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 annotation1938046 1 rbs range1938046 1 4 10 annotation1938045 1 SacI range1938045 1 1 3 BBa_I742114 1 BBa_I742114 Feruloyl-CoA synthase (fcs) 2007-10-18T11:00:00Z 2015-08-31T04:08:02Z Pseudomonas fluorescens NCIMB 9046 Cloning and Characterization of the Ferulic Acid Catabolic Genes of Sphingomonas paucimobilis SYK-6, E Masai, et al, APPLIED AND ENVIRONMENTAL MICROBIOLOGY, 68(9): 4416???4424 (2002) gene is from Pseudomonas fluorescens encodes feruoyl CoA synthase (ligates acetyl-CoA onto ferulic acid) produces feruloyl CoA from ferrulic acid catalyses the penultimate of the vanillin biosynthesis pathway false false _123_ 0 1964 9 Not in stock false Gene was synthesised by geneart, as P. fluorescens has a high GC genome. Coding region was optimised for gene expression in E. coli false sarah hollingshead annotation1949792 1 fcs coding region range1949792 1 1 1773 BBa_I742140 1 BBa_I742140 Vanillin Biosynthesis genes 2007-10-21T11:00:00Z 2015-08-31T04:08:03Z Both Sam genes (Sam5 and Sam8) were cloned from the bacterium from Saccharothrix espanaensis COMT cDNA sequence is from Medicago sativa (the alfalfa plant), but the actual construct was synthesised by gene art. Ech and Fcs genes both come from the bacterium Pseudomonas fluorescens. References for these genes: Genes and Enzymes Involved in Caffeic Acid Biosynthesis in the Actinomycete Saccharothrix esanaensis, Berner M, et al, Journal of Bacteriology 188(7): 2666, (2006) Gowri G, et al, Molecular cloning and expression of alfalfa S-adenosyl-L-methionine: caffeic acid 3-0-methyltransferase, a key enzyme of lignin biosynthesis, Plant Physiology 97(1):7 (1991) Downregulation of Caffeic Acid 3-O-Methyltransferase and Caffeoyl CoA 3-O-Methyltransferase in Transgenic Alfalfa Impacts on Lignin Structure and Implications for the Biosynthesis of G and S Lignin, Guo D, et al, Plant Cell. January; 13(1): 73 (2001) Cloning and Characterization of the Ferulic Acid Catabolic Genes of Sphingomonas paucimobilis SYK-6, E Masai, et al, APPLIED AND ENVIRONMENTAL MICROBIOLOGY, 68(9): 4416???4424 (2002) Vanillin production using metabolically engineered Escherichia coli under non-growing conditions, P Barghini, et al, Microbial Cell Factories, 6:13 (2007) Characterization of a bacterial tyrosine ammonia lyase, a biosynthetic enzyme for the photoactive yellow Protein, JA Kyndt et al, FEBS Letters 512: 240-244 (2002) Vanilla flavour: production by conventional and biotechnological routes, S Ramachandra Rao & GA Ravishankar, Journal of the Science of Food and Agriculture, 80:289-304 (2000) Two O-Methyltransferases Isolated from Flower Petals of Rosa chinensis var. spontanea Involved in Scent Biosynthesis W Shuiqin, et al, Journal of Bioscience and Bioengineering, 96(2): 119-128 (2003) Applied biocatalysis for the synthesis of natural flavour compounds ??? current industrial processes and future prospects, J Schrader, Biotechnology Letters, 26: 463???472 (2004) Construct contains all five genes required to synthesise vanillin (the major component of vanilla scent) from tyrosine. The five genes in this pathway are, Sam5, Sam8, COMT, ech and fcs. Details of the vanillin biosynthesis pathway may be found on the [http://parts.mit.edu/igem07/index.php/Edinburgh/Yoghurt/Design#Vanilla_Flavour_Production Edinburgh Yoghurt Wiki] false false _123_ 0 1964 9 Not in stock false COMT, ech and fcs were all synthesised by geneart. The genomic COMT clone contained introns, so we decided to have the cDNA sequence synthesised by geneart Ech and Fcs genes both contain a very high GC content, which presented many difficulties during cloning. Therefore both genes were synthesised by geneart so they both had optimum codon usage for E. coli false sarah hollingshead component1952452 1 BBa_I742112 component1952448 1 BBa_J15001 component1952435 1 BBa_I742106 component1952440 1 BBa_I742107 component1952445 1 BBa_I742114 component1952443 1 BBa_J15001 component1952432 1 BBa_I742105 component1952438 1 BBa_J15001 annotation1952440 1 BBa_I742107 range1952440 1 3141 4241 annotation1952435 1 BBa_I742106 range1952435 1 1567 3116 annotation1952448 1 BBa_J15001 range1952448 1 6047 6056 annotation1952432 1 BBa_I742105 range1952432 1 1 1558 annotation1952452 1 BBa_I742112 range1952452 1 6063 6896 annotation1952445 1 BBa_I742114 range1952445 1 4266 6038 annotation1952443 1 BBa_J15001 range1952443 1 4250 4259 annotation1952438 1 BBa_J15001 range1952438 1 3125 3134 BBa_I742112 1 BBa_I742112 enoyl CoA hydratase (ech) gene 2007-10-18T11:00:00Z 2015-08-31T04:08:02Z Pseudomonas fluorescens NCIMB 9046 Cloning and Characterization of the Ferulic Acid Catabolic Genes of Sphingomonas paucimobilis SYK-6, E Masai, et al, APPLIED AND ENVIRONMENTAL MICROBIOLOGY, 68(9): 4416???4424 (2002) enoyl CoA hydratase (ech) was isolated from Pseudomonas fluorescens genome. Ech converts feruloyl CoA to vanillin (fig. 3) and catalyses the final stage of the vanillin biosynthesis pathway. Involved in the synthesis of 'natural' vanilla flavouring false false _123_ 0 1964 9 Not in stock false Gene was synthesised by geneart as we experienced problems isolating native gene, due to the high GC nature of the Pseudomonas genome. The ech sequence has been optimised for expression in E. coli false sarah hollingshead annotation1949783 1 start range1949783 1 1 3 annotation1949782 1 ech coding region range1949782 1 1 828 annotation1949784 1 stop range1949784 1 829 834 BBa_I742106 1 BBa_I742106 Sam8 gene with ribosome binding site 2007-10-05T11:00:00Z 2015-08-31T04:08:02Z Saccharothirx espeanensis genome Sam8 encodes a tyrosine ammonia lyase. Enzymes substrate is tyrosine, which is deamminated to p-coumaric acid false true _123_ 0 1964 9 It's complicated false none false sarah hollingshead annotation1949974 1 Sam8 coding region range1949974 1 15 1550 annotation1949973 1 native rbs range1949973 1 1 14 BBa_I742107 1 COMT COMT 2007-10-18T11:00:00Z 2015-08-31T04:08:02Z Alfalfa cDNA Genes and Enzymes Involved in Caffeic Acid Biosynthesis in the Actinomycete Saccharothrix esanaensis, Berner M, et al, Journal of Bacteriology 188(7): 2666, (2006) Gowri G, et al, Molecular cloning and expression of alfalfa S-adenosyl-L-methionine: caffeic acid 3-0-methyltransferase, a key enzyme of lignin biosynthesis, Plant Physiology 97(1):7 (1991) Downregulation of Caffeic Acid 3-O-Methyltransferase and Caffeoyl CoA 3-O-Methyltransferase in Transgenic Alfalfa Impacts on Lignin Structure and Implications for the Biosynthesis of G and S Lignin, Guo D, et al, Plant Cell. January; 13(1): 73 (2001) Released HQ 2013 COMT coding sequence Encodes caffeic acid-O-methyl transferase (methylates -OH on C4 of the aromatic ring) from Medicago sativa (alfalfa), synthesised by Geneart false false _123_ 0 1964 9 In stock true Used cDNA as coding gene in Alfalfa genome contains introns. true sarah hollingshead annotation1949817 1 COMT coding region range1949817 1 1 1101 BBa_I742105 1 BBa_I742105 Sam5 gene with ribosome binding site 2007-10-05T11:00:00Z 2015-08-31T04:08:02Z Saccharothrix espeanensis genome (bactierum) Sam5 encodes a 4-coumarate 3-hydroxylase. The enzymes substrate is p-coumaric acid, which is converted to caffeic acid. This gene is part of the vanillin biosynthesis pathway. false true _123_ 0 1964 9 It's complicated false Added a ribosome binding site to the sequence false sarah hollingshead annotation1949955 1 rbs range1949955 1 1 16 annotation1949956 1 sam5 coding region range1949956 1 17 1558 BBa_I742140_sequence 1 acggagaagcagcgaaatgaccatcacgtcacctgcgccggcgggccggctcaacaacgtccgcccgatgacgggcgaggagtacctggaatcactgcgggacggccgagaggtctacatctacggcgagcgggtcgacgacgtcaccacgcacctggccttccgcaacagcgtgcgctccatcgcgcggctctacgacgtgctgcacgacccggcgtccgaaggtgtgctgcgggtgcccaccgacaccggcaacggcgggttcacccacccgttcttcaagaccgcccggtcgtcggaggacctggtcgccgcgcgcgaggccatcgtcggctggcagcggctggtgtacgggtggatgggccgcaccccggactacaaggcggcgttcttcggcacgctcgacgccaacgccgagttctacgggccgttcgaggccaacgcccgccgctggtaccgcgacgcccaggaacgggtgctgtacttcaaccacgcgatcgtgcacccgccggtcgaccgggaccggcccgccgaccggaccgccgacatctgcgtgcacgtggaggaggagaccgacagcgggttgatcgtctccggcgccaaggtggtcgcgaccggctccgcgatgaccaacgcgaacctcatcgcgcactacgggcttccggtgcgggacaagaagttcggcctggtgttcacggtcccgatgaactcgcccggcctcaagctcatctgccgcacctcctacgagctgatggtcgcgacgcagggctcgcccttcgactacccgctgtcgagccggctcgacgagaacgactcgatcatgatcttcgaccgggtgctggtgccctgggagaacgtgttcatgtacgacgcgggcgcggccaactccttcgccaccgggtcaggcttcctcgaacgcttcaccttccacggctgcacccgcctcgcggtcaagctggacttcatcgccggctgcgtcatgaaggcggtggaggtcaccggcaccacgcacttccggggcgtgcaggcgcaggtcggcgaagtgctcaactggcgcgacgtgttctggggcctgtccgacgcgatggccaagtcgccgaactcgtgggtcggcggctcggtgcagccgaacctcaactacgggctcgcgtaccgcaccttcatgggcgtgggctacccgcgcatcaaggagatcatccagcagaccctcggcagcgggttgatctacctgaactcctcggccgccgactggaagaaccccgacgtccgcccgtacctcgaccgctacctgcgcggctcgcggggcatccaggcgatcgaccgggtcaagctgctgaagctgctgtgggacgcggtcggcaccgagttcgccggccggcacgagctctacgagcgcaactacggcggcgaccacgagggcatccgggtgcagaccctgcaggcgtaccaggcgaacggccaagccgccgcgctcaagggtttcgccgagcagtgcatgtccgagtacgacctcgacggctggacgaggcccgacctgatcaaccccggcacctaataatactagaggaggttgggacaagatgacgcaggtcgtggaacgtcaggctgatcggctcagcagcagggagtacctggcccgggtcgtgcgcagcgccgggtgggacgccggtctcacctcgtgcaccgacgaggagatcgtccggatgggcgcgagcgcgcgcaccatcgaggagtacctgaagtccgacaagcccatctacggcctgacgcagggcttcggtccgctggtgctgttcgacgccgactcggagctggagcagggcggctcgctgatctcgcacctgggcaccggccagggcgcgccactggccccggaggtgtcgcggctgatcctctggctgcgcatccagaacatgcgcaaggggtactcggcggtctcgccggtgttctggcagaagctcgccgacctgtggaacaaggggttcaccccggcgatcccccggcacggcacggtcagcgcgagcggcgacctgcaaccgctggcgcacgccgcgctcgccttcaccggtgtcggcgaggcgtggacccgggacgccgacggccggtggtccaccgtgccggccgtggacgcgctcgccgcgctgggggcggagccgttcgactggccggtgcgcgaggcgctggcgttcgtcaacgggaccggcgcgagcctcgcggtggctgtgctcaaccaccggtccgccctgcggctggtccgcgcctgcgccgtgctctccgcgcggctggcgaccctgctgggggccaatcccgagcactacgacgtggggcacggtgtcgcgcgcggccaggtcggtcagctgaccgcggcggagtggatccggcaggggctgccccggggcatggtgcgcgacggcagccgcccgctccaggagccgtacagcctgcggtgcgcgccgcaggtgctcggcgcggtgctcgaccagctcgacggcgcgggcgacgtgctggcgcgggaggtcgacggctgccaggacaacccgatcacctacgagggcgagctgctgcacggcggcaacttccacgccatgccggtgggtttcgcctccgaccagatcgggttggccatgcacatggccgcctacctggccgagcgccagctgggtctgctggtcagcccggtgaccaacggcgacctgccgcccatgctcaccccgcgcgccgggcgcggtgccgggctggccggggtgcagatcagcgcgacctcgttcgtctcgcggatccggcagctggtgttccccgcctcgctgaccaccctgccgaccaacggctggaaccaggaccacgtgccgatggcgctcaacggggcgaactcggtgttcgaggcgttggagctcggctggctgacggtcgggtcgctggcggtgggcgtcgcgcagctcgcggccatgaccggccacgccgcggagggcgtctgggcggagctggccgggatctgcccgccgctggacgccgaccgcccgctgggcgccgaggtgcgcgccgcgcgcgacctgctgtccgcgcacgcggaccaactgctcgtcgacgaggcagacgggaaggatttcggataataatactagagctcaaggaggtactagatgggttcaacaggtgaaactcaaataacaccaacccacatatcagatgaagaagcaaacctcttcgccatgcaactagcaagtgcttcagttcttcccatgattttgaaatcagctcttgaacttgatctcttagaaatcattgctaaagctggacctggtgctcaaatttcacctattgaaattgcttctcagctaccaacaactaaccctgatgcaccagttatgttggaccgaatgttgcgtctcttggcttgttacataatcctcacatgttcagttcgtactcaacaagatggaaaggttcagagactttatggtttggctactgttgctaagtatttggttaagaatgaagatggtgtatccatttctgctcttaatctcatgaatcaggataaagtgctcatggaaagctggtaccacctaaaagatgcagtccttgatgggggcattccattcaacaaggcttatggaatgacagcctttgaataccatggaacagatccaaggtttaacaaggttttcaacaaggggatgtctgatcactctaccatcacaatgaagaaaattcttgagacctacacaggttttgaaggccttaaatctcttgttgatgtaggtggtggtactggagctgtaattaacacgattgtctcaaaatatcccactataaagggtataaattttgatttaccccatgtcattgaagatgctccatcttatccaggagttgagcatgttggtggagacatgtttgtcagtattccaaaggctgatgctgtttttatgaagtggatttgtcatgactggagtgatgagcactgcttgaaatttttgaagaactgctatgaggcactgccagacaatggaaaagtgattgtggcagaatgcatacttccagtggctccagattcaagcctggccacaaaaggtgtggttcacattgatgtgatcatgttggctcataatcctggtgggaaagagagaacacaaaaagagtttgaggatcttgccaaaggtgctggattccaaggtttcaaagtccattgtaatgctttcaacacatacatcatggagtttcttaagaaggtttaataatactagagctcaaggaggtactagatgcgtagcctggaaccgctggccgaactgccggcacgtctgctggatcgtctggtgcattgggcgcgtgtgcgtccggaacagacctttattgcggcgcgtcaggcgggtggtgattggcgtcgtgtgagctatcgcgaaatgctggatggcgtgcgtgcgattgcgcagggcctgctgtcttatggcctgagcgcggataaaccgctggccctgctgtctggcaacgatattgaacatctgcaagtggcgctgggcgcaatgtatgcgggcattccgtattgcccggtgagcccggcgtatagcctgctgtctcaggattttgcgaaactgcgtcatgtgtgcgatctgctgcaaccgggcctggtttttgtgtctgatgcgccggcatatcagcgtgcgattgatgcggttctgccgccggaaaccccgctgattagcgtgcgtggccaggttccgggccgtacgcagattagctttgcgagcctgctgcataccagcgcgggcaccgaagcggatgcggcgtttaacgcgaccggtccggatagcattgcgaaatttctgtttaccagcggcagcaccaaactgccgaaagcggtgattaccacccagcgtatgctgtgcgcgaaccagcagatgctgctgcaaacctttccggtgtttggcgaagaaccgccggtgctggttgattggctgccgtggaaccacacctttggcggcagccataacgtgggcattgtgctgtataacggcggcaccttttatctggatgatggcaaaccgaccgcccagggctttgcacagacgctgcgcaacctgaaagaaattagcccgaccgcgtatctgaccgtgccgaaaggctgggaagaactggtgaacgcgctggaacaggatgcggcgctgcgtgaacgtttttttgcgcgcatgaaactgtttttttttgcggcggcaggcctgagccagagcgtgtgggatcgtctggatcgtgtggcggaacaacattgtggcgaacgtattcgcatgatggcgggcctgggcatgaccgaagcggcaccgagctgcacctttaccaccggtccgctgtctatggcgggctatattggcctgccggcaccgggttgtgaagtgcgtctggtgccggtggatggcaaatttgaaggccgttttcgtggcccgcatatcatgccgggttattggcgtgcaccggaacagaccgcggaagtgtttgatgaacagggctattattgcagcggtgatgcgatcaaactggccgatccgcatcagccgcattggggcctgatgtttgatggccgtattgcggaagattttaaactgagcagcggcgtgtttgtgtccgtgggcccgctgcgtaatcgtgcggttctggaaggcagcccgtatgtgcaggatctggtgattgcggcaccggatcgtgaatgcctgggcgccctggtttttccgcgtgcgtatgaatgccgtcgtctgagcggcctgaacgcggaagcgtctgatgcggaagtgctgaacagcgcaccggttcgtcagtggtttggcgattggctgcaacgtctgaaccgtgaagcgaccggcaatgcgagccgtctggaatggatcgcggtgctggatgaaccggcgagcattgatcgtggcgaaattaccgataaaggcagcattaaccagcgcgcggtgctgcaatggcgtgcggcgaaagtggaagcgctgtatcgtggcgaagatccgaccattctgcgtgcgggtccgaaaccgtaataatactagagctcaaggaggtactagatgagcaaatatgaaggccgttggaccaccgtgaaagtggaaattgaagaaggcattgcctgggttattctgaaccgtccggaaaaacgtaacgccatgagcccgaccctgaaccgtgaaatgattgatgtgctggaaaccctggaacaggatccggcggcgggtgttctggttctgaccggtgcgggtgaagcgtggaccgcgggcatggatctgaaagaatatttccgtgaagtggatgcgggtccggaaattctgcaagaaaaaattcgtcgcgaagcgagccagtggcagtggaaactgctgcgtatgtatgcgaaaccgaccattgccatggtgaacggctggtgctttggcggcggttttagcccgctggttgcgtgcgatctggccatttgcgcggatgaagcgacctttggcctgagcgagattaactggggcattccgccgggtaacctggtgagcaaagccatggcggataccgtgggccatcgtcagagcctgtattatatcatgaccggcaaaacctttggtggccagaaagcggcggaaatgggcctggtgaacgaaagcgtgccgctggcccagctgcgtgaagtgaccattgaactggcccgtaacctgctggaaaaaaatccggtggtgctgcgtgcggcgaaacatggctttaaacgttgccgtgaactgacctgggaacagaacgaagattatctgtacgcgaaactggatcagagccgtctgctggataccgaaggcggccgtgaacagggcatgaaacagtttctggatgataaaagcattaaaccgggcctgcaagcgtataaacgttaataa BBa_I742107_sequence 1 atgggttcaacaggtgaaactcaaataacaccaacccacatatcagatgaagaagcaaacctcttcgccatgcaactagcaagtgcttcagttcttcccatgattttgaaatcagctcttgaacttgatctcttagaaatcattgctaaagctggacctggtgctcaaatttcacctattgaaattgcttctcagctaccaacaactaaccctgatgcaccagttatgttggaccgaatgttgcgtctcttggcttgttacataatcctcacatgttcagttcgtactcaacaagatggaaaggttcagagactttatggtttggctactgttgctaagtatttggttaagaatgaagatggtgtatccatttctgctcttaatctcatgaatcaggataaagtgctcatggaaagctggtaccacctaaaagatgcagtccttgatgggggcattccattcaacaaggcttatggaatgacagcctttgaataccatggaacagatccaaggtttaacaaggttttcaacaaggggatgtctgatcactctaccatcacaatgaagaaaattcttgagacctacacaggttttgaaggccttaaatctcttgttgatgtaggtggtggtactggagctgtaattaacacgattgtctcaaaatatcccactataaagggtataaattttgatttaccccatgtcattgaagatgctccatcttatccaggagttgagcatgttggtggagacatgtttgtcagtattccaaaggctgatgctgtttttatgaagtggatttgtcatgactggagtgatgagcactgcttgaaatttttgaagaactgctatgaggcactgccagacaatggaaaagtgattgtggcagaatgcatacttccagtggctccagattcaagcctggccacaaaaggtgtggttcacattgatgtgatcatgttggctcataatcctggtgggaaagagagaacacaaaaagagtttgaggatcttgccaaaggtgctggattccaaggtttcaaagtccattgtaatgctttcaacacatacatcatggagtttcttaagaaggtttaataa BBa_I742112_sequence 1 atgagcaaatatgaaggccgttggaccaccgtgaaagtggaaattgaagaaggcattgcctgggttattctgaaccgtccggaaaaacgtaacgccatgagcccgaccctgaaccgtgaaatgattgatgtgctggaaaccctggaacaggatccggcggcgggtgttctggttctgaccggtgcgggtgaagcgtggaccgcgggcatggatctgaaagaatatttccgtgaagtggatgcgggtccggaaattctgcaagaaaaaattcgtcgcgaagcgagccagtggcagtggaaactgctgcgtatgtatgcgaaaccgaccattgccatggtgaacggctggtgctttggcggcggttttagcccgctggttgcgtgcgatctggccatttgcgcggatgaagcgacctttggcctgagcgagattaactggggcattccgccgggtaacctggtgagcaaagccatggcggataccgtgggccatcgtcagagcctgtattatatcatgaccggcaaaacctttggtggccagaaagcggcggaaatgggcctggtgaacgaaagcgtgccgctggcccagctgcgtgaagtgaccattgaactggcccgtaacctgctggaaaaaaatccggtggtgctgcgtgcggcgaaacatggctttaaacgttgccgtgaactgacctgggaacagaacgaagattatctgtacgcgaaactggatcagagccgtctgctggataccgaaggcggccgtgaacagggcatgaaacagtttctggatgataaaagcattaaaccgggcctgcaagcgtataaacgttaataa BBa_J15001_sequence 1 ctcaaggagg BBa_I742114_sequence 1 atgcgtagcctggaaccgctggccgaactgccggcacgtctgctggatcgtctggtgcattgggcgcgtgtgcgtccggaacagacctttattgcggcgcgtcaggcgggtggtgattggcgtcgtgtgagctatcgcgaaatgctggatggcgtgcgtgcgattgcgcagggcctgctgtcttatggcctgagcgcggataaaccgctggccctgctgtctggcaacgatattgaacatctgcaagtggcgctgggcgcaatgtatgcgggcattccgtattgcccggtgagcccggcgtatagcctgctgtctcaggattttgcgaaactgcgtcatgtgtgcgatctgctgcaaccgggcctggtttttgtgtctgatgcgccggcatatcagcgtgcgattgatgcggttctgccgccggaaaccccgctgattagcgtgcgtggccaggttccgggccgtacgcagattagctttgcgagcctgctgcataccagcgcgggcaccgaagcggatgcggcgtttaacgcgaccggtccggatagcattgcgaaatttctgtttaccagcggcagcaccaaactgccgaaagcggtgattaccacccagcgtatgctgtgcgcgaaccagcagatgctgctgcaaacctttccggtgtttggcgaagaaccgccggtgctggttgattggctgccgtggaaccacacctttggcggcagccataacgtgggcattgtgctgtataacggcggcaccttttatctggatgatggcaaaccgaccgcccagggctttgcacagacgctgcgcaacctgaaagaaattagcccgaccgcgtatctgaccgtgccgaaaggctgggaagaactggtgaacgcgctggaacaggatgcggcgctgcgtgaacgtttttttgcgcgcatgaaactgtttttttttgcggcggcaggcctgagccagagcgtgtgggatcgtctggatcgtgtggcggaacaacattgtggcgaacgtattcgcatgatggcgggcctgggcatgaccgaagcggcaccgagctgcacctttaccaccggtccgctgtctatggcgggctatattggcctgccggcaccgggttgtgaagtgcgtctggtgccggtggatggcaaatttgaaggccgttttcgtggcccgcatatcatgccgggttattggcgtgcaccggaacagaccgcggaagtgtttgatgaacagggctattattgcagcggtgatgcgatcaaactggccgatccgcatcagccgcattggggcctgatgtttgatggccgtattgcggaagattttaaactgagcagcggcgtgtttgtgtccgtgggcccgctgcgtaatcgtgcggttctggaaggcagcccgtatgtgcaggatctggtgattgcggcaccggatcgtgaatgcctgggcgccctggtttttccgcgtgcgtatgaatgccgtcgtctgagcggcctgaacgcggaagcgtctgatgcggaagtgctgaacagcgcaccggttcgtcagtggtttggcgattggctgcaacgtctgaaccgtgaagcgaccggcaatgcgagccgtctggaatggatcgcggtgctggatgaaccggcgagcattgatcgtggcgaaattaccgataaaggcagcattaaccagcgcgcggtgctgcaatggcgtgcggcgaaagtggaagcgctgtatcgtggcgaagatccgaccattctgcgtgcgggtccgaaaccgtaataa BBa_I742106_sequence 1 gaggttgggacaagatgacgcaggtcgtggaacgtcaggctgatcggctcagcagcagggagtacctggcccgggtcgtgcgcagcgccgggtgggacgccggtctcacctcgtgcaccgacgaggagatcgtccggatgggcgcgagcgcgcgcaccatcgaggagtacctgaagtccgacaagcccatctacggcctgacgcagggcttcggtccgctggtgctgttcgacgccgactcggagctggagcagggcggctcgctgatctcgcacctgggcaccggccagggcgcgccactggccccggaggtgtcgcggctgatcctctggctgcgcatccagaacatgcgcaaggggtactcggcggtctcgccggtgttctggcagaagctcgccgacctgtggaacaaggggttcaccccggcgatcccccggcacggcacggtcagcgcgagcggcgacctgcaaccgctggcgcacgccgcgctcgccttcaccggtgtcggcgaggcgtggacccgggacgccgacggccggtggtccaccgtgccggccgtggacgcgctcgccgcgctgggggcggagccgttcgactggccggtgcgcgaggcgctggcgttcgtcaacgggaccggcgcgagcctcgcggtggctgtgctcaaccaccggtccgccctgcggctggtccgcgcctgcgccgtgctctccgcgcggctggcgaccctgctgggggccaatcccgagcactacgacgtggggcacggtgtcgcgcgcggccaggtcggtcagctgaccgcggcggagtggatccggcaggggctgccccggggcatggtgcgcgacggcagccgcccgctccaggagccgtacagcctgcggtgcgcgccgcaggtgctcggcgcggtgctcgaccagctcgacggcgcgggcgacgtgctggcgcgggaggtcgacggctgccaggacaacccgatcacctacgagggcgagctgctgcacggcggcaacttccacgccatgccggtgggtttcgcctccgaccagatcgggttggccatgcacatggccgcctacctggccgagcgccagctgggtctgctggtcagcccggtgaccaacggcgacctgccgcccatgctcaccccgcgcgccgggcgcggtgccgggctggccggggtgcagatcagcgcgacctcgttcgtctcgcggatccggcagctggtgttccccgcctcgctgaccaccctgccgaccaacggctggaaccaggaccacgtgccgatggcgctcaacggggcgaactcggtgttcgaggcgttggagctcggctggctgacggtcgggtcgctggcggtgggcgtcgcgcagctcgcggccatgaccggccacgccgcggagggcgtctgggcggagctggccgggatctgcccgccgctggacgccgaccgcccgctgggcgccgaggtgcgcgccgcgcgcgacctgctgtccgcgcacgcggaccaactgctcgtcgacgaggcagacgggaaggatttcggataataa BBa_I742105_sequence 1 acggagaagcagcgaaatgaccatcacgtcacctgcgccggcgggccggctcaacaacgtccgcccgatgacgggcgaggagtacctggaatcactgcgggacggccgagaggtctacatctacggcgagcgggtcgacgacgtcaccacgcacctggccttccgcaacagcgtgcgctccatcgcgcggctctacgacgtgctgcacgacccggcgtccgaaggtgtgctgcgggtgcccaccgacaccggcaacggcgggttcacccacccgttcttcaagaccgcccggtcgtcggaggacctggtcgccgcgcgcgaggccatcgtcggctggcagcggctggtgtacgggtggatgggccgcaccccggactacaaggcggcgttcttcggcacgctcgacgccaacgccgagttctacgggccgttcgaggccaacgcccgccgctggtaccgcgacgcccaggaacgggtgctgtacttcaaccacgcgatcgtgcacccgccggtcgaccgggaccggcccgccgaccggaccgccgacatctgcgtgcacgtggaggaggagaccgacagcgggttgatcgtctccggcgccaaggtggtcgcgaccggctccgcgatgaccaacgcgaacctcatcgcgcactacgggcttccggtgcgggacaagaagttcggcctggtgttcacggtcccgatgaactcgcccggcctcaagctcatctgccgcacctcctacgagctgatggtcgcgacgcagggctcgcccttcgactacccgctgtcgagccggctcgacgagaacgactcgatcatgatcttcgaccgggtgctggtgccctgggagaacgtgttcatgtacgacgcgggcgcggccaactccttcgccaccgggtcaggcttcctcgaacgcttcaccttccacggctgcacccgcctcgcggtcaagctggacttcatcgccggctgcgtcatgaaggcggtggaggtcaccggcaccacgcacttccggggcgtgcaggcgcaggtcggcgaagtgctcaactggcgcgacgtgttctggggcctgtccgacgcgatggccaagtcgccgaactcgtgggtcggcggctcggtgcagccgaacctcaactacgggctcgcgtaccgcaccttcatgggcgtgggctacccgcgcatcaaggagatcatccagcagaccctcggcagcgggttgatctacctgaactcctcggccgccgactggaagaaccccgacgtccgcccgtacctcgaccgctacctgcgcggctcgcggggcatccaggcgatcgaccgggtcaagctgctgaagctgctgtgggacgcggtcggcaccgagttcgccggccggcacgagctctacgagcgcaactacggcggcgaccacgagggcatccgggtgcagaccctgcaggcgtaccaggcgaacggccaagccgccgcgctcaagggtttcgccgagcagtgcatgtccgagtacgacctcgacggctggacgaggcccgacctgatcaaccccggcacctaataa 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