BBa_K2017010 1 BBa_K2017010 35s + Ga20ox consense + RSIAT-TEV-Luciferase + Tnos 2016-10-03T11:00:00Z 2016-10-22T05:13:20Z This part was obtained using GoldenBraid assembly. The Ga20ox consense sequence was obtained with oligonucleotide synthesis. Modul of the gRNA testing system created by Valencia UPV 2016 team. This system aims to test the functionality and efficiency of a chosen gRNA to target a particular gene. This system is modular, as the gene inserted can be chosen by the user, only taking into account the required overhangs (5'-AATG-3' and 5'-TTCG-3'). It includes a promoter 35s (BBa_K1537015), 20 nucleotides of the Ga20ox consensus gene of Oryza sativa (rice), the reporter luciferase with RSIAT+TEV linker and the terminator Tnos. Luciferase is out of its reading frame due to a nucleotide added upstream to the linker, and the initial ATG has been removed. This means that when the luciferase is translated, it will not be functional. To make it functional, it is necessary to make indels in the Ga20ox fragment that put the luciferase in the correct reading frame. These indels can be made using the CRISPR/Cas9 system, which is the aim of this device. false false _2484_ 26626 26626 9 false It is important to notice that this device is modular. To insert the region of the gene of interest, this region must have the overhang 5'-AATG-3' and 5'-TTCG-3'. false Monica Victoria Gutierrez Salazar component2487426 1 BBa_K1537015 component2487433 1 BBa_K1484215 component2487430 1 BBa_K2017006 annotation2487433 1 BBa_K1484215 range2487433 1 2577 2869 annotation2487430 1 BBa_K2017006 range2487430 1 869 2568 annotation2487426 1 BBa_K1537015 range2487426 1 1 860 BBa_K1484215 1 BBa_K1484215 nopaline synthase terminator 2014-10-07T11:00:00Z 2015-06-10T02:20:23Z Arab genom MP, Arab use false false _1864_ 4206 21057 9 It's complicated false Cascading for use in MP false Salil Bhate annotation2414249 1 PlantSyntax Terminator + 3'U range2414249 1 1 11 annotation2414250 1 PlantSyntax Terminator + 3'U range2414250 1 282 293 BBa_K2017006 1 BBa_K2017006 RSIAT-TEV linker + Luciferase 2016-10-02T11:00:00Z 2016-10-22T07:17:21Z Luciferase was obtained from laboratory stock. The linker was fused with a PCR. Firefly luciferase protein. It oxidates its substrate luciferin, emitting light during the process. It can act as a reporter protein when used with a promoter. This part is made to be fused downstream to other coding sequence, so it includes the RSIAT-TEV linker in order to let the luciferase acquire the correct tertiary structure. The TEV region is the recognition site for the NiaTEV protease. The protease cuts on its site, letting the luciferase without the upstream coding sequence. The luciferase does not include ATG (Met) to initiate translation, as it needs to be fused to other coding sequence on the 5'. The translation must begin in the coding sequence fused upstream. The linker includes a random nucleotide in 5', to change the reading frame of the luciferase. That way, it will not be translated unless an indel is produced in the coding region to which the part is fused. false false _2484_ 26626 26626 9 false This part must be fused downstream to other coding sequence. In order to be used in our modular gRNA testing system, it was necessary to remove the ATG (Met codon) to avoid unexpected translation. The translation must begin in the coding sequence fused upstream. The linker includes a random nucleotide in 5', to change the reading frame of the luciferase. That way, it will not be translated unless an indel is produced in the coding region to which the part is fused. false Monica Victoria Gutierrez Salazar annotation2487382 1 Luciferase range2487382 1 20 1700 annotation2487377 1 Additional nucleotide range2487377 1 1 2 annotation2487378 1 RSIAT Linker range2487378 1 3 19 BBa_K1537015 1 BBa_K1537015 35S promoter+translation initiation optimized sequence for dicot+Mass translation enhancer 2014-08-17T11:00:00Z 2015-05-08T01:10:52Z The 35S promoter has a large area of application in genetically modified plants.The translation initiation optimized sequence for dicot is from the paper "translation initiation optimized sequence for dicot"(Nucleic Acids Research Volume 36, Issue 3Pp. 861-871 So Nakagawa1, Yoshihito Niimura2, Takashi Gojobori3,4, Hiroshi Tanaka1,2,* and Kin-ichiro Miura5) The 35S promoter is a strong promoter derived from cauliflower mosaic virus. This constitutive promoter is widely used in transgenic plants to improve the level of the expression of foreign genes effectively."AAAAAAATG" was a kind of preferred nucleotide sequence used in dicot plants(ATG is the initiation codon)to enhance translation initiation.And insertion of ???GCT TCC TCC???(mass translation enhancer) after the initiator codon ATG can augment downstream gene-expression in plants. false false _1919_ 0 22415 9 It's complicated false We have to remove some restriction endonuclease cutting sites by changing a few bases. false Jie Li annotation2393797 1 35s promoter range2393797 1 1 842 annotation2393798 1 translation initiation optimized sequence for dicot range2393798 1 843 851 annotation2393799 1 mass translation enhancer range2393799 1 852 860 BBa_K2017006_sequence 1 cgagatctattgctactactactgagaacctctactttcagagtggcactgaagacgccaaaaacataaagaaaggcccggcgccattctatccgctggaagatggaaccgctggagagcaactgcataaggctatgaagagatacgccctggttcctggaacaattgcttttacagatgcacatatcgaggtggacatcacttacgctgagtacttcgaaatgtccgttcggttggcagaagctatgaaacgatatgggctgaatacaaatcacagaatcgtcgtatgcagtgaaaactctcttcaattctttatgccggtgttgggcgcgttatttatcggagttgcagttgcgcccgcgaacgacatttataatgaacgtgaattgctcaacagtatgggcatttcgcagcctaccgtggtgttcgtttccaaaaaggggttgcaaaaaattttgaacgtgcaaaaaaagctcccaatcatccaaaaaattattatcatggattctaaaacggattaccagggatttcagtcgatgtacacgttcgtcacatctcatctacctcccggttttaatgaatacgattttgtgccagagtccttcgatagggacaagacaattgcactgatcatgaactcctctggatctactggtctgcctaaaggtgtcgctctgcctcatagaactgcctgcgtgagattctcgcatgccagagatcctatttttggcaatcaaatcattccggatactgcgattttaagtgttgttccattccatcacggttttggaatgtttactacactcggatatttgatatgtggatttcgagtcgtcttaatgtatagatttgaagaagagctgtttctgaggagccttcaggattacaagattcaaagtgcgctgctggtgccaaccctattctccttcttcgccaaaagcactctgattgacaaatacgatttatctaatttacacgaaattgcttctggtggcgctcccctctctaaggaagtcggggaagcggttgccaagaggttccatctgccaggtatcaggcaaggatatgggctcactgagactacatcagctattctgattacacccgagggggatgataaaccgggcgcggtcggtaaagttgttccattttttgaagcgaaggttgtggatctggataccgggaaaacgctgggcgttaatcaaagaggcgaactgtgtgtgagaggtcctatgattatgtccggttatgtaaacaatccggaagcgaccaacgccttgattgacaaggatggatggctacattctggagacatagcttactgggacgaagacgaacacttcttcatcgttgaccgcctgaagtctctgattaagtacaaaggctatcaggtggctcccgctgaattggaatccatcttgctccaacaccccaacatcttcgacgcaggtgtcgcaggtcttcccgacgatgacgccggtgaacttcccgccgccgttgttgttttggagcacggaaagacgatgacggaaaaagagatcgtggattacgtcgccagtcaagtaacaaccgcgaaaaagttgcgcggaggagttgtgtttgtggacgaagtaccgaaaggtcttaccggaaaactcgacgcaagaaaaatcagagagatcctcataaaggccaagaagggcggaaagatcgccgtgtaa BBa_K1537015_sequence 1 agatttgccttttcaatttcagaaagaatgctaacccacagatggttagagaggcttacgcagcaggtctcatcaagacgatctacccgagcaataatctccaggaaatcaaataccttcccaagaaggttaaagatgcagtcaaaagattcaggactaactgcatcaagaacacagagaaagatatatttctcaagatcagaagtactattccagtatggacgattcaaggcttgcttcacaaaccaaggcaagtaatagagattggagtctctaaaaaggtagttcccactgaatcaaaggccatggagtcaaagattcaaatagaggacctaacagaactcgccgtaaagactggcgaacagttcatacagagtctcttacgactcaatgacaagaagaaaatcttcgtcaacatggtggagcacgacacacttgtctactccaaaaatatcaaagatacagtctcagaagaccaaagggcaattgagacttttcaacaaagggtaatatccggaaacctcctcggattccattgcccagctatctgtcactttattgtgaagatagtggaaaaggaaggtggctcctacaaatgccatcattgcgataaaggaaaggccatcgttgaagatgcctctgccgacagtggtcccaaagatggacccccacccacgaggagcatcgtggaaaaagaagacgttccaaccacgtcttcaaagcaagtggattgatgtgatatctccactgacgtaagggatgacgcacaatcccactatccttcgcaagacccttcctctatataaggaagttcatttcatttggagagaacacgggggactaaaaaaatggcttcctcc BBa_K2017010_sequence 1 agatttgccttttcaatttcagaaagaatgctaacccacagatggttagagaggcttacgcagcaggtctcatcaagacgatctacccgagcaataatctccaggaaatcaaataccttcccaagaaggttaaagatgcagtcaaaagattcaggactaactgcatcaagaacacagagaaagatatatttctcaagatcagaagtactattccagtatggacgattcaaggcttgcttcacaaaccaaggcaagtaatagagattggagtctctaaaaaggtagttcccactgaatcaaaggccatggagtcaaagattcaaatagaggacctaacagaactcgccgtaaagactggcgaacagttcatacagagtctcttacgactcaatgacaagaagaaaatcttcgtcaacatggtggagcacgacacacttgtctactccaaaaatatcaaagatacagtctcagaagaccaaagggcaattgagacttttcaacaaagggtaatatccggaaacctcctcggattccattgcccagctatctgtcactttattgtgaagatagtggaaaaggaaggtggctcctacaaatgccatcattgcgataaaggaaaggccatcgttgaagatgcctctgccgacagtggtcccaaagatggacccccacccacgaggagcatcgtggaaaaagaagacgttccaaccacgtcttcaaagcaagtggattgatgtgatatctccactgacgtaagggatgacgcacaatcccactatccttcgcaagacccttcctctatataaggaagttcatttcatttggagagaacacgggggactaaaaaaatggcttcctcctactagagcgagatctattgctactactactgagaacctctactttcagagtggcactgaagacgccaaaaacataaagaaaggcccggcgccattctatccgctggaagatggaaccgctggagagcaactgcataaggctatgaagagatacgccctggttcctggaacaattgcttttacagatgcacatatcgaggtggacatcacttacgctgagtacttcgaaatgtccgttcggttggcagaagctatgaaacgatatgggctgaatacaaatcacagaatcgtcgtatgcagtgaaaactctcttcaattctttatgccggtgttgggcgcgttatttatcggagttgcagttgcgcccgcgaacgacatttataatgaacgtgaattgctcaacagtatgggcatttcgcagcctaccgtggtgttcgtttccaaaaaggggttgcaaaaaattttgaacgtgcaaaaaaagctcccaatcatccaaaaaattattatcatggattctaaaacggattaccagggatttcagtcgatgtacacgttcgtcacatctcatctacctcccggttttaatgaatacgattttgtgccagagtccttcgatagggacaagacaattgcactgatcatgaactcctctggatctactggtctgcctaaaggtgtcgctctgcctcatagaactgcctgcgtgagattctcgcatgccagagatcctatttttggcaatcaaatcattccggatactgcgattttaagtgttgttccattccatcacggttttggaatgtttactacactcggatatttgatatgtggatttcgagtcgtcttaatgtatagatttgaagaagagctgtttctgaggagccttcaggattacaagattcaaagtgcgctgctggtgccaaccctattctccttcttcgccaaaagcactctgattgacaaatacgatttatctaatttacacgaaattgcttctggtggcgctcccctctctaaggaagtcggggaagcggttgccaagaggttccatctgccaggtatcaggcaaggatatgggctcactgagactacatcagctattctgattacacccgagggggatgataaaccgggcgcggtcggtaaagttgttccattttttgaagcgaaggttgtggatctggataccgggaaaacgctgggcgttaatcaaagaggcgaactgtgtgtgagaggtcctatgattatgtccggttatgtaaacaatccggaagcgaccaacgccttgattgacaaggatggatggctacattctggagacatagcttactgggacgaagacgaacacttcttcatcgttgaccgcctgaagtctctgattaagtacaaaggctatcaggtggctcccgctgaattggaatccatcttgctccaacaccccaacatcttcgacgcaggtgtcgcaggtcttcccgacgatgacgccggtgaacttcccgccgccgttgttgttttggagcacggaaagacgatgacggaaaaagagatcgtggattacgtcgccagtcaagtaacaaccgcgaaaaagttgcgcggaggagttgtgtttgtggacgaagtaccgaaaggtcttaccggaaaactcgacgcaagaaaaatcagagagatcctcataaaggccaagaagggcggaaagatcgccgtgtaatactagagggtctcaggtagaatttccccgatcgttcaaacatttggcaataaagtttcttaagattgaatcctgttgccggtcttgcgatgattatcatataatttctgttgaattacgttaagcatgtaataattaacatgtaatgcatgacgttatttatgagatgggtttttatgattagagtcccgcaattatacatttaatacgcgatagaaaacaaaatatagcgcgcaaactaggataaattatcgcgcgcggtgtcatctatgttactagatcggcaattccgctagagacc BBa_K1484215_sequence 1 ggtctcaggtagaatttccccgatcgttcaaacatttggcaataaagtttcttaagattgaatcctgttgccggtcttgcgatgattatcatataatttctgttgaattacgttaagcatgtaataattaacatgtaatgcatgacgttatttatgagatgggtttttatgattagagtcccgcaattatacatttaatacgcgatagaaaacaaaatatagcgcgcaaactaggataaattatcgcgcgcggtgtcatctatgttactagatcggcaattccgctagagacc igem2sbol 1 iGEM to SBOL conversion Conversion of the iGEM parts registry to SBOL2.1 Chris J. Myers James Alastair McLaughlin 2017-03-06T15:00:00.000Z