BBa_K590082 1 BBa_K590082 Ser-Glylinker 2011-09-21T11:00:00Z 2015-05-08T01:12:48Z Created from primers. This is a simple linker for insertion between fusion proteins. false false _761_ 0 10497 9 Not in stock false W false Michael Brasino annotation2138533 1 protein range2138533 1 1 24 BBa_K590081 1 BBa_K590081 mamI 2011-09-21T11:00:00Z 2015-05-08T01:12:48Z From the AMB-1 genome. mamI is required for vesicle formation for later magnetosome growth in AMB-1. It localizes in a line in flourescence studies in AMB-1. false false _761_ 0 10497 9 Not in stock false none false Michael Brasino 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_K590016 1 BBa_K590016 sfGFP_mamI_pGA1C3 2011-09-14T11:00:00Z 2015-05-08T01:12:47Z Made from Gibson reaction (Miniprepped) Fluoroescent(sfGFP) membrane localization (mamI) false false _761_ 0 10712 9 It's complicated true sequence confirmed false Michael Brasino, Alicia Wong, Rashmi Ravichandran component2145999 1 BBa_K590082 component2145993 1 BBa_B0034 component2146000 1 BBa_K590081 component2145987 1 BBa_R0011 component2145997 1 BBa_I746916 annotation2145993 1 BBa_B0034 range2145993 1 56 67 annotation2145987 1 BBa_R0011 range2145987 1 1 54 annotation2146000 1 BBa_K590081 range2146000 1 812 1021 annotation2145997 1 BBa_I746916 range2145997 1 68 787 annotation2145999 1 BBa_K590082 range2145999 1 788 811 BBa_R0011 1 lacI+pL Promoter (lacI regulated, lambda pL hybrid) 2003-01-31T12:00:00Z 2015-05-08T01:14:14Z represillator of Elowitz and Leibler (2000) Released HQ 2013 Inverting regulatory region controlled by LacI (<bb_part>BBa_C0010</bb_part>, <bb_part>BBa_C0011</bb_part>, etc.) <p> The PLlac 0-1 promoter is a hybrid regulatory region consisting of the promoter P(L) of phage lambda with the cI binding sites replaced with lacO1. The hybrid design allows for strong promotion that can nevertheless be tightly repressed by LacI, the Lac inhibitor (i.e. repressor) (<bb_part>BBa_C0010</bb_part>) ([LUTZ97]). The activity of the promoter can be regulated over a >600-fold range by IPTG in E.Coli DH5-alpha-Z1 (same paper reference). false true _1_ 0 24 7 In stock false <P> <P>hybrid promoter design to create strong promoter that is, at the same time, highly repressible. note that the upstream operator installed in this hybrid is slightly different than the one in the original source (Lutz and Bujard, 1997). the most upstream operator region is slightly truncated in the represillator version, so that both operators in the hybrid are the same sequence. see references for details. also, the sequence has been truncated after the transcriptional start site.<P>LacI binds to this regulator. This part is incompatible with species containing active LacI coding regions. Lactose and IPTG disable the operation of LacI and increase transcription. This part is incompatible with environments containing lactose or lactose analogs. true Neelaksh Varshney, Grace Kenney, Daniel Shen, Samantha Sutton annotation2001 1 lac O1 range2001 1 26 42 annotation1999 1 lac O1 range1999 1 3 19 annotation2002 1 -10 range2002 1 43 48 annotation7064 1 BBa_R0011 range7064 1 1 54 annotation2000 1 -35 range2000 1 20 25 BBa_I746916 1 BBa_I746916 superfolder GFP coding sequence 2008-09-29T11:00:00Z 2015-08-31T04:08:05Z Superfolder GFP was originally described by: Pedelacq et al (2006): "Engineering and characterization of a superfolder green fluorescent protein", Nature Biotech 24 (1) January 2006 This version was synthesised de novo (by Geneart). This is the coding sequence of superfolder GFP (Pedelacq et al (2006): "Engineering and characterization of a superfolder green fluorescent protein", Nature Biotech 24 (1) January 2006). It carries the following amino acid changes with respect to mut3 GFP (E0040), the currently most commonly used GFP in the registry: S30R, Y39N, F64L, G65T, F99S, N105T, Y145F, M153T, V163A, I171V, A206V Its in-vivo properties are considerably improved with respect to mut3 - it develops fluorescence about 3fold faster than mut3 GFP and reaches 4fold higher absolute fluorescence levels. Fluorescenct colonies can be identified with the naked eye even without UV or blue light illumination (that is to say the amount of blue light in normal daylight or lablight is sufficient). Additionally it is more stable in vitro and refolds faster after in vitro denaturation with respect to mut3 GFP. Note: Superfolder GFP is available in constructs driven by the pBAD and T7 promoters: part numbers I746908 and I746909 respectively. Additionally 6-his tagged versions for protein purification exist: I746914 (pBAD driven) and I746915 (T7 driven). false false _116_ 0 2122 9 It's complicated false Codon optimisation before de novo synthesis was carried out for both, E.coli and Bacillus subtilis. false Stefan Milde annotation1977533 1 start range1977533 1 1 3 annotation1977535 1 stop range1977535 1 715 720 annotation1977534 1 superfolder GFP coding region range1977534 1 1 720 BBa_B0034_sequence 1 aaagaggagaaa BBa_K590082_sequence 1 ggctctagcggtggcagctctggt BBa_I746916_sequence 1 atgcgtaaaggcgaagagctgttcactggtgtcgtccctattctggtggaactggatggtgatgtcaacggtcataagttttccgtgcgtggcgagggtgaaggtgacgcaactaatggtaaactgacgctgaagttcatctgtactactggtaaactgccggtaccttggccgactctggtaacgacgctgacttatggtgttcagtgctttgctcgttatccggaccatatgaagcagcatgacttcttcaagtccgccatgccggaaggctatgtgcaggaacgcacgatttcctttaaggatgacggcacgtacaaaacgcgtgcggaagtgaaatttgaaggcgataccctggtaaaccgcattgagctgaaaggcattgactttaaagaagacggcaatatcctgggccataagctggaatacaattttaacagccacaatgtttacatcaccgccgataaacaaaaaaatggcattaaagcgaattttaaaattcgccacaacgtggaggatggcagcgtgcagctggctgatcactaccagcaaaacactccaatcggtgatggtcctgttctgctgccagacaatcactatctgagcacgcaaagcgttctgtctaaagatccgaacgagaaacgcgatcatatggttctgctggagttcgtaaccgcagcgggcatcacgcatggtatggatgaactgtacaaatgatga BBa_K590081_sequence 1 atgccaagcgtgattttcggactgctggcgcttgccctcggattgctgggggtgacggcatggtggtggtcggtgaccgagttcctgcgcggagcggtgccggtggccctgctcatccttggcttggtcgcgttggcctccggggtgcaatccgtgcggttgcctcgttccaacaaggggaccgcttcagaccctgacatcgatggttga BBa_R0011_sequence 1 aattgtgagcggataacaattgacattgtgagcggataacaagatactgagcaca BBa_K590016_sequence 1 aattgtgagcggataacaattgacattgtgagcggataacaagatactgagcacaaaagaggagaaaatgcgtaaaggcgaagagctgttcactggtgtcgtccctattctggtggaactggatggtgatgtcaacggtcataagttttccgtgcgtggcgagggtgaaggtgacgcaactaatggtaaactgacgctgaagttcatctgtactactggtaaactgccggtaccttggccgactctggtaacgacgctgacttatggtgttcagtgctttgctcgttatccggaccatatgaagcagcatgacttcttcaagtccgccatgccggaaggctatgtgcaggaacgcacgatttcctttaaggatgacggcacgtacaaaacgcgtgcggaagtgaaatttgaaggcgataccctggtaaaccgcattgagctgaaaggcattgactttaaagaagacggcaatatcctgggccataagctggaatacaattttaacagccacaatgtttacatcaccgccgataaacaaaaaaatggcattaaagcgaattttaaaattcgccacaacgtggaggatggcagcgtgcagctggctgatcactaccagcaaaacactccaatcggtgatggtcctgttctgctgccagacaatcactatctgagcacgcaaagcgttctgtctaaagatccgaacgagaaacgcgatcatatggttctgctggagttcgtaaccgcagcgggcatcacgcatggtatggatgaactgtacaaatgatgaggctctagcggtggcagctctggtatgccaagcgtgattttcggactgctggcgcttgccctcggattgctgggggtgacggcatggtggtggtcggtgaccgagttcctgcgcggagcggtgccggtggccctgctcatccttggcttggtcgcgttggcctccggggtgcaatccgtgcggttgcctcgttccaacaaggggaccgcttcagaccctgacatcgatggttga 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