgaacaaattgaaaacttaggaattgcactaatgaacttagaagaaaaaatggacgagttgaaagaggtgttcggtctggatgcagaagatttaaatattgatcttggaccgctaggcagcctgctttaagcggtcagtaggaggaacagtatggcagtcgaacataatatgcagtcaagtacgattgtagatgtgctcgaaaagattttggataaaggagtcgttatagcgggggacatcaccgtaggaattgcagatgtcgagctattaacgataaagatccgcttgattgtggcttcggttgataaggcaaaagaaatcggcatggactggtgggaaaatgatccgtatctcagttcaaaaggagccaataacaaagcgctcgaagaagaaaataaaatgctgcatgagcggttaaaaacgcttgaagaaaaaatagaaacgaaacgttaaaaactgtacgctacttaaaaaatggagggatttacaatggcaactgaaacaaaattagataacacacaggcagaaaacaaggaaaataaaaatgcggaaaacggttcaaaagaaaagaacggttcaaaagcaagcaaaacaacaagcagcgggccaatcaaacgagcggtagcaggaggcatcatcggtgcaacgattggatatgtatcgactcctgaaaatcgaaaaagtctccttgaccgcattgatacagacgaattaaaaagcaaagcatctgatttaggaacaaaggtaaaagaaaaatcaaaaagcagcgtggccagcctgaaaacatctgcgggaagcttgtttaaaaaagataaagataaatcaaaagatgatgaagaaaacgtaaattcttctagtagcgaaacagaagacgataacgttcaagagtacgacgagttaaaagaagaaaatcaaactcttcaagatcgcttatcacagcttgaagaaaaaatgaacatgcttgttgagcttagcctcaataaaaatcaagacgaagaagcggaagatacagattccgacgaagaagagaacgatgagaacgatgaaaacgatgaaaacgagcaggacgatgaaaacgaagaagaaacatctaagccacgtaaaaaggataaaaaagaagctgaggaagaagaaagtgaaagtgacgaagacagcgaggaagaagaggaagattctcgctcaaacaaaaaaaataaaaaagtaaaaacagaagaagaagacgaagatgaaagcgaagaagaaaaaaaggaagcgaaaccaaaaaagtcaacagctaaaaaatcaaaaaatacaaaagcaaagaaaaacacggacgaagaagatgatgaagcaacatctctttctagtgaagacgatacaacagcctaagacgtaaaggaggaaagaaagacatgagtacaggcccttctttttcaactaaagacaatacgcttgaatactttgtgaaagcttctaataaacacggcttttcacttgatatttcattaaatgtaaacggcgctgtgatttccggtaccatgatttcagcaaaagaatactttgattacttaagcgaaacgtttgaagaaggcagtgaagtggctcaggcgctaagcgaacaattctctttagcaagcgaagcgagcgaatcaaacggagaagcagaagcccattttattcatttgaaaaatacaaagatttactgtggagacagtaaatctactccttctaaaggcaaaatcttttggagagggaaaatagcagaagtagacgggtttttcttaggaaagatttctgatgcaaaatcaacgagtaaaaagagttcataa BBa_J23119_sequence 1 ttgacagctagctcagtcctaggtataatgctagc BBa_I721002_sequence 1 atgatgcggatcggtgaactgggcaagaaggcagattgcttggtgcagaccgtgcgcttttacgagtcagaaggcttgctgcccgagcctgcacgtagcgagggcaacttcaggctctatgacgaagtccatttgcagcgcttgctgttcatccgccgctgccgggcgaaggacatgacgctggatgagatccgtcaactgctgaacttacgggatcggccagagttgggctgcggcgaggtgaacgcgctggtcgacgctcatatcgcgcaagtgcggaccaagatgaaggaattgcgcgccttggagcgcgagttaatggatctgcgacgctcctgcgatagcgcccgaacctcgcgcgagtgcggcattctcaacagcttggccgagcccgcctga BBa_I721001_sequence 1 ggttgcttcctataaaaaacttgactctatatctactagaggttttctaatgatggcatccggggaaaaccttgtcaatgaagagcgatctatg BBa_K118012_sequence 1 gagg BBa_B1006_sequence 1 aaaaaaaaaccccgcccctgacagggcggggtttttttt BBa_K274100_sequence 1 gaggtactagatgacggtctgcgcaaaaaaacacgttcatctcactcgcgatgctgcggagcagttactggctgatattgatcgacgccttgatcagttattgcccgtggagggagaacgggatgttgtgggtgccgcgatgcgtgaaggtgcgctggcaccgggaaaacgtattcgccccatgttgctgttgctgaccgcccgcgatctgggttgcgctgtcagccatgacggattactggatttggcctgtgcggtggaaatggtccacgcggcttcgctgatccttgacgatatgccctgcatggacgatgcgaagctgcggcgcggacgccctaccattcattctcattacggagagcatgtggcaatactggcggcggttgccttgctgagtaaagcctttggcgtaattgccgatgcagatggcctcacgccgctggcaaaaaatcgggcggtttctgaactgtcaaacgccatcggcatgcaaggattggttcagggtcagttcaaggatctgtctgaaggggataagccgcgcagcgctgaagctattttgatgacgaatcactttaaaaccagcacgctgttttgtgcctccatgcagatggcctcgattgttgcgaatgcctccagcgaagcgcgtgattgcctgcatcgtttttcacttgatcttggtcaggcatttcaactgctggacgatttgaccgatggcatgaccgacaccggtaaggatagcaatcaggacgccggtaaatcgacgctggtcaatctgttaggcccgagggcggttgaagaacgtctgagacaacatcttcagcttgccagtgagcatctctctgcggcctgccaacacgggcacgccactcaacattttattcaggcctggtttgacaaaaaactcgctgccgtcagttaataatactagagctcaaggaggtactagatgaataatccgtcgttactcaatcatgcggtcgaaacgatggcagttggctcgaaaagttttgcgacagcctcaaagttatttgatgcaaaaacccggcgcagcgtactgatgctctacgcctggtgccgccattgtgacgatgttattgacgatcagacgctgggctttcaggcccggcagcctgccttacaaacgcccgaacaacgtctgatgcaacttgagatgaaaacgcgccaggcctatgcaggatcgcagatgcacgaaccggcgtttgcggcttttcaggaagtggctatggctcatgatatcgccccggcttacgcgtttgatcatctggaaggcttcgccatggatgtacgcgaagcgcaatacagccaactggatgatacgctgcgctattgctatcacgttgcaggcgttgtcggcttgatgatggcgcaaatcatgggcgtgcgggataacgccacgctggaccgcgcctgtgaccttgggctggcatttcagttgaccaatattgctcgcgatattgtggacgatgcgcatgcgggccgctgttatctgccggcaagctggctggagcatgaaggtctgaacaaagagaattatgcggcacctgaaaaccgtcaggcgctgagccgtatcgcccgtcgtttggtgcaggaagcagaaccttactatttgtctgccacagccggcctggcagggttgcccctgcgttccgcctgggcaatcgctacggcgaagcaggtttaccggaaaataggtgtcaaagttgaacaggccggtcagcaagcctgggatcagcggcagtcaacgaccacgcccgaaaaattaacgctgctgctggccgcctctggtcaggcccttacttcccggatgcgggctcatcctccccgccctgcgcatctctggcagcgcccgctctaataatactagagctcaaggaggtactagatgaaaccaactacggtaattggtgcaggcttcggtggcctggcactggcaattcgtctacaagctgcggggatccccgtcttactgcttgaacaacgtgataaacccggcggtcgggcttatgtctacgaggatcaggggtttacctttgatgcaggcccgacggttatcaccgatcccagtgccattgaagaactgtttgcactggcaggaaaacagttaaaagagtatgtcgaactgctgccggttacgccgttttaccgcctgtgttgggagtcagggaaggtctttaattacgataacgatcaaacccggctcgaagcgcagattcagcagtttaatccccgcgatgtcgaaggttatcgtcagtttctggactattcacgcgcggtgtttaaagaaggctatctaaagctcggtactgtcccttttttatcgttcagagacatgcttcgcgccgcacctcaactggcgaaactgcaagcatggagaagcgtttacagtaaggttgccagttacatcgaagatgaacatctgcgccaggcgttttctttccactcgctgttggtgggcggcaatcccttcgccacctcatccatttatacgttgatacacgcgctggagcgtgagtggggcgtctggtttccgcgtggcggcaccggcgcattagttcaggggatgataaagctgtttcaggatctgggtggcgaagtcgtgttaaacgccagagtcagccatatggaaacgacaggaaacaagattgaagccgtgcatttagaggacggtcgcaggttcctgacgcaagccgtcgcgtcaaatgcagatgtggttcatacctatcgcgacctgttaagccagcaccctgccgcggttaagcagtccaacaaactgcaaactaagcgcatgagtaactctctgtttgtgctctattttggtttgaatcaccatcatgatcagctcgcgcatcacacggtttgtttcggcccgcgttaccgcgagctgattgacgaaatttttaatcatgatggcctcgcagaggacttctcactttatctgcacgcgccctgtgtcacggattcgtcactggcgcctgaaggttgcggcagttactatgtgttggcgccggtgccgcatttaggcaccgcgaacctcgactggacggttgaggggccaaaactacgcgaccgtatttttgcgtaccttgagcagcattacatgcctggcttacggagtcagctggtcacgcaccggatgtttacgccgtttgattttcgcgaccagcttaatgcctatcatggctcagccttttctgtggagcccgttcttacccagagcgcctggtttcggccgcataaccgcgataaaaccattactaatctctacctggtcggcgcaggcacgcatcccggcgcaggcattcctggcgtcatcggctcggcaaaagcgacagcaggtttgatgctggaggatctgatataataa 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