BBa_K277033 1 BBa_K277033 3L.3_23.B1.07 2009-10-19T11:00:00Z 2015-05-08T01:11:46Z Synthetic Yeast 3L.3_23.B1.07 is 750 bases long and is cloned into the pGem-T vector. 3L.3_23.B1.07 was designed as a piece of synthetic chromosome 3 with the goal of minimizing and stabilizing that chromosome and to that end has had any tRNAs, introns, repeat regions, and transposons that were present in the wildtype chromosome removed. In addition a very few gene sequences were slightly recoded to add or remove restriction enzyme recognition sites to facilitate assembly; most gene sequences were slightly recoded to introduce unique primers for diagnostic PCR amplification, and some gene sequences were slightly recoded to address the distribution of stop codon usage. 3L.3_23.B1.07 is a constituent of 3L.3_23.B1 (along with 3L.3_23.B1.01, 3L.3_23.B1.02, 3L.3_23.B1.03, 3L.3_23.B1.04, 3L.3_23.B1.05, 3L.3_23.B1.06, 3L.3_23.B1.08, 3L.3_23.B1.09, 3L.3_23.B1.10, 3L.3_23.B1.11, 3L.3_23.B1.12, 3L.3_23.B1.13, and 3L.3_23.B1.14.) This part contains at least part of the following features (positions offset from first base of sequence): kind and name offset notes reverse_primer YCL054W_tagr3v1 (350..377) mutation_affecting_coding_sequence YCL054W_re_remove_Bpu10I (294..302) removal of Bpu10I forward_primer YCL054W_tagf3v1 (74..101) gene YCL054W (-1920..605) AdoMet-dependent methyltransferase involved in rRNA processing and 60S ribosomal subunit maturation%3B methylates G2922 in the tRNA docking site of the large subunit rRNA and in the absence of snR52%2C U2921%3B suppressor of PAB1 mutants Sequence (the first 750 bases correspond to coordinates 23573..24322 in synthetic chromosome yeast_chr3_3_23) false false _385_ 0 2669 9 It's complicated false Constructed using overlap extension PCR protocol described in RFC38 false James DiCarlo BBa_K277036 1 BBa_K277036 3L.3_23.B1.10 2009-10-20T11:00:00Z 2015-05-08T01:11:46Z Synthetic Yeast 3L.3_23.B1.10 is 678 bases long and is cloned into the pGem-T vector. 3L.3_23.B1.10 was designed as a piece of synthetic chromosome 3 with the goal of minimizing and stabilizing that chromosome and to that end has had any tRNAs, introns, repeat regions, and transposons that were present in the wildtype chromosome removed. In addition a very few gene sequences were slightly recoded to add or remove restriction enzyme recognition sites to facilitate assembly; most gene sequences were slightly recoded to introduce unique primers for diagnostic PCR amplification, and some gene sequences were slightly recoded to address the distribution of stop codon usage. 3L.3_23.B1.10 is a constituent of 3L.3_23.B1 (along with 3L.3_23.B1.01, 3L.3_23.B1.02, 3L.3_23.B1.03, 3L.3_23.B1.04, 3L.3_23.B1.05, 3L.3_23.B1.06, 3L.3_23.B1.07, 3L.3_23.B1.08, 3L.3_23.B1.09, 3L.3_23.B1.11, 3L.3_23.B1.12, 3L.3_23.B1.13, and 3L.3_23.B1.14.) This part contains at least part of the following features (positions offset from first base of sequence): kind and name offset notes gene YCL051W (217..+1968) Protein involved in control of cell wall structure and stress response%3B inhibits Cbk1p protein kinase activity%3B overproduction confers resistance to cell-wall degrading enzymes forward_primer YCL051W_tagf2v1 (630..657) Sequence (the first 678 bases correspond to coordinates 25852..26529 in synthetic chromosome yeast_chr3_3_23) false false _385_ 0 2669 9 It's complicated false Constructed using overlap extension PCR protocol described in RFC38 false James DiCarlo BBa_K277029 1 BBa_K277029 3L.3_23.B1.03 2009-10-19T11:00:00Z 2015-05-08T01:11:46Z Synthetic Yeast 3L.3_23.B1.03 is 756 bases long and is cloned into the pGem-T vector. 3L.3_23.B1.03 was designed as a piece of synthetic chromosome 3 with the goal of minimizing and stabilizing that chromosome and to that end has had any tRNAs, introns, repeat regions, and transposons that were present in the wildtype chromosome removed. In addition a very few gene sequences were slightly recoded to add or remove restriction enzyme recognition sites to facilitate assembly; most gene sequences were slightly recoded to introduce unique primers for diagnostic PCR amplification, and some gene sequences were slightly recoded to address the distribution of stop codon usage. 3L.3_23.B1.03 is a constituent of 3L.3_23.B1 (along with 3L.3_23.B1.01, 3L.3_23.B1.02, 3L.3_23.B1.04, 3L.3_23.B1.05, 3L.3_23.B1.06, 3L.3_23.B1.07, 3L.3_23.B1.08, 3L.3_23.B1.09, 3L.3_23.B1.10, 3L.3_23.B1.11, 3L.3_23.B1.12, 3L.3_23.B1.13, and 3L.3_23.B1.14.) This part contains at least part of the following features (positions offset from first base of sequence): kind and name offset notes ARS ARS304 (-246..211) Autonomously Replicating Sequence on Chromosome III Sequence (the first 756 bases correspond to coordinates 20650..21405 in synthetic chromosome yeast_chr3_3_23) false false _385_ 0 2669 9 It's complicated false Constructed using overlap extension PCR protocol described in RFC38 false James DiCarlo BBa_K277034 1 BBa_K277034 3L.3_23.B1.08 2009-10-19T11:00:00Z 2015-05-08T01:11:46Z Synthetic Yeast 3L.3_23.B1.08 is 804 bases long and is cloned into the pGem-T vector. 3L.3_23.B1.08 was designed as a piece of synthetic chromosome 3 with the goal of minimizing and stabilizing that chromosome and to that end has had any tRNAs, introns, repeat regions, and transposons that were present in the wildtype chromosome removed. In addition a very few gene sequences were slightly recoded to add or remove restriction enzyme recognition sites to facilitate assembly; most gene sequences were slightly recoded to introduce unique primers for diagnostic PCR amplification, and some gene sequences were slightly recoded to address the distribution of stop codon usage. 3L.3_23.B1.08 is a constituent of 3L.3_23.B1 (along with 3L.3_23.B1.01, 3L.3_23.B1.02, 3L.3_23.B1.03, 3L.3_23.B1.04, 3L.3_23.B1.05, 3L.3_23.B1.06, 3L.3_23.B1.07, 3L.3_23.B1.09, 3L.3_23.B1.10, 3L.3_23.B1.11, 3L.3_23.B1.12, 3L.3_23.B1.13, and 3L.3_23.B1.14.) This part contains at least part of the following features (positions offset from first base of sequence): kind and name offset notes forward_primer YCL052C_tagf1v1 (620..647) gene YCL052C (35..+1285) Essential component of glycosylphosphatidylinositol-mannosyltransferase I%2C required for the autocatalytic post-translational processing of the protease B precursor Prb1p%2C localizes to ER in lumenal orientation%3B homolog of mammalian PIG-X Sequence (the first 804 bases correspond to coordinates 24312..25115 in synthetic chromosome yeast_chr3_3_23) false false _385_ 0 2669 9 It's complicated false Constructed using overlap extension PCR protocol described in RFC38 false James DiCarlo BBa_K277028 1 BBa_K277028 3L.3_23.B1.02 2009-10-19T11:00:00Z 2015-05-08T01:11:46Z Synthetic Yeast 3L.3_23.B1.02 is 763 bases long and is cloned into the pGem-T vector. 3L.3_23.B1.02 was designed as a piece of synthetic chromosome 3 with the goal of minimizing and stabilizing that chromosome and to that end has had any tRNAs, introns, repeat regions, and transposons that were present in the wildtype chromosome removed. In addition a very few gene sequences were slightly recoded to add or remove restriction enzyme recognition sites to facilitate assembly; most gene sequences were slightly recoded to introduce unique primers for diagnostic PCR amplification, and some gene sequences were slightly recoded to address the distribution of stop codon usage. 3L.3_23.B1.02 is a constituent of 3L.3_23.B1 (along with 3L.3_23.B1.01, 3L.3_23.B1.03, 3L.3_23.B1.04, 3L.3_23.B1.05, 3L.3_23.B1.06, 3L.3_23.B1.07, 3L.3_23.B1.08, 3L.3_23.B1.09, 3L.3_23.B1.10, 3L.3_23.B1.11, 3L.3_23.B1.12, 3L.3_23.B1.13, and 3L.3_23.B1.14.) This part contains at least part of the following features (positions offset from first base of sequence): kind and name offset notes ARS ARS304 (508..+965) Autonomously Replicating Sequence on Chromosome III Sequence (the first 763 bases correspond to coordinates 19896..20658 in synthetic chromosome yeast_chr3_3_23) false false _385_ 0 2669 9 It's complicated false Constructed using overlap extension PCR protocol described in RFC38 false James DiCarlo BBa_K277030 1 BBa_K277030 3L.3_23.B1.04 2009-10-19T11:00:00Z 2015-05-08T01:11:46Z Synthetic Yeast 3L.3_23.B1.04 is 753 bases long and is cloned into the pGem-T vector. 3L.3_23.B1.04 was designed as a piece of synthetic chromosome 3 with the goal of minimizing and stabilizing that chromosome and to that end has had any tRNAs, introns, repeat regions, and transposons that were present in the wildtype chromosome removed. In addition a very few gene sequences were slightly recoded to add or remove restriction enzyme recognition sites to facilitate assembly; most gene sequences were slightly recoded to introduce unique primers for diagnostic PCR amplification, and some gene sequences were slightly recoded to address the distribution of stop codon usage. 3L.3_23.B1.04 is a constituent of 3L.3_23.B1 (along with 3L.3_23.B1.01, 3L.3_23.B1.02, 3L.3_23.B1.03, 3L.3_23.B1.05, 3L.3_23.B1.06, 3L.3_23.B1.07, 3L.3_23.B1.08, 3L.3_23.B1.09, 3L.3_23.B1.10, 3L.3_23.B1.11, 3L.3_23.B1.12, 3L.3_23.B1.13, and 3L.3_23.B1.14.) This part contains at least part of the following features (positions offset from first base of sequence): kind and name offset notes forward_primer YCL054W_tagf2v1 (446..473) gene YCL054W (258..+2783) AdoMet-dependent methyltransferase involved in rRNA processing and 60S ribosomal subunit maturation%3B methylates G2922 in the tRNA docking site of the large subunit rRNA and in the absence of snR52%2C U2921%3B suppressor of PAB1 mutants Sequence (the first 753 bases correspond to coordinates 21395..22147 in synthetic chromosome yeast_chr3_3_23) false false _385_ 0 2669 9 It's complicated false Constructed using overlap extension PCR protocol described in RFC38 false James DiCarlo BBa_K277136 1 BBa_K277136 3L.3_23.B1 2009-10-20T11:00:00Z 2015-05-08T01:11:47Z Synthetic Yeast 3L.3_23.B1 was designed as a piece of synthetic chromosome 3 with the goal of minimizing and stabilizing that chromosome and to that end has had any tRNAs, introns,repeat regions, and transposons that were present in the wildtype chromosome removed. In addition a very few gene sequences were slightly recoded to add or remove restriction enzyme recognition sites to facilitate assembly; most gene sequences were slightly recoded to introduce unique primers for diagnostic PCR amplification, and some gene sequences were slightly recoded to address the distribution of stop codon usage. 3L.3_23.B1 is comprised of and must be constructed from the parts 3L.3_23.B1.01, 3L.3_23.B1.02, 3L.3_23.B1.03, 3L.3_23.B1.04, 3L.3_23.B1.05, 3L.3_23.B1.06, 3L.3_23.B1.07, 3L.3_23.B1.08, 3L.3_23.B1.09, 3L.3_23.B1.10, 3L.3_23.B1.11, 3L.3_23.B1.12, 3L.3_23.B1.13, and 3L.3_23.B1.14. This part wholly contains the following features (positions offset from first base of sequence): kind and name offset notes reverse_primer YCL054W_tagr3v1 (4762..4789) gene YCL050C (8947..9912) Diadenosine 5'%2C5''-P1%2CP4-tetraphosphate phosphorylase I (AP4A phosphorylase)%2C involved in catabolism of bis(5'-nucleosidyl) tetraphosphates%3B has similarity to Apa2p mutation_affecting_coding_sequence YCL054W_re_remove_Bpu10I (4706..4714) removal of Bpu10I loxP_site loxPsym_YCL051W (8663..8696) reverse_primer YCL054W_tagr1v1 (4321..4348) forward_primer YCL051W_tagf1v1 (8263..8290) reverse_primer YCL050C_tagr1v1 (9442..9469) mutation_affecting_coding_sequence YCL054W_re_remove_MmeI (3008..3019) removal of MmeI mutation_affecting_coding_sequence YCL054W_re_remove_BlpI (3947..3955) removal of BlpI mutation_affecting_coding_sequence YCL051W_re_remove_MmeI (7637..7648) removal of MmeI ARS ARS304 (1243..1700) Autonomously Replicating Sequence on Chromosome III gene YCL051W (6908..8659) Protein involved in control of cell wall structure and stress response%3B inhibits Cbk1p protein kinase activity%3B overproduction confers resistance to cell-wall degrading enzymes reverse_primer YCL054W_tagr2v1 (3100..3127) reverse_primer YCL052C_tagr1v1 (6161..6188) forward_primer YCL051W_tagf2v1 (7321..7348) forward_primer YCL052C_tagf1v1 (5771..5798) mutation_affecting_coding_sequence YCL050C_re_remove_MmeI (9502..9513) removal of MmeI forward_primer YCL054W_tagf2v1 (2680..2707) forward_primer YCL054W_tagf1v1 (3916..3943) forward_primer YCL054W_tagf3v1 (4486..4513) forward_primer YCL050C_tagf1v1 (9115..9142) reverse_primer YCL051W_tagr2v1 (7789..7816) gene YCL052C (5186..6436) Essential component of glycosylphosphatidylinositol-mannosyltransferase I%2C required for the autocatalytic post-translational processing of the protease B precursor Prb1p%2C localizes to ER in lumenal orientation%3B homolog of mammalian PIG-X reverse_primer YCL051W_tagr1v1 (8518..8545) loxP_site loxPsym_YCL050C (8910..8943) gene YCL054W (2492..5017) AdoMet-dependent methyltransferase involved in rRNA processing and 60S ribosomal subunit maturation%3B methylates G2922 in the tRNA docking site of the large subunit rRNA and in the absence of snR52%2C U2921%3B suppressor of PAB1 mutants Sequence (corresponding to coordinates 19161..29646 in synthetic chromosome yeast_chr3_3_23) false false _385_ 0 2669 9 Not in stock false Constructed using USER assembly method described in RFC38 false James DiCarlo component2062013 1 BBa_K277035 component2062017 1 BBa_K277039 component2062011 1 BBa_K277033 component2062009 1 BBa_K277031 component2062015 1 BBa_K277037 component2062008 1 BBa_K277030 component2062010 1 BBa_K277032 component2062007 1 BBa_K277029 component2062014 1 BBa_K277036 component2062016 1 BBa_K277038 component2062012 1 BBa_K277034 component2062005 1 BBa_K277027 component2062006 1 BBa_K277028 component2062018 1 BBa_K277040 annotation2062016 1 BBa_K277038 range2062016 1 8204 8942 annotation2062012 1 BBa_K277034 range2062012 1 5223 6026 annotation2062010 1 BBa_K277032 range2062010 1 3723 4472 annotation2062015 1 BBa_K277037 range2062015 1 7459 8203 annotation2062006 1 BBa_K277028 range2062006 1 745 1507 annotation2062011 1 BBa_K277033 range2062011 1 4473 5222 annotation2062018 1 BBa_K277040 range2062018 1 9812 10615 annotation2062005 1 BBa_K277027 range2062005 1 1 744 annotation2062007 1 BBa_K277029 range2062007 1 1508 2263 annotation2062013 1 BBa_K277035 range2062013 1 6027 6780 annotation2062008 1 BBa_K277030 range2062008 1 2264 3016 annotation2062014 1 BBa_K277036 range2062014 1 6781 7458 annotation2062009 1 BBa_K277031 range2062009 1 3017 3722 annotation2062017 1 BBa_K277039 range2062017 1 8943 9811 BBa_K277040 1 BBa_K277040 3L.3_23.B1.14 2009-10-20T11:00:00Z 2015-05-08T01:11:46Z Synthetic Yeast 3L.3_23.B1.14 is 804 bases long and is cloned into the pGem-T vector. 3L.3_23.B1.14 was designed as a piece of synthetic chromosome 3 with the goal of minimizing and stabilizing that chromosome and to that end has had any tRNAs, introns, repeat regions, and transposons that were present in the wildtype chromosome removed. In addition a very few gene sequences were slightly recoded to add or remove restriction enzyme recognition sites to facilitate assembly; most gene sequences were slightly recoded to introduce unique primers for diagnostic PCR amplification, and some gene sequences were slightly recoded to address the distribution of stop codon usage. 3L.3_23.B1.14 is a constituent of 3L.3_23.B1 (along with 3L.3_23.B1.01, 3L.3_23.B1.02, 3L.3_23.B1.03, 3L.3_23.B1.04, 3L.3_23.B1.05, 3L.3_23.B1.06, 3L.3_23.B1.07, 3L.3_23.B1.08, 3L.3_23.B1.09, 3L.3_23.B1.10, 3L.3_23.B1.11, 3L.3_23.B1.12, and 3L.3_23.B1.13.) This part contains at least part of the following features (positions offset from first base of sequence): kind and name offset notes gene YCL050C (-735..230) Diadenosine 5'%2C5''-P1%2CP4-tetraphosphate phosphorylase I (AP4A phosphorylase)%2C involved in catabolism of bis(5'-nucleosidyl) tetraphosphates%3B has similarity to Apa2p Sequence (the first 804 bases correspond to coordinates 28843..29646 in synthetic chromosome yeast_chr3_3_23) false false _385_ 0 2669 9 It's complicated false Constructed using overlap extension PCR protocol described in RFC38 false James DiCarlo BBa_K277038 1 BBa_K277038 3L.3_23.B1.12 2009-10-20T11:00:00Z 2015-05-08T01:11:46Z Synthetic Yeast 3L.3_23.B1.12 is 739 bases long and is cloned into the pGem-T vector. 3L.3_23.B1.12 was designed as a piece of synthetic chromosome 3 with the goal of minimizing and stabilizing that chromosome and to that end has had any tRNAs, introns, repeat regions, and transposons that were present in the wildtype chromosome removed. In addition a very few gene sequences were slightly recoded to add or remove restriction enzyme recognition sites to facilitate assembly; most gene sequences were slightly recoded to introduce unique primers for diagnostic PCR amplification, and some gene sequences were slightly recoded to address the distribution of stop codon usage. 3L.3_23.B1.12 is a constituent of 3L.3_23.B1 (along with 3L.3_23.B1.01, 3L.3_23.B1.02, 3L.3_23.B1.03, 3L.3_23.B1.04, 3L.3_23.B1.05, 3L.3_23.B1.06, 3L.3_23.B1.07, 3L.3_23.B1.08, 3L.3_23.B1.09, 3L.3_23.B1.10, 3L.3_23.B1.11, 3L.3_23.B1.13, and 3L.3_23.B1.14.) This part contains at least part of the following features (positions offset from first base of sequence): kind and name offset notes loxP_site loxPsym_YCL051W (569..602) forward_primer YCL051W_tagf1v1 (169..196) gene YCL051W (-1186..565) Protein involved in control of cell wall structure and stress response%3B inhibits Cbk1p protein kinase activity%3B overproduction confers resistance to cell-wall degrading enzymes reverse_primer YCL051W_tagr1v1 (424..451) Sequence (the first 739 bases correspond to coordinates 27255..27993 in synthetic chromosome yeast_chr3_3_23) false false _385_ 0 2669 9 It's complicated false Constructed using overlap extension PCR protocol described in RFC38 false James DiCarlo BBa_K277035 1 BBa_K277035 3L.3_23.B1.09 2009-10-19T11:00:00Z 2015-05-08T01:11:46Z Synthetic Yeast 3L.3_23.B1.09 is 754 bases long and is cloned into the pGem-T vector. 3L.3_23.B1.09 was designed as a piece of synthetic chromosome 3 with the goal of minimizing and stabilizing that chromosome and to that end has had any tRNAs, introns, repeat regions, and transposons that were present in the wildtype chromosome removed. In addition a very few gene sequences were slightly recoded to add or remove restriction enzyme recognition sites to facilitate assembly; most gene sequences were slightly recoded to introduce unique primers for diagnostic PCR amplification, and some gene sequences were slightly recoded to address the distribution of stop codon usage. 3L.3_23.B1.09 is a constituent of 3L.3_23.B1 (along with 3L.3_23.B1.01, 3L.3_23.B1.02, 3L.3_23.B1.03, 3L.3_23.B1.04, 3L.3_23.B1.05, 3L.3_23.B1.06, 3L.3_23.B1.07, 3L.3_23.B1.08, 3L.3_23.B1.10, 3L.3_23.B1.11, 3L.3_23.B1.12, 3L.3_23.B1.13, and 3L.3_23.B1.14.) This part contains at least part of the following features (positions offset from first base of sequence): kind and name offset notes reverse_primer YCL052C_tagr1v1 (213..240) gene YCL052C (-762..488) Essential component of glycosylphosphatidylinositol-mannosyltransferase I%2C required for the autocatalytic post-translational processing of the protease B precursor Prb1p%2C localizes to ER in lumenal orientation%3B homolog of mammalian PIG-X Sequence (the first 754 bases correspond to coordinates 25109..25862 in synthetic chromosome yeast_chr3_3_23) false false _385_ 0 2669 9 It's complicated false Constructed using overlap extension PCR protocol described in RFC38 false James DiCarlo BBa_K277031 1 BBa_K277031 3L.3_23.B1.05 2009-10-19T11:00:00Z 2015-05-08T01:11:46Z Synthetic Yeast 3L.3_23.B1.05 is 706 bases long and is cloned into the pGem-T vector. 3L.3_23.B1.05 was designed as a piece of synthetic chromosome 3 with the goal of minimizing and stabilizing that chromosome and to that end has had any tRNAs, introns, repeat regions, and transposons that were present in the wildtype chromosome removed. In addition a very few gene sequences were slightly recoded to add or remove restriction enzyme recognition sites to facilitate assembly; most gene sequences were slightly recoded to introduce unique primers for diagnostic PCR amplification, and some gene sequences were slightly recoded to address the distribution of stop codon usage. 3L.3_23.B1.05 is a constituent of 3L.3_23.B1 (along with 3L.3_23.B1.01, 3L.3_23.B1.02, 3L.3_23.B1.03, 3L.3_23.B1.04, 3L.3_23.B1.06, 3L.3_23.B1.07, 3L.3_23.B1.08, 3L.3_23.B1.09, 3L.3_23.B1.10, 3L.3_23.B1.11, 3L.3_23.B1.12, 3L.3_23.B1.13, and 3L.3_23.B1.14.) This part contains at least part of the following features (positions offset from first base of sequence): kind and name offset notes mutation_affecting_coding_sequence YCL054W_re_remove_MmeI (32..43) removal of MmeI reverse_primer YCL054W_tagr2v1 (124..151) gene YCL054W (-484..+2041) AdoMet-dependent methyltransferase involved in rRNA processing and 60S ribosomal subunit maturation%3B methylates G2922 in the tRNA docking site of the large subunit rRNA and in the absence of snR52%2C U2921%3B suppressor of PAB1 mutants Sequence (the first 706 bases correspond to coordinates 22137..22842 in synthetic chromosome yeast_chr3_3_23) false false _385_ 0 2669 9 It's complicated false Constructed using overlap extension PCR protocol described in RFC38 false James DiCarlo BBa_K277039 1 BBa_K277039 3L.3_23.B1.13 2009-10-20T11:00:00Z 2015-05-08T01:11:46Z Synthetic Yeast 3L.3_23.B1.13 is 869 bases long and is cloned into the pGem-T vector. 3L.3_23.B1.13 was designed as a piece of synthetic chromosome 3 with the goal of minimizing and stabilizing that chromosome and to that end has had any tRNAs, introns, repeat regions, and transposons that were present in the wildtype chromosome removed. In addition a very few gene sequences were slightly recoded to add or remove restriction enzyme recognition sites to facilitate assembly; most gene sequences were slightly recoded to introduce unique primers for diagnostic PCR amplification, and some gene sequences were slightly recoded to address the distribution of stop codon usage. 3L.3_23.B1.13 is a constituent of 3L.3_23.B1 (along with 3L.3_23.B1.01, 3L.3_23.B1.02, 3L.3_23.B1.03, 3L.3_23.B1.04, 3L.3_23.B1.05, 3L.3_23.B1.06, 3L.3_23.B1.07, 3L.3_23.B1.08, 3L.3_23.B1.09, 3L.3_23.B1.10, 3L.3_23.B1.11, 3L.3_23.B1.12, and 3L.3_23.B1.14.) This part contains at least part of the following features (positions offset from first base of sequence): kind and name offset notes gene YCL050C (125..+1090) Diadenosine 5'%2C5''-P1%2CP4-tetraphosphate phosphorylase I (AP4A phosphorylase)%2C involved in catabolism of bis(5'-nucleosidyl) tetraphosphates%3B has similarity to Apa2p reverse_primer YCL050C_tagr1v1 (620..647) mutation_affecting_coding_sequence YCL050C_re_remove_MmeI (680..691) removal of MmeI forward_primer YCL050C_tagf1v1 (293..320) loxP_site loxPsym_YCL050C (88..121) Sequence (the first 869 bases correspond to coordinates 27983..28851 in synthetic chromosome yeast_chr3_3_23) false false _385_ 0 2669 9 It's complicated false Constructed using overlap extension PCR protocol described in RFC38 false James DiCarlo BBa_K277027 1 BBa_K277027 3L.3_23.B1.01 2009-10-19T11:00:00Z 2015-05-08T01:11:46Z Synthetic Yeast 3L.3_23.B1.01 is 744 bases long and is cloned into the pGem-T vector. 3L.3_23.B1.01 was designed as a piece of synthetic chromosome 3 with the goal of minimizing and stabilizing that chromosome and to that end has had any tRNAs, introns, repeat regions, and transposons that were present in the wildtype chromosome removed. In addition a very few gene sequences were slightly recoded to add or remove restriction enzyme recognition sites to facilitate assembly; most gene sequences were slightly recoded to introduce unique primers for diagnostic PCR amplification, and some gene sequences were slightly recoded to address the distribution of stop codon usage. 3L.3_23.B1.01 is a constituent of 3L.3_23.B1 (along with 3L.3_23.B1.02, 3L.3_23.B1.03, 3L.3_23.B1.04, 3L.3_23.B1.05, 3L.3_23.B1.06, 3L.3_23.B1.07, 3L.3_23.B1.08, 3L.3_23.B1.09, 3L.3_23.B1.10, 3L.3_23.B1.11, 3L.3_23.B1.12, 3L.3_23.B1.13, and 3L.3_23.B1.14.) This part contains at least part of the following features (positions offset from first base of sequence): kind and name offset notes Sequence (the first 744 bases correspond to coordinates 19161..19904 in synthetic chromosome yeast_chr3_3_23) false false _385_ 0 2669 9 It's complicated false Constructed using overlap extension PCR protocol described in RFC38 false James DiCarlo BBa_K277032 1 BBa_K277032 3L.3_23.B1.06 2009-10-19T11:00:00Z 2015-05-08T01:11:46Z Synthetic Yeast 3L.3_23.B1.06 is 750 bases long and is cloned into the pGem-T vector. 3L.3_23.B1.06 was designed as a piece of synthetic chromosome 3 with the goal of minimizing and stabilizing that chromosome and to that end has had any tRNAs, introns, repeat regions, and transposons that were present in the wildtype chromosome removed. In addition a very few gene sequences were slightly recoded to add or remove restriction enzyme recognition sites to facilitate assembly; most gene sequences were slightly recoded to introduce unique primers for diagnostic PCR amplification, and some gene sequences were slightly recoded to address the distribution of stop codon usage. 3L.3_23.B1.06 is a constituent of 3L.3_23.B1 (along with 3L.3_23.B1.01, 3L.3_23.B1.02, 3L.3_23.B1.03, 3L.3_23.B1.04, 3L.3_23.B1.05, 3L.3_23.B1.07, 3L.3_23.B1.08, 3L.3_23.B1.09, 3L.3_23.B1.10, 3L.3_23.B1.11, 3L.3_23.B1.12, 3L.3_23.B1.13, and 3L.3_23.B1.14.) This part contains at least part of the following features (positions offset from first base of sequence): kind and name offset notes reverse_primer YCL054W_tagr1v1 (648..675) mutation_affecting_coding_sequence YCL054W_re_remove_BlpI (274..282) removal of BlpI forward_primer YCL054W_tagf1v1 (243..270) gene YCL054W (-1181..+1344) AdoMet-dependent methyltransferase involved in rRNA processing and 60S ribosomal subunit maturation%3B methylates G2922 in the tRNA docking site of the large subunit rRNA and in the absence of snR52%2C U2921%3B suppressor of PAB1 mutants Sequence (the first 750 bases correspond to coordinates 22834..23583 in synthetic chromosome yeast_chr3_3_23) false false _385_ 0 2669 9 It's complicated false Constructed using overlap extension PCR protocol described in RFC38 false James DiCarlo BBa_K277037 1 BBa_K277037 3L.3_23.B1.11 2009-10-20T11:00:00Z 2015-05-08T01:11:46Z Synthetic Yeast 3L.3_23.B1.11 is 745 bases long and is cloned into the pGem-T vector. 3L.3_23.B1.11 was designed as a piece of synthetic chromosome 3 with the goal of minimizing and stabilizing that chromosome and to that end has had any tRNAs, introns, repeat regions, and transposons that were present in the wildtype chromosome removed. In addition a very few gene sequences were slightly recoded to add or remove restriction enzyme recognition sites to facilitate assembly; most gene sequences were slightly recoded to introduce unique primers for diagnostic PCR amplification, and some gene sequences were slightly recoded to address the distribution of stop codon usage. 3L.3_23.B1.11 is a constituent of 3L.3_23.B1 (along with 3L.3_23.B1.01, 3L.3_23.B1.02, 3L.3_23.B1.03, 3L.3_23.B1.04, 3L.3_23.B1.05, 3L.3_23.B1.06, 3L.3_23.B1.07, 3L.3_23.B1.08, 3L.3_23.B1.09, 3L.3_23.B1.10, 3L.3_23.B1.12, 3L.3_23.B1.13, and 3L.3_23.B1.14.) This part contains at least part of the following features (positions offset from first base of sequence): kind and name offset notes mutation_affecting_coding_sequence YCL051W_re_remove_MmeI (277..288) removal of MmeI gene YCL051W (-452..+1299) Protein involved in control of cell wall structure and stress response%3B inhibits Cbk1p protein kinase activity%3B overproduction confers resistance to cell-wall degrading enzymes reverse_primer YCL051W_tagr2v1 (429..456) Sequence (the first 745 bases correspond to coordinates 26521..27265 in synthetic chromosome yeast_chr3_3_23) false false _385_ 0 2669 9 It's complicated false Constructed using overlap extension PCR protocol described in RFC38 false James DiCarlo BBa_K277034_sequence 1 attcagaaaatacgagtgcacagtagaacaatttttattcccgttttactgatcttttcttcttgttgttaccaaataccttggagaaaatgtatatgatggagatgagtaagcatagtaacgtaccatttttgatcttggaataatcctttgtgtcaggccttggaattggtactagaagagttgtcgagttcaaatggcggaatgtagtatcgtctgtaaagagagattcatatcctagaccttttttataaaatggattacgggaaactttattgtcacctgtgtcgcaggctaatataacttctggatcaaatgaaacttctaatttatcccctttattattagaaggctcaatatatctagtatgcaatgtcacttcattcattgtgccggctttcaattcaaagatactttcagaaccccatgccttatctcgaagagagtattctggtaattctaagtcgtcttctccaaaaagtagtaagggagaggattggaatttatcgataaataattctaacggcaattgcaggtgcattagatacatgcatttagggcgttcttcgaaatctgtgagatcaatcatgatttttggatgcaaaccgataggttcattcaagtacaagctggtggtggtggtgctatgattgtatgcgatatggccctgtttatacaataaggatgttttctgacatctttccattttaccatcgtccatcctccaattacaacgtattccaccaatatcgacatcactttcatcacttgcatccacaaagaatacacctacttcgagtttct BBa_K277031_sequence 1 atccaaggattataataaattgatttgggtttttcaacaattgtttgagaaagttgaagccacaaaaccacccgcatcaagaaatgtttctgcagaaatttttgtagtgtgtaaaggtttcaaagctcctaaacgattggatcctcgattgctggatccaaaagaagtttttgaagaattgccagatgggcaacagaatatggagtccaagatttataatcccgaaaaaaaagttagaaaaagacaaggttatgaggaaggtgataatttactgtatcatgaaacctcaattttggattttgtcaggacggaagacccaataagcatgcttggagaaatgaataagtttacaattgatgagaatgaccatgaatggaagatcttgaagaaattgaaacaaaccacagacgagttccgttcctgtattgaagatttaaaagtcttgggtaaaaaggattttaaaatgatcctaagatggagaaagattgcaagggaaatcttgggcatcgaagttaaggacgacgctaaaacagaaattgaagtagtaccgttaacagaagaggagcaaattgaaaaagatttgcaaggtttacaggagaagcagcgtctaaatgtcaagcgcgaaagaagaaggaagaacgaaatgaagcaaaaggaactacagagaatgcaaatgaacatgataacccccactgatattggtatt BBa_K277029_sequence 1 aaatacaataaattttgtaaataaataactacttcaatagaaatctcaaagtcgaagaaacacagaacacagaatgaaactggactaaatgattttcaataaaggaaaagcacgaaaaattttttgaacttttttgggacagcgtggatcgtgtaattactgtattgggaaatttacacgattctcgacaaataaagaaaaaggcgcgtttaaagacttacaagcacacctttgaattatttttgttctctatgattatcaaatgtgctagtgtttgcaagatggtgcttttttttctttagattgccacgtttctgctcctctttgtggttttctttttttttttcaatcttacttataaaatgaatatttcaattgatgaatagctatatattggatacaaaaattagcatttaatcgaaaactgcagcatgtatttaatcgaaaactacagcatgtagctatgatacgacagaagatttttgtttttatagttaagtcaagaagaaattctatttgtccagcaatccggcgcaaagaagactactaaagggtattgaaaaatttctagaaccagaaataatcgaaagcattactttttttggctctataaaggagttctggacagcttgaacttccgaagtctgtctgtttagctcgttaagataaatctcaaaagagtagcaagcaggtgggagggataatttggattaaagtgtatatattgcgtatatatagccacgtaaacctcacact BBa_K277037_sequence 1 agaagatctgaatccgctcctcctgatttggaggttatggtagataagggcaattgtgcagccggttctaactctatgattaaagaagaagaggactccttaattgaaccagaatcgaaaaatgaatattatgagcaaaagctgccaacagcactattatccccactgcggccttccctttgtgtatctgaacaggccattgatgtagatgattcagctctcaatgggtcaccgacccatcacaaccatgggatgcaaaacgccaatgcacggaattctaacacattcaattcgttgaagatcaaaggccaaaagcaaagatattatcattatacgaagcagctacctttgaccgtaggctgtgactcgcaatctccaaaagaacaaaggtcggctgcttcaatgacaatcaatcaggcaatgacaccaagcagcttggcttacactccaagcaagctagcatctactcccgcaacaccagtatccttttatgacagcaatgcggacattaacttagaaagtgataattttccactaaaagataaccctagatatgccaaggatggttatcctaaaaagtgcggcaattcacagcttaatcgtgtgctggatagcgataaaagacaggattttagtggagaatcgagaagaagaagatcgggcagtcctatctcccacatgcaacaccgcaacctgattgataatatgaaaggtagacgaaacagtaacacgataaactcaatct BBa_K277028_sequence 1 aaggaaaatgggactacagtattagggaaacaggattaaaattcgtaggtaataataacccatactttcattgtagcagtactttcgttaataaaatggatattgttgtacttcggtagatgttatattctaaagagttaaattatccaattccaaattctagggacggtttccaaagatttgtattgtccagtgacataattttcactaaaacattgatctgtttaataggtttgctataaatgcacaataatttttcacccatgatacccaatttcaagagaagcaattgctacatataattatttaggctttactatctactactcattgactgtgcccttttacacaattataacaaatatgtcaaagcagatgccatgaactttgtatctgaatttttgatttccttttaattctaattgcagacgacgtaaatatagttctgaatttcaaagtcactgttaattaattgttctaattgtttggtttttttaatataaatcactagtgcttaagttctgttgacgcacacagtacctatctttgattccttcgtgcaaacagtattccggcacgttaattgataccaaaaagatttcaaaatcagatgcttcaagactaattgtatactttatgtgacttctggagtttaatttgttgtattgatgagataatattgtctattatattgccaataacaaccagcgccaggtgtactaagtcgagatgacagaaaatttataataagtgtaaatacaat BBa_K277033_sequence 1 aagaaaaaaatcaaacaaagaaagaaaagcattccagagacattgatattgctactgttgaagccatgactttagctcaccaattggctctaggccaaaagaacaagcatgatcttgttgatgaaggtttcaatagatacaccttccgtgacaccgaaaatttgccagattggtttttagaagatgaaaaggaacattcaaagataaataagccgattactaaggaggcagcgatggcaattaaagaaaaaataaaggcaatgaacgcccgtcctattaagaaggttgctgaagctaaagcaagaaagaggatgcgtgccgtagctcggttagaaaagatcaagaagaaagctggtctaatcaatgacgacagcgataagacagagaaggacaaggctgaagaaatttctagattgatgcgtaaggttaccaaaaaaccaaagaccaagccaaaggttactttggttgttgcctcaggtaggaacaaaggtttggcaggtagaccaaagggcgttaagggtaagtataagatggttgatggtgtcatgaagaatgaacaaagagccctaagacgtatcgcaaagaagcatcacaagaaaaagtaataacaaagagcattatttttccattcccttgtataatattgaaaataaaggaaaagaaagcaatagatatattatgtatacatagaattaatcaaattatcatcaaaaaacttataggaaacctatcgttttgaattcagaaaat BBa_K277027_sequence 1 gcttagctcaattaaatatactagtaaataagtatataaacaataattttgcattttattttactggaaactcttctcaaaaccaaattgcgcaaggattgattcagtacaattatgcaaactcgaaaagtaaataaacaaaaagatacagttgagtgaaaggtaaataaacattattctacttgattttcctctgttttttccatttttcttttttgtcttttcgtgttctagcgtgttcactttttcagccatgtaattacttaaataggaagtttacacgatgttctcgcataaaaagctggaagtgcagaacaaagaggaagaaaataggaacagagaatttgtttgtttatttgtttgtttgcttgtttgtttgtttgttttgatttgaagtcgaggtacttattcgaaataattattttgcccagggttttggatagttttttgttttccaattagatttttagaaatattttatcatagttttttgtttatttatttgtttatttatttgttgatttgtttatttatttgttggtttgtttatttaagtttgtaaatgtttaataaacaaaacaatatttgcaagccattgaaaactttgtaaatttgtttgagaatttacgaaacaatgaaaattaaggactctttgatggtgaacgaattactactttgcagcaggtaattctctaaaactcagaaacaaggcatgtatttttcactaggaaaaagaaggaaaat BBa_K277040_sequence 1 ataaccgttaattcttcctcaggtttgcctagtggatcctctccttctggagtttggccacgctctggcttttcgatcagacttggcatgtgactaatcaagtatggcatgctggtttttgggtcctttgttttcgttgtttcagtctggataaattttaagttaccattatcgaaggcacttttgtacttgtcactaattaaagatgcaatgtcagcggggatactcatttttattttaatttttacttttctgtttgttctaaaatctatctaaactggctttcaagatcaatctattgtcttttaaggtaaactttaaattggaaataatagtaatgttagttccttcattttaaccttgtattgtatttcctttgcgtgatgaaaaaaaaactgaaaaagagaaaaataagaaaatcttctagaacgttccgaaacaggacacttagcacacaaatacagaataggaaagtaaaaggcaatatatgaatgcagtgcttgtaactggtgcttgtatccaagaatagcttcttgctgtaggttatgggaatatcgtgtaagctggggtgacttttgagctattcgcgacgcccgacgccgtaataactactttcgacagaccacttatgacagtatttcaggccgctcttataaaatgacatgttaacaaacagttctgattattcgccttttgacaggacgataatgtaaatagttgtggtagtatcattcaggtatgtaactgtttactttgtatcgcttgaaaaaaataagcatttcagagccttctttggagctcaag BBa_K277036_sequence 1 acgtgtattgttcctccgtggtcgattgtgttcaaagattgggagctcttttcgtgttttgcactaagagcatactgttaatccgcaaaggccactaaaacttacctgcatttgtctacttaaagatacattccaactatttacattcatttttatttctaaaagagcattctgaaccctcggcaattatttcatactccttctcagaataggaaaatgcccaatacgcatactcaacatgtgcaaatatcagagccaaatcctgtaaatactttgtctacaccatccaaaagaggtcaccgccatcgcagatcgctagcaatatcaggagattttgattttttgaaacagcctgcagcaattgtgaatttaccacctccacaggcggctgaaaattgtccttcaactgccccaactgctgtatcaagtacattatcgccaatacgctacaatagatttccttgcaaaaccaatgaagacgctggaacgttagatttgcctgaaccaagattttatccgttatcaccaaagaacaatctgcaaacaccaagtccacgatttttcattagtgaagagccaagtttttcatcgccagttaaaggcgtcccagatgccattattaaccttgatgacgctctaaaaacccgaccacgaagctttaaatcacatagaagatct BBa_K277035_sequence 1 agtttctcatctttcactcttgcaattgtaaattcttcaccctgtttcaacagacgatattcaacaatttggatttgtgtgggctccactgatatatcatatgtaaaatcttctggattccatgacagattcaaatctacttcgggaggcaagtactgctctatgtcaaacttctcactgtgaaatgaattgtagactgggttagtaataaatcgttctggaacgtcgctgctgttgctataaactgaaaagccagcactcagttcattttctataacgcttaaacttctagccaagtccgctctgggcctccaagtgattctcgtaaaggatttatccaagcttccagtcctctctaatagccacctttgttgtaaaaccacaccagaacctccacgaacagtcaaatgagtgtcattttggcgcatatgattaccgatatcctcaggggcattgtagagtacagtcactctatgtcttgtcaccattactcagctagaaacgcacacttcttgcgtttattctcctcccgatttgattatgattagcgtttccattatttgatcttttttatcagggggatcttcaaagaaaggaactttttttaggaaaaaaaaaataatcatcttttattacatgtgtaatacttcaagcaatcataaacaagagttaagaaggcaaagttctgctgttagtgtgtcctccaatactcttgcacgacaaagttttagttatccccttctacgtgtattgt BBa_K277136_sequence 1 gcttagctcaattaaatatactagtaaataagtatataaacaataattttgcattttattttactggaaactcttctcaaaaccaaattgcgcaaggattgattcagtacaattatgcaaactcgaaaagtaaataaacaaaaagatacagttgagtgaaaggtaaataaacattattctacttgattttcctctgttttttccatttttcttttttgtcttttcgtgttctagcgtgttcactttttcagccatgtaattacttaaataggaagtttacacgatgttctcgcataaaaagctggaagtgcagaacaaagaggaagaaaataggaacagagaatttgtttgtttatttgtttgtttgcttgtttgtttgtttgttttgatttgaagtcgaggtacttattcgaaataattattttgcccagggttttggatagttttttgttttccaattagatttttagaaatattttatcatagttttttgtttatttatttgtttatttatttgttgatttgtttatttatttgttggtttgtttatttaagtttgtaaatgtttaataaacaaaacaatatttgcaagccattgaaaactttgtaaatttgtttgagaatttacgaaacaatgaaaattaaggactctttgatggtgaacgaattactactttgcagcaggtaattctctaaaactcagaaacaaggcatgtatttttcactaggaaaaagaaggaaaataaggaaaatgggactacagtattagggaaacaggattaaaattcgtaggtaataataacccatactttcattgtagcagtactttcgttaataaaatggatattgttgtacttcggtagatgttatattctaaagagttaaattatccaattccaaattctagggacggtttccaaagatttgtattgtccagtgacataattttcactaaaacattgatctgtttaataggtttgctataaatgcacaataatttttcacccatgatacccaatttcaagagaagcaattgctacatataattatttaggctttactatctactactcattgactgtgcccttttacacaattataacaaatatgtcaaagcagatgccatgaactttgtatctgaatttttgatttccttttaattctaattgcagacgacgtaaatatagttctgaatttcaaagtcactgttaattaattgttctaattgtttggtttttttaatataaatcactagtgcttaagttctgttgacgcacacagtacctatctttgattccttcgtgcaaacagtattccggcacgttaattgataccaaaaagatttcaaaatcagatgcttcaagactaattgtatactttatgtgacttctggagtttaatttgttgtattgatgagataatattgtctattatattgccaataacaaccagcgccaggtgtactaagtcgagatgacagaaaatttataataagtgtaaatacaataaatacaataaattttgtaaataaataactacttcaatagaaatctcaaagtcgaagaaacacagaacacagaatgaaactggactaaatgattttcaataaaggaaaagcacgaaaaattttttgaacttttttgggacagcgtggatcgtgtaattactgtattgggaaatttacacgattctcgacaaataaagaaaaaggcgcgtttaaagacttacaagcacacctttgaattatttttgttctctatgattatcaaatgtgctagtgtttgcaagatggtgcttttttttctttagattgccacgtttctgctcctctttgtggttttctttttttttttcaatcttacttataaaatgaatatttcaattgatgaatagctatatattggatacaaaaattagcatttaatcgaaaactgcagcatgtatttaatcgaaaactacagcatgtagctatgatacgacagaagatttttgtttttatagttaagtcaagaagaaattctatttgtccagcaatccggcgcaaagaagactactaaagggtattgaaaaatttctagaaccagaaataatcgaaagcattactttttttggctctataaaggagttctggacagcttgaacttccgaagtctgtctgtttagctcgttaagataaatctcaaaagagtagcaagcaggtgggagggataatttggattaaagtgtatatattgcgtatatatagccacgtaaacctcacactaacctcacactattgagtttaaacatttttcaccttacgttattattcttttgtctaattttaatctcctccagtatactaaaaccgcaaaagcgggttacccagcttgtttctttttgtctgaaaaattttttgcgatgcccattatgaaaaattggcaataatagtatagtagttagtttaagtttagattctttcaatactcattctgcttcagtttgtagttagatttaactcaatagaggtgattggcaaaaatgggtaagacacaaaagaagaatagtaagggacgtttagatagatactattatctagcaaaggagaaaggttatcgtgctcgttcatcctttaagattattcagattaatgaaaagtatggccacttcttagaaaaatcgaaggttgttattgatctgtgtgctgctcctggttcatggtgtcaagtcgctagcaagttgtgcccagttaatagcttaattattggtgttgatattgttccaatgaagccgatgcccaatgttataacttttcaaagtgatattacaacagaagattgtagatcaaaattgaggggttatatgaagacttggaaagctgatacagtgttgcatgatggtgctcctaatgttggtttgggttgggttcaggatgctttcacccaatctcaattaaccttacaagctttgaagttggccgtcgaaaatttggtggtgaacggtacttttgttactaaaattttcagatccaaggattatccaaggattataataaattgatttgggtttttcaacaattgtttgagaaagttgaagccacaaaaccacccgcatcaagaaatgtttctgcagaaatttttgtagtgtgtaaaggtttcaaagctcctaaacgattggatcctcgattgctggatccaaaagaagtttttgaagaattgccagatgggcaacagaatatggagtccaagatttataatcccgaaaaaaaagttagaaaaagacaaggttatgaggaaggtgataatttactgtatcatgaaacctcaattttggattttgtcaggacggaagacccaataagcatgcttggagaaatgaataagtttacaattgatgagaatgaccatgaatggaagatcttgaagaaattgaaacaaaccacagacgagttccgttcctgtattgaagatttaaaagtcttgggtaaaaaggattttaaaatgatcctaagatggagaaagattgcaagggaaatcttgggcatcgaagttaaggacgacgctaaaacagaaattgaagtagtaccgttaacagaagaggagcaaattgaaaaagatttgcaaggtttacaggagaagcagcgtctaaatgtcaagcgcgaaagaagaaggaagaacgaaatgaagcaaaaggaactacagagaatgcaaatgaacatgataacccccactgatattggtattattggtattgaagccgcaagtttgggtaaagaatcgttgtttaatttgaaaactgcagaaaagactggtatcttgaacgacttggcgaagggtaagaaaagaatgatttttacagacgatgaattagccaaagataatgatatttacattgatgaaaacatcatgatcaaagataaggattctgccgctgatgcggacgatttagaaagcgagttgaatgccatgtatagtgattataaaacccgacgaagcgaacgagacgctaaattcagagctaaacaagcacgtggtggcgataatgaggaagaatggaccggttttaatgagggaagtctagaaaagaaagaagaggaaggtaaagattatatcgaagacaatgacgatgaaggtgtcgaaggagactccgatgatgatgaagccatcaccaatttgattagcaaattgaagggacaagaaggtgatcacaaattgagtagtaaggcacgtatgattttcaatgatccgatatttaataacgttgaacctgatttgccagtaaataccgtcaatgatggcataatgagttccgagtctgttggtgatatttctaaattaaataagaaaagaaaacatgaagaaatgcaccagaaacaagatgaagcagattccagcgacgaatctagctctgacgatagcgatttcgaaattgtggccaacgataatgcatcagaagaattcgattctgattatgattcagaggaagaaaaaaataagaaaaaaatcaaacaaagaaagaaaagcattccagagacattgatattgctactgttgaagccatgactttagctcaccaattggctctaggccaaaagaacaagcatgatcttgttgatgaaggtttcaatagatacaccttccgtgacaccgaaaatttgccagattggtttttagaagatgaaaaggaacattcaaagataaataagccgattactaaggaggcagcgatggcaattaaagaaaaaataaaggcaatgaacgcccgtcctattaagaaggttgctgaagctaaagcaagaaagaggatgcgtgccgtagctcggttagaaaagatcaagaagaaagctggtctaatcaatgacgacagcgataagacagagaaggacaaggctgaagaaatttctagattgatgcgtaaggttaccaaaaaaccaaagaccaagccaaaggttactttggttgttgcctcaggtaggaacaaaggtttggcaggtagaccaaagggcgttaagggtaagtataagatggttgatggtgtcatgaagaatgaacaaagagccctaagacgtatcgcaaagaagcatcacaagaaaaagtaataacaaagagcattatttttccattcccttgtataatattgaaaataaaggaaaagaaagcaatagatatattatgtatacatagaattaatcaaattatcatcaaaaaacttataggaaacctatcgttttgaattcagaaaatattcagaaaatacgagtgcacagtagaacaatttttattcccgttttactgatcttttcttcttgttgttaccaaataccttggagaaaatgtatatgatggagatgagtaagcatagtaacgtaccatttttgatcttggaataatcctttgtgtcaggccttggaattggtactagaagagttgtcgagttcaaatggcggaatgtagtatcgtctgtaaagagagattcatatcctagaccttttttataaaatggattacgggaaactttattgtcacctgtgtcgcaggctaatataacttctggatcaaatgaaacttctaatttatcccctttattattagaaggctcaatatatctagtatgcaatgtcacttcattcattgtgccggctttcaattcaaagatactttcagaaccccatgccttatctcgaagagagtattctggtaattctaagtcgtcttctccaaaaagtagtaagggagaggattggaatttatcgataaataattctaacggcaattgcaggtgcattagatacatgcatttagggcgttcttcgaaatctgtgagatcaatcatgatttttggatgcaaaccgataggttcattcaagtacaagctggtggtggtggtgctatgattgtatgcgatatggccctgtttatacaataaggatgttttctgacatctttccattttaccatcgtccatcctccaattacaacgtattccaccaatatcgacatcactttcatcacttgcatccacaaagaatacacctacttcgagtttctagtttctcatctttcactcttgcaattgtaaattcttcaccctgtttcaacagacgatattcaacaatttggatttgtgtgggctccactgatatatcatatgtaaaatcttctggattccatgacagattcaaatctacttcgggaggcaagtactgctctatgtcaaacttctcactgtgaaatgaattgtagactgggttagtaataaatcgttctggaacgtcgctgctgttgctataaactgaaaagccagcactcagttcattttctataacgcttaaacttctagccaagtccgctctgggcctccaagtgattctcgtaaaggatttatccaagcttccagtcctctctaatagccacctttgttgtaaaaccacaccagaacctccacgaacagtcaaatgagtgtcattttggcgcatatgattaccgatatcctcaggggcattgtagagtacagtcactctatgtcttgtcaccattactcagctagaaacgcacacttcttgcgtttattctcctcccgatttgattatgattagcgtttccattatttgatcttttttatcagggggatcttcaaagaaaggaactttttttaggaaaaaaaaaataatcatcttttattacatgtgtaatacttcaagcaatcataaacaagagttaagaaggcaaagttctgctgttagtgtgtcctccaatactcttgcacgacaaagttttagttatccccttctacgtgtattgtacgtgtattgttcctccgtggtcgattgtgttcaaagattgggagctcttttcgtgttttgcactaagagcatactgttaatccgcaaaggccactaaaacttacctgcatttgtctacttaaagatacattccaactatttacattcatttttatttctaaaagagcattctgaaccctcggcaattatttcatactccttctcagaataggaaaatgcccaatacgcatactcaacatgtgcaaatatcagagccaaatcctgtaaatactttgtctacaccatccaaaagaggtcaccgccatcgcagatcgctagcaatatcaggagattttgattttttgaaacagcctgcagcaattgtgaatttaccacctccacaggcggctgaaaattgtccttcaactgccccaactgctgtatcaagtacattatcgccaatacgctacaatagatttccttgcaaaaccaatgaagacgctggaacgttagatttgcctgaaccaagattttatccgttatcaccaaagaacaatctgcaaacaccaagtccacgatttttcattagtgaagagccaagtttttcatcgccagttaaaggcgtcccagatgccattattaaccttgatgacgctctaaaaacccgaccacgaagctttaaatcacatagaagatctagaagatctgaatccgctcctcctgatttggaggttatggtagataagggcaattgtgcagccggttctaactctatgattaaagaagaagaggactccttaattgaaccagaatcgaaaaatgaatattatgagcaaaagctgccaacagcactattatccccactgcggccttccctttgtgtatctgaacaggccattgatgtagatgattcagctctcaatgggtcaccgacccatcacaaccatgggatgcaaaacgccaatgcacggaattctaacacattcaattcgttgaagatcaaaggccaaaagcaaagatattatcattatacgaagcagctacctttgaccgtaggctgtgactcgcaatctccaaaagaacaaaggtcggctgcttcaatgacaatcaatcaggcaatgacaccaagcagcttggcttacactccaagcaagctagcatctactcccgcaacaccagtatccttttatgacagcaatgcggacattaacttagaaagtgataattttccactaaaagataaccctagatatgccaaggatggttatcctaaaaagtgcggcaattcacagcttaatcgtgtgctggatagcgataaaagacaggattttagtggagaatcgagaagaagaagatcgggcagtcctatctcccacatgcaacaccgcaacctgattgataatatgaaaggtagacgaaacagtaacacgataaactcaatctaaactcaatcttcaactacaagagtcaacattatgaaatgccatatgatgatatgatgaaaaatgaaaacattaatgcacagtccatgcccttttcagtcaacggtgtcaacaatgaaaatagtatcggaggggttattacgagagcggacgatgcaccccttcaacatagcgttgttaagagctgcaccccagacggcaaggaagaaatgaataggcttaaaagtaatgacagtaatgaatattccaagtctgaagggcagatcagaaccaattcgcaactaagtaaggacattctcatgggtgaaccaggtgatatggttgatctgtcctcttttgtcaacgcgcagagaaaagcctcaaatgaaactggtgacttagtctttagtttatcccaggatgatgacgcactgaaaacgttccacgcttctaattctgctgctacctctaacgaaagctggtgtattagcgatgatgcgttaggaaagcaggcgcaggacagtgaagttaggaggaaaagaaaatccaaattaggactctttagacatattttttcaaggaagtaatacataacttcgtataatgtacattatacgaagttataacaatattaataataagtaataaaaaggtgaatcgtaaccttaacggcattgattgcatgtagttttaataataaagtgtagaataataaatataaaatttcaaagtcatcagaaataaaaattgaatagacatataatagacatatacatatagaaattacttctatcatttaaatacatatatatacatacatgtatacgtgtatacttgtacttgtgaagataacttcgtataatgtacattatacgaagttatgactcaatagttgtattcgtttggtttttgaccagaagtgtttgggaaaccacattccaataagatatcgttaatcaattcaggtttttcagtaatcttggagaaaacttcatcatttttggttaagatcataccacaataacctgtggagttgaaacctatcttcatttcgtcgctgaaagctttgcttcgagggacaacacagatccattccttggttaacataagattgtaggatttctttagttctggattttcgttcaaccagtcctggaaaaaggtcaaagctctttgcaatatggagatgtaacacatagctaataggtcttcatcaacagtttcttcagactccggcattggcaagacaaaatgagcgaacgagactttagcatcttgcaaaggttcagtattgaaagttggtaggaaatgttctttaccattacatagtctatcttggaaagtgacgaacttttcaggcatttgcagaatttgcaaatgcttatgatctaggctgctgccagaagcaggaccagaattgtaaaagaccatgtgtctcttatcggattcttcattgtccaaggcacacagcaacttataagcagtcaataaatcggttggggtcaaggcatcagtttgatgttggtattcgttagttaccaataaagtgtgttcagggattacagggaatttgtttaatagcaatttatacgctttgttatcggcaccaccaaattctgggataaccgttataaccgttaattcttcctcaggtttgcctagtggatcctctccttctggagtttggccacgctctggcttttcgatcagacttggcatgtgactaatcaagtatggcatgctggtttttgggtcctttgttttcgttgtttcagtctggataaattttaagttaccattatcgaaggcacttttgtacttgtcactaattaaagatgcaatgtcagcggggatactcatttttattttaatttttacttttctgtttgttctaaaatctatctaaactggctttcaagatcaatctattgtcttttaaggtaaactttaaattggaaataatagtaatgttagttccttcattttaaccttgtattgtatttcctttgcgtgatgaaaaaaaaactgaaaaagagaaaaataagaaaatcttctagaacgttccgaaacaggacacttagcacacaaatacagaataggaaagtaaaaggcaatatatgaatgcagtgcttgtaactggtgcttgtatccaagaatagcttcttgctgtaggttatgggaatatcgtgtaagctggggtgacttttgagctattcgcgacgcccgacgccgtaataactactttcgacagaccacttatgacagtatttcaggccgctcttataaaatgacatgttaacaaacagttctgattattcgccttttgacaggacgataatgtaaatagttgtggtagtatcattcaggtatgtaactgtttactttgtatcgcttgaaaaaaataagcatttcagagccttctttggagctcaag BBa_K277032_sequence 1 attggtattgaagccgcaagtttgggtaaagaatcgttgtttaatttgaaaactgcagaaaagactggtatcttgaacgacttggcgaagggtaagaaaagaatgatttttacagacgatgaattagccaaagataatgatatttacattgatgaaaacatcatgatcaaagataaggattctgccgctgatgcggacgatttagaaagcgagttgaatgccatgtatagtgattataaaacccgacgaagcgaacgagacgctaaattcagagctaaacaagcacgtggtggcgataatgaggaagaatggaccggttttaatgagggaagtctagaaaagaaagaagaggaaggtaaagattatatcgaagacaatgacgatgaaggtgtcgaaggagactccgatgatgatgaagccatcaccaatttgattagcaaattgaagggacaagaaggtgatcacaaattgagtagtaaggcacgtatgattttcaatgatccgatatttaataacgttgaacctgatttgccagtaaataccgtcaatgatggcataatgagttccgagtctgttggtgatatttctaaattaaataagaaaagaaaacatgaagaaatgcaccagaaacaagatgaagcagattccagcgacgaatctagctctgacgatagcgatttcgaaattgtggccaacgataatgcatcagaagaattcgattctgattatgattcagaggaagaaaaaaat BBa_K277039_sequence 1 aatagacatatacatatagaaattacttctatcatttaaatacatatatatacatacatgtatacgtgtatacttgtacttgtgaagataacttcgtataatgtacattatacgaagttatgactcaatagttgtattcgtttggtttttgaccagaagtgtttgggaaaccacattccaataagatatcgttaatcaattcaggtttttcagtaatcttggagaaaacttcatcatttttggttaagatcataccacaataacctgtggagttgaaacctatcttcatttcgtcgctgaaagctttgcttcgagggacaacacagatccattccttggttaacataagattgtaggatttctttagttctggattttcgttcaaccagtcctggaaaaaggtcaaagctctttgcaatatggagatgtaacacatagctaataggtcttcatcaacagtttcttcagactccggcattggcaagacaaaatgagcgaacgagactttagcatcttgcaaaggttcagtattgaaagttggtaggaaatgttctttaccattacatagtctatcttggaaagtgacgaacttttcaggcatttgcagaatttgcaaatgcttatgatctaggctgctgccagaagcaggaccagaattgtaaaagaccatgtgtctcttatcggattcttcattgtccaaggcacacagcaacttataagcagtcaataaatcggttggggtcaaggcatcagtttgatgttggtattcgttagttaccaataaagtgtgttcagggattacagggaatttgtttaatagcaatttatacgctttgttatcggcaccaccaaattctgggataaccgtt BBa_K277038_sequence 1 aaactcaatcttcaactacaagagtcaacattatgaaatgccatatgatgatatgatgaaaaatgaaaacattaatgcacagtccatgcccttttcagtcaacggtgtcaacaatgaaaatagtatcggaggggttattacgagagcggacgatgcaccccttcaacatagcgttgttaagagctgcaccccagacggcaaggaagaaatgaataggcttaaaagtaatgacagtaatgaatattccaagtctgaagggcagatcagaaccaattcgcaactaagtaaggacattctcatgggtgaaccaggtgatatggttgatctgtcctcttttgtcaacgcgcagagaaaagcctcaaatgaaactggtgacttagtctttagtttatcccaggatgatgacgcactgaaaacgttccacgcttctaattctgctgctacctctaacgaaagctggtgtattagcgatgatgcgttaggaaagcaggcgcaggacagtgaagttaggaggaaaagaaaatccaaattaggactctttagacatattttttcaaggaagtaatacataacttcgtataatgtacattatacgaagttataacaatattaataataagtaataaaaaggtgaatcgtaaccttaacggcattgattgcatgtagttttaataataaagtgtagaataataaatataaaatttcaaagtcatcagaaataaaaattgaatagacatat BBa_K277030_sequence 1 aacctcacactattgagtttaaacatttttcaccttacgttattattcttttgtctaattttaatctcctccagtatactaaaaccgcaaaagcgggttacccagcttgtttctttttgtctgaaaaattttttgcgatgcccattatgaaaaattggcaataatagtatagtagttagtttaagtttagattctttcaatactcattctgcttcagtttgtagttagatttaactcaatagaggtgattggcaaaaatgggtaagacacaaaagaagaatagtaagggacgtttagatagatactattatctagcaaaggagaaaggttatcgtgctcgttcatcctttaagattattcagattaatgaaaagtatggccacttcttagaaaaatcgaaggttgttattgatctgtgtgctgctcctggttcatggtgtcaagtcgctagcaagttgtgcccagttaatagcttaattattggtgttgatattgttccaatgaagccgatgcccaatgttataacttttcaaagtgatattacaacagaagattgtagatcaaaattgaggggttatatgaagacttggaaagctgatacagtgttgcatgatggtgctcctaatgttggtttgggttgggttcaggatgctttcacccaatctcaattaaccttacaagctttgaagttggccgtcgaaaatttggtggtgaacggtacttttgttactaaaattttcagatccaaggatt 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