BBa_B0010
1
BBa_B0010
T1 from E. coli rrnB
2003-11-19T12:00:00Z
2015-08-31T04:07:20Z
Transcriptional terminator consisting of a 64 bp stem-loop.
false
false
_1_
0
24
7
In stock
false
true
Randy Rettberg
annotation4184
1
stem_loop
range4184
1
12
55
annotation7018
1
BBa_B0010
range7018
1
1
80
BBa_B0015
1
BBa_B0015
double terminator (B0010-B0012)
2003-07-16T11:00:00Z
2015-08-31T04:07:20Z
Released HQ 2013
Double terminator consisting of BBa_B0010 and BBa_B0012
false
true
_1_
0
24
7
In stock
false
true
Reshma Shetty
component1916612
1
BBa_B0012
component1916610
1
BBa_B0010
annotation1916610
1
BBa_B0010
range1916610
1
1
80
annotation1916612
1
BBa_B0012
range1916612
1
89
129
BBa_K568001
1
BBa_K568001
Optogenetical AND-Gate red/blue light
2011-08-31T11:00:00Z
2015-05-08T01:12:43Z
designed from existing Biobricks
Released HQ 2013
This logical gate is based on amber stop-codon suppression via the non-canonical tRNA supD. The blue light sensor induces the expression of a mRNA coding for a T7-polymerase with an amber mutation, that can only be translated by ribosomes if the correct supD tRNA is present. The supD tRNA is expressed when the red light sensor is induced. Thus, only cells which receive both signals produce the desired substances.
false
false
_736_
0
9896
9
In stock
false
We used YcgF/E as blue light sensor and Cph8 as red light sensor. We expect that this assembly will be the one with the lowest amount of unspecific gene expression which could occur due to overlapping of the absorption spectrums of the sensory domains.
false
Team TU Munich 2011
component2125721
1
BBa_K322124
component2125727
1
BBa_R0082
component2125742
1
BBa_K238013
component2125718
1
BBa_K322123
component2125728
1
BBa_K228001
component2125735
1
BBa_B0015
component2125746
1
BBa_K228000
component2125744
1
BBa_J44001
annotation2125746
1
BBa_K228000
range2125746
1
4181
6853
annotation2125728
1
BBa_K228001
range2125728
1
3785
3920
annotation2125718
1
BBa_K322123
range2125718
1
1
1399
annotation2125721
1
BBa_K322124
range2125721
1
1408
3660
annotation2125744
1
BBa_J44001
range2125744
1
4160
4174
annotation2125742
1
BBa_K238013
range2125742
1
4066
4151
annotation2125727
1
BBa_R0082
range2125727
1
3669
3776
annotation2125735
1
BBa_B0015
range2125735
1
3929
4057
BBa_J44001
1
BBa_J44001
Reverse RBS (RBS<sub>rev</sub>) -- corresponds to BBa_B0030
2006-08-01T11:00:00Z
2015-08-31T04:08:48Z
Cloned from synthetic oligos
Released HQ 2013
Reverse version of RBS BBa_B0030
false
false
_61_71_
0
606
61
In stock
true
Repeats in oligos caused unusual products during cloning
true
Todd Eckdahl
annotation1893199
1
Reverse RBS
range1893199
1
1
15
BBa_K238013
1
BLp
Exact promoter of the blue light receptor
2009-08-01T11:00:00Z
2015-05-08T01:11:36Z
E.coli strain MC4100
ycgF/E regulated promoter region ycgf is a cytoplasmic receptor which responds to blue light. it contains a Blue light Using FAD-Domain (BLUF) and an EAL domain. when blue light strikes, the receptor changes conformation and dimerizes. This allows it to bind to ycgE repressor through its EAL-domain releasing the repressor from this promoter region. See reference for more info: Natalia Tschowri, Susan Busse and Regine Hengge, The BLUF-EAL protein YcgF acts as a direct anti-repressor in a blue-light response of Escherichia coli. Genes and development23: 522-534 (2009)
false
false
_332_
0
4771
9
It's complicated
true
none
false
Annelien Verfaillie
annotation2014612
1
inverted repeat part 1
range2014612
1
53
59
annotation2014609
1
-35 box
range2014609
1
28
33
annotation2014614
1
transcription start
range2014614
1
64
65
annotation2014610
1
-10 box
range2014610
1
52
58
annotation2014611
1
spacer
range2014611
1
34
51
annotation2014613
1
inverted repeat part 2
range2014613
1
67
73
BBa_K322123
1
BBa_K322123
Phycobilin synthesis operon without terminator
2010-09-24T11:00:00Z
2015-05-08T01:11:59Z
This is derived from K098010 but PCR was used to remove the terminator, so that cph8 could be added at the end of the operon.
Phycobilin is chromophores (light-capturing molecules) found in cyanobacteria and in the chloroplasts of red algae, glaucophytes and some cryptomonads (though not in green algae and higher plants), used in light sensor.
false
false
_441_
0
6225
9
It's complicated
true
The actual forward sequence has the same changes at the start as seen in clone H11 described above. The reverse sequence is as expected. Features same as for the one above apart from the terminator.
false
Chris French and Richard Edward Partridge-Hicks
annotation2083044
1
B0032
range2083044
1
43
54
annotation2083046
1
rbs
range2083046
1
630
644
annotation2083043
1
J23110
range2083043
1
1
35
annotation2083047
1
pcyA
range2083047
1
650
1396
annotation2083045
1
Heme oxygenase
range2083045
1
63
629
BBa_R0082
1
OmpR
Promoter (OmpR, positive)
2004-01-27T12:00:00Z
2015-05-08T01:14:15Z
NC_000193 E. coli K12
Released HQ 2013
Positively regulated, OmpR-controlled promoter. This promoter is taken from the upstream region of ompC. Phosphorylated OmpR binds to the three operator sites and activates transcription.
false
false
_1_
0
24
7
In stock
false
The promoter includes the three OmpR binding sites: C1, C2, and C3. The promoter starts at -107 and goes up to the transcriptional start site at +1.
An alternate version, BBa_R0083, cuts out the C2 and C3 sites.
The efficacy of this promoter versus the truncated ompC upstream region (BBa_R0083) or the ompF upstream region (BBa_R0084) is currently unknown.
true
Stephen Lee, Roshan Kumar, Joe Levine, Ziyan Chu (Polkadorks, IAP 2004)
annotation301154
1
C1 OmpR
range301154
1
13
30
annotation301155
1
C2 OmpR
range301155
1
34
51
annotation301156
1
C3 OmpR
range301156
1
54
71
annotation301167
1
-10
range301167
1
98
103
annotation301166
1
-35
range301166
1
75
80
BBa_K322124
1
BBa_K322124
Red light sensor Cph8 (from Coliroid) with RBS
2010-09-24T11:00:00Z
2015-05-08T01:11:59Z
BBa_I15010 (Photosensing Chimaera (Cph8) (not working, but amplified out of the whole construct))
Cph8 is a combination of cph1 and envZ which, together with PCB, form a transmembrane, histidine kinase-based light sensing system. It contains the photoreceptor from Cph1 and the histidine kinase and response-regulator from EnvZ???OmpR, producing a particularly strongresponse to light.
Features: cph8 coding sequence 16 to 2250, RBS 6 to 10.
false
false
_441_
0
6225
9
It's complicated
true
Notes: we were unable to revive BioBrick I15010 with the coding sequence of the cph8 red light sensor fusion protein, so we sought to amplify it from BioBrick BBa_M30109. This led to numerous problems. It is clear from the Registry sequence data that M30109 is not what it is supposed to be. It does include cph8 with a ribosome binding site, but the RBS is not joined to cph8 by a standard scar; promoter R0040 may be present, but there appears to be an EcoRI site a little upstream of the ribosome binding site so that, when we cloned our PCR product, we failed to recover the promoter region; also the PstI site in cph8, which was mutated out in I15010, is still present in the version in M30109. We therefore performed corrective PCR to obtain a clone with the correct prefix, a ribosome binding site, and the cph8 coding sequence with the PstI site properly removed, which we present here, cloned in pSB1C3.
false
Chris French and Richard Edward Partridge-Hicks
annotation2083481
1
RBS
range2083481
1
6
10
annotation2083482
1
Cph8
range2083482
1
16
2250
BBa_K228001
1
BBa_K228001
SupD-tRNA
2009-08-24T11:00:00Z
2015-05-08T01:11:32Z
SupD-tRNA again is from Voigt Lab(UCSF), We standardlize this part by PCR strategy.
Released HQ 2013
The SupD-tRNA part functions as a tRNA, it suppresses the TAG amber stop codon and translate it into a Ser. There is no need to assembly SupD-tRNA with a rbs, since it is not translated.
This part, together with the T7ptag part, make an AND Gate, that is, in the presence of both the 2 parts, T7 polymerase is tranlated into a functional polymerase that transcrips a downstream element constructed after a T7 promoter. Which is the output of the AND Gate.
false
false
_353_
0
4253
9
In stock
true
There is a PstI site in the original sequence, but luckily it is near the 3' end of this part, so we designed a mutation in our primer and mutated the PstI site.
false
Lin Min
BBa_B0012
1
BBa_B0012
TE from coliphageT7
2003-01-31T12:00:00Z
2015-08-31T04:07:20Z
Derived from the TE terminator of T7 bacteriophage between Genes 1.3 and 1.4 <genbank>V01146</genbank>.
Released HQ 2013
Transcription terminator for the <i>E.coli</i> RNA polymerase.
false
false
_1_
0
24
7
In stock
false
<P> <P>Suggested by Sri Kosuri and Drew Endy as a high efficiency terminator. The 5' end cutoff was placed immediately after the TAA stop codon and the 3' end cutoff was placed just prior to the RBS of Gene 1.4 (before AAGGAG).<P> Use anywhere transcription should be stopped when the gene of interest is upstream of this terminator.
false
Reshma Shetty
annotation1687
1
stop
range1687
1
34
34
annotation1690
1
polya
range1690
1
28
41
annotation1686
1
T7 TE
range1686
1
8
27
annotation7020
1
BBa_B0012
range7020
1
1
41
BBa_K228000
1
BBa_K228000
T7ptag(T7polymerase with amber mutation)
2009-08-24T11:00:00Z
2015-05-08T01:11:32Z
The T7ptag is standardlized from the plasmid kindly provided by Voigt Lab.
T7ptag is a coding sequence of T7 polymerase with 2 Amber mutations. The transcription of T7ptag gene can only lead to the generation of its mRNA, further translation into T7 RNA polymerase is blocked because of the amber mutation. Only in the presence of the Amber mutation suppressor [[BBa_K228001]] SupD-tRNA, it can be translated into functional T7 polymerase.
T7ptag is a component of the AND Gate constructed by the Voigt Lab(UCSF)
false
false
_353_
0
4253
9
It's complicated
true
false
Lin Min
annotation2017714
1
cds
range2017714
1
1
2673
BBa_B0010_sequence
1
ccaggcatcaaataaaacgaaaggctcagtcgaaagactgggcctttcgttttatctgttgtttgtcggtgaacgctctc
BBa_K322123_sequence
1
tttacggctagctcagtcctaggtattatgctagctactagagtcacacaggaaaggtgcacatggaagaggaaatggcaaaatttaaggaccatcccatcctcagccacatttacttccccgaactcaaccgcaaacaaagcctagagcaagacctgcaattctattacggctccaactggcggcaagaagtgaaaatttctgccgctggccaagcctatgtggaccgagtccggcaagtggccgctacggcccctgaattgttggtggcccattcctacacccgttacctgggggatctttccggcggtcaaattctcaagaaaattgcccaaaatgccatgaatctccacgatggtggcacagctttctatgaatttgccgacattgatgacgaaaaggcttttaaaaatacctaccgtcaagctatgaatgatctgcccattgaccaagccaccgccgaacggattgtggatgaagccaatgacgcctttgccatgaacatgaaaatgttcaacgaacttgaaggcaacctgatcaaggcgatcggcattatggtgttcaacagcctcacccgtcgccgcagtcaaggcagcaccgaagttggcctcgccacctccgaaggctagttaaagaggagaaaggatccatggccgtcactgatttaagtttgaccaattcttccctgatgcctacgttgaacccgatgattcaacagttggccctggcgatcgccgctagttggcaaagtttacccctcaagccctatcaattgccggaggatttgggctacgtagaaggccgcctggaaggggaaaagttagtgattgaaaatcggtgctaccaaacgccccagtttcgcaaaatgcatttggagttggccaaggtgggcaaagggttggatattctccactgtgtaatgtttcctgagcctttatacggtctacctttgtttggctgtgacattgtggccggccccggtggagtaagtgcggctattgcggatctatcccccacccaaagcgatcgccaattgcccgcagcgtaccaaaaatcattggcagagctaggccagccagaatttgagcaacaacgggaattgcccccctggggagaaatattttctgaatattgtttattcatccgtcccagcaatgtcactgaagaagaaagatttgtacaaagggtagtggactttttgcaaattcattgtcaccaatccatcgttgccgaacccttgtctgaagctcaaactttggagcaccgtcaggggcaaattcattactgccaacaacaacagaaaaatgataaaacccgtcgggtactggaaaaagcttttggggaagcttgggcggaacggtatatgagccaagtcttatttgatgttatccaataataa
BBa_K228000_sequence
1
atgaccatgattaccgtgcactagaataccattaacattgctaagaacgacttctctgacatcgaactggctgctatcccgttcaacactctggctgaccattacggtgagcgtttagctcgcgaacagttggcccttgagcatgagtcttacgagatgggtgaagcacgcttccgcaagatgtttgagcgtcaacttaaagctggtgaggttgcggataacgctgccgccaagcctctcatcactaccctactccctaagatgattgcacgcatcaacgactggtttgaggaagtgaaagctaagcgcggcaagcgcccgacagccttccagttcctgtaggaaatcaagccggaagccgtagcgtacatcaccattaagaccactctggcttgcctaaccagtgctgacaatacaaccgttcaggctgtagcaagcgcaatcggtcgggccattgaggacgaggctcgcttcggtcgtatccgtgaccttgaagctaagcacttcaagaaaaacgttgaggaacaactcaacaagcgcgtagggcacgtctacaagaaagcatttatgcaagttgtcgaggctgacatgctctctaagggtctactcggtggcgaggcgtggtcttcgtggcataaggaagactctattcatgtaggagtacgctgcatcgagatgctcattgagtcaaccggaatggttagcttacaccgccaaaatgctggcgtagtaggtcaagactctgagactatcgaactcgcacctgaatacgctgaggctatcgcaacccgtgcaggtgcgctggctggcatctctccgatgttccaaccttgcgtagttcctcctaagccgtggactggcattactggtggtggctattgggctaacggtcgtcgtcctctggcgctggtgcgtactcacagtaagaaagcactgatgcgctacgaagacgtttacatgcctgaggtgtacaaagcgattaacattgcgcaaaacaccgcatggaaaatcaacaagaaagtcctagcggtcgccaacgtaatcaccaagtggaagcattgtccggtcgaggacatccctgcgattgagcgtgaagaactcccgatgaaaccggaagacatcgacatgaatcctgaggctctcaccgcgtggaaacgtgctgccgctgctgtgtaccgcaaggacaaggctcgcaagtctcgccgtatcagccttgagttcatgcttgagcaagccaataagtttgctaaccataaggccatctggttcccttacaacatggactggcgcggtcgtgtttacgctgtgtcaatgttcaacccgcaaggtaacgatatgaccaaaggactgcttacgctggcgaaaggtaaaccaatcggtaaggaaggttactactggctgaaaatccacggtgcaaactgtgcgggtgtcgataaggttccgttccctgagcgcatcaagttcattgaggaaaaccacgagaacatcatggcttgcgctaagtctccactggagaacacttggtgggctgagcaagattctccgttctgcttccttgcgttctgctttgagtacgctggggtacagcaccacggcctgagctataactgctcccttccgctggcgtttgacgggtcttgctctggcatccagcacttctccgcgatgctccgagatgaggtaggtggtcgcgcggttaacttgcttcctagtgaaaccgttcaggacatctacgggattgttgctaagaaagtcaacgagattctacaagcagacgcaatcaatgggaccgataacgaagtagttaccgtgaccgatgagaacactggtgaaatctctgagaaagtcaagctgggcactaaggcactggctggtcaatggctggcttacggtgttactcgcagtgtgactaagcgttcagtcatgacgctggcttacgggtccaaagagttcggcttccgtcaacaagtgctggaagataccattcagccagctattgattccggcaagggtctgatgttcactcagccgaatcaggctgctggatacatggctaagctgatttgggaatctgtgagcgtgacggtggtagctgcggttgaagcaatgaactggcttaagtctgctgctaagctgctggctgctgaggtcaaagataagaagactggagagattcttcgcaagcgttgcgctgtgcattgggtaactcctgatggtttccctgtgtggcaggaatacaagaagcctattcagacgcgcttgaacctgatgttcctcggtcagttccgcttacagcctaccattaacaccaacaaagatagcgagattgatgcacacaaacaggagtctggtatcgctcctaactttgtacacagccaagacggtagccaccttcgtaagactgtagtgtgggcacacgagaagtacggaatcgaatcttttgcactgattcacgactccttcggtaccattccggctgacgctgcgaacctgttcaaagcagtgcgcgaaactatggttgacacatatgagtcttgtgatgtactggctgatttctacgaccagttcgctgaccagttgcacgagtctcaattggacaaaatgccagcacttccggctaaaggtaacttgaacctccgtgacatcttagagtcggacttcgcgttcgcataa
BBa_R0082_sequence
1
tcccttgcatttacattttgaaacatctatagcgataaatgaaacatcttaaaagttttagtatcatattcgtgttggattattctgcatttttggggagaatggact
BBa_K568001_sequence
1
tttacggctagctcagtcctaggtattatgctagctactagagtcacacaggaaaggtgcacatggaagaggaaatggcaaaatttaaggaccatcccatcctcagccacatttacttccccgaactcaaccgcaaacaaagcctagagcaagacctgcaattctattacggctccaactggcggcaagaagtgaaaatttctgccgctggccaagcctatgtggaccgagtccggcaagtggccgctacggcccctgaattgttggtggcccattcctacacccgttacctgggggatctttccggcggtcaaattctcaagaaaattgcccaaaatgccatgaatctccacgatggtggcacagctttctatgaatttgccgacattgatgacgaaaaggcttttaaaaatacctaccgtcaagctatgaatgatctgcccattgaccaagccaccgccgaacggattgtggatgaagccaatgacgcctttgccatgaacatgaaaatgttcaacgaacttgaaggcaacctgatcaaggcgatcggcattatggtgttcaacagcctcacccgtcgccgcagtcaaggcagcaccgaagttggcctcgccacctccgaaggctagttaaagaggagaaaggatccatggccgtcactgatttaagtttgaccaattcttccctgatgcctacgttgaacccgatgattcaacagttggccctggcgatcgccgctagttggcaaagtttacccctcaagccctatcaattgccggaggatttgggctacgtagaaggccgcctggaaggggaaaagttagtgattgaaaatcggtgctaccaaacgccccagtttcgcaaaatgcatttggagttggccaaggtgggcaaagggttggatattctccactgtgtaatgtttcctgagcctttatacggtctacctttgtttggctgtgacattgtggccggccccggtggagtaagtgcggctattgcggatctatcccccacccaaagcgatcgccaattgcccgcagcgtaccaaaaatcattggcagagctaggccagccagaatttgagcaacaacgggaattgcccccctggggagaaatattttctgaatattgtttattcatccgtcccagcaatgtcactgaagaagaaagatttgtacaaagggtagtggactttttgcaaattcattgtcaccaatccatcgttgccgaacccttgtctgaagctcaaactttggagcaccgtcaggggcaaattcattactgccaacaacaacagaaaaatgataaaacccgtcgggtactggaaaaagcttttggggaagcttgggcggaacggtatatgagccaagtcttatttgatgttatccaataataatactagagaggagaaaggtacccatggccaccaccgtacaactcagcgaccaatccctccgtcagctagaaaccctcgccatccacaccgcccacctgattcagccccacggtttagtggtggtcctgcaagaaccagacctcaccatcagccaaattagcgccaactgcaccggcattttagggcgatcgccagaggatttgttgggcagaaccctaggggaagtgtttgatagctttcagattgatcccatccagagtcgcctaacggccggacaaatcagcagcctcaaccccagtaaactttgggcgcgggtcatgggggacgactttgtcatttttgacggggtttttcatcgcaacagtgacggtttattggtatgtgaactcgagccagcctacacttccgataatctgcccttcctcggtttttatcacatggccaacgctgccctgaatcggttgcgccaacaagctaatctacgggatttctacgatgttattgtcgaagaagtccgccgtatgactggctttgaccgggtgatgctataccgctttgatgaaaataaccacggtgatgtcattgccgaagataaacgggatgatatggaaccctatttgggcctgcactatcccgaatcggatattccccaacccgcccgtcggctatttatccacaaccccattcgagtaattcccgatgtttatggtgtggcggtgcccctgaccccagcggttaaccccagcaccaaccgagcggtggatttaacagaatccattctgcgcagtgcgtaccattgccacttgacctatctgaaaaatatgggggtaggagcgtctttaaccatttccctaattaaggacggccatctctgggggctcattgcctgccaccatcaaacccccaaagtaattccctttgaactgcgtaaagcctgcgaattttttggtcgggtggtgtttagcaacatttccgcccaggaagatacggaaaccttcgattaccgggtgcagctggcggagcatgaagcggttttattggacaaaatgaccacggcggcggattttgtcgaaggattaactaatcatcccgatcgcctgttgggattaacgggctcccagggggcggccatttgctttggggaaaaattgattttagtaggggaaaccccggacgagaaagcagtgcaatatttactgcaatggttggagaatcgggaagtgcaagacgttttcttcacctcttccctctcacaaatttatcctgatgcagtgaattttaaatccgtggccagtggcttattggccattcccattgcccgtcacaactttttgctctggtttcgccctgaagtgttgcaaacggttaattggggcggtgacccaaatcatgcttacgaagctacccaggaagacggtaaaatcgagctccatccccgccaatcctttgacctctggaaagaaattgtccgactccaatctttgccctggcaatcggtggaaatccaaagtgccctggccctgaaaaaggcgatcgtcaacctcattttgcgccaggcagaagaattgcatatggcggctggtgttaagcaactggcggatgaccgcacgctgctgatggcgggggtaagtcacgacttgcgcacgccgctgacgcgtattcgcctggcgactgagatgatgagcgagcaggatggctatctggcagaatcgatcaataaagatatcgaagagtgcaacgccatcattgagcagtttatcgactacctgcgcaccgggcaggagatgccgatggaaatggcggatcttaatgcagtactcggtgaggtgattgctgccgaaagtggctatgagcgggaaattgaaaccgcgctttaccccggcagcattgaagtgaaaatgcacccgctgtcgatcaaacgcgcggtggcgaatatggtggtcaacgccgcccgttatggcaatggctgggtcaaagtcagcagcggaacggagccgaatcgcgcctggttccaggtggaagatgacggtccgggaattgcgccggaacaacgtaagcacctgttccagccgtttgtccgcggcgacagtgcgcgcaccattagcggcacgggattagggctggcaattgtgcagcgtatcgtggataaccataacgggatgctggagcttggcaccagcgagcggggcgggctttccattcgcgcctggctgccagtgccggtaacgcgggcgcagggcatgacaaaagaagggtaataatactagagtcccttgcatttacattttgaaacatctatagcgataaatgaaacatcttaaaagttttagtatcatattcgtgttggattattctgcatttttggggagaatggacttactagagcaattcggagagatgccggagcggctgaacggaccggtctctaaaaccggagtaggggcaactctaccgggggttcaaatccccctctctccgccactacagatccttagcgaaagctaaggattttttttaagcttactagagccaggcatcaaataaaacgaaaggctcagtcgaaagactgggcctttcgttttatctgttgtttgtcggtgaacgctctctactagagtcacactggctcaccttcgggtgggcctttctgcgtttatatactagagattgcaaaaaattaatttatcattctgtacacatatttcgtacaagtttgctattgttacttcacttaacattgattaacattttttactagagtttctcctctttaattactagatgaccatgattaccgtgcactagaataccattaacattgctaagaacgacttctctgacatcgaactggctgctatcccgttcaacactctggctgaccattacggtgagcgtttagctcgcgaacagttggcccttgagcatgagtcttacgagatgggtgaagcacgcttccgcaagatgtttgagcgtcaacttaaagctggtgaggttgcggataacgctgccgccaagcctctcatcactaccctactccctaagatgattgcacgcatcaacgactggtttgaggaagtgaaagctaagcgcggcaagcgcccgacagccttccagttcctgtaggaaatcaagccggaagccgtagcgtacatcaccattaagaccactctggcttgcctaaccagtgctgacaatacaaccgttcaggctgtagcaagcgcaatcggtcgggccattgaggacgaggctcgcttcggtcgtatccgtgaccttgaagctaagcacttcaagaaaaacgttgaggaacaactcaacaagcgcgtagggcacgtctacaagaaagcatttatgcaagttgtcgaggctgacatgctctctaagggtctactcggtggcgaggcgtggtcttcgtggcataaggaagactctattcatgtaggagtacgctgcatcgagatgctcattgagtcaaccggaatggttagcttacaccgccaaaatgctggcgtagtaggtcaagactctgagactatcgaactcgcacctgaatacgctgaggctatcgcaacccgtgcaggtgcgctggctggcatctctccgatgttccaaccttgcgtagttcctcctaagccgtggactggcattactggtggtggctattgggctaacggtcgtcgtcctctggcgctggtgcgtactcacagtaagaaagcactgatgcgctacgaagacgtttacatgcctgaggtgtacaaagcgattaacattgcgcaaaacaccgcatggaaaatcaacaagaaagtcctagcggtcgccaacgtaatcaccaagtggaagcattgtccggtcgaggacatccctgcgattgagcgtgaagaactcccgatgaaaccggaagacatcgacatgaatcctgaggctctcaccgcgtggaaacgtgctgccgctgctgtgtaccgcaaggacaaggctcgcaagtctcgccgtatcagccttgagttcatgcttgagcaagccaataagtttgctaaccataaggccatctggttcccttacaacatggactggcgcggtcgtgtttacgctgtgtcaatgttcaacccgcaaggtaacgatatgaccaaaggactgcttacgctggcgaaaggtaaaccaatcggtaaggaaggttactactggctgaaaatccacggtgcaaactgtgcgggtgtcgataaggttccgttccctgagcgcatcaagttcattgaggaaaaccacgagaacatcatggcttgcgctaagtctccactggagaacacttggtgggctgagcaagattctccgttctgcttccttgcgttctgctttgagtacgctggggtacagcaccacggcctgagctataactgctcccttccgctggcgtttgacgggtcttgctctggcatccagcacttctccgcgatgctccgagatgaggtaggtggtcgcgcggttaacttgcttcctagtgaaaccgttcaggacatctacgggattgttgctaagaaagtcaacgagattctacaagcagacgcaatcaatgggaccgataacgaagtagttaccgtgaccgatgagaacactggtgaaatctctgagaaagtcaagctgggcactaaggcactggctggtcaatggctggcttacggtgttactcgcagtgtgactaagcgttcagtcatgacgctggcttacgggtccaaagagttcggcttccgtcaacaagtgctggaagataccattcagccagctattgattccggcaagggtctgatgttcactcagccgaatcaggctgctggatacatggctaagctgatttgggaatctgtgagcgtgacggtggtagctgcggttgaagcaatgaactggcttaagtctgctgctaagctgctggctgctgaggtcaaagataagaagactggagagattcttcgcaagcgttgcgctgtgcattgggtaactcctgatggtttccctgtgtggcaggaatacaagaagcctattcagacgcgcttgaacctgatgttcctcggtcagttccgcttacagcctaccattaacaccaacaaagatagcgagattgatgcacacaaacaggagtctggtatcgctcctaactttgtacacagccaagacggtagccaccttcgtaagactgtagtgtgggcacacgagaagtacggaatcgaatcttttgcactgattcacgactccttcggtaccattccggctgacgctgcgaacctgttcaaagcagtgcgcgaaactatggttgacacatatgagtcttgtgatgtactggctgatttctacgaccagttcgctgaccagttgcacgagtctcaattggacaaaatgccagcacttccggctaaaggtaacttgaacctccgtgacatcttagagtcggacttcgcgttcgcataa
BBa_J44001_sequence
1
tttctcctctttaat
BBa_K238013_sequence
1
attgcaaaaaattaatttatcattctgtacacatatttcgtacaagtttgctattgttacttcacttaacattgattaacattttt
BBa_K228001_sequence
1
caattcggagagatgccggagcggctgaacggaccggtctctaaaaccggagtaggggcaactctaccgggggttcaaatccccctctctccgccactacagatccttagcgaaagctaaggattttttttaagct
BBa_K322124_sequence
1
aggagaaaggtacccatggccaccaccgtacaactcagcgaccaatccctccgtcagctagaaaccctcgccatccacaccgcccacctgattcagccccacggtttagtggtggtcctgcaagaaccagacctcaccatcagccaaattagcgccaactgcaccggcattttagggcgatcgccagaggatttgttgggcagaaccctaggggaagtgtttgatagctttcagattgatcccatccagagtcgcctaacggccggacaaatcagcagcctcaaccccagtaaactttgggcgcgggtcatgggggacgactttgtcatttttgacggggtttttcatcgcaacagtgacggtttattggtatgtgaactcgagccagcctacacttccgataatctgcccttcctcggtttttatcacatggccaacgctgccctgaatcggttgcgccaacaagctaatctacgggatttctacgatgttattgtcgaagaagtccgccgtatgactggctttgaccgggtgatgctataccgctttgatgaaaataaccacggtgatgtcattgccgaagataaacgggatgatatggaaccctatttgggcctgcactatcccgaatcggatattccccaacccgcccgtcggctatttatccacaaccccattcgagtaattcccgatgtttatggtgtggcggtgcccctgaccccagcggttaaccccagcaccaaccgagcggtggatttaacagaatccattctgcgcagtgcgtaccattgccacttgacctatctgaaaaatatgggggtaggagcgtctttaaccatttccctaattaaggacggccatctctgggggctcattgcctgccaccatcaaacccccaaagtaattccctttgaactgcgtaaagcctgcgaattttttggtcgggtggtgtttagcaacatttccgcccaggaagatacggaaaccttcgattaccgggtgcagctggcggagcatgaagcggttttattggacaaaatgaccacggcggcggattttgtcgaaggattaactaatcatcccgatcgcctgttgggattaacgggctcccagggggcggccatttgctttggggaaaaattgattttagtaggggaaaccccggacgagaaagcagtgcaatatttactgcaatggttggagaatcgggaagtgcaagacgttttcttcacctcttccctctcacaaatttatcctgatgcagtgaattttaaatccgtggccagtggcttattggccattcccattgcccgtcacaactttttgctctggtttcgccctgaagtgttgcaaacggttaattggggcggtgacccaaatcatgcttacgaagctacccaggaagacggtaaaatcgagctccatccccgccaatcctttgacctctggaaagaaattgtccgactccaatctttgccctggcaatcggtggaaatccaaagtgccctggccctgaaaaaggcgatcgtcaacctcattttgcgccaggcagaagaattgcatatggcggctggtgttaagcaactggcggatgaccgcacgctgctgatggcgggggtaagtcacgacttgcgcacgccgctgacgcgtattcgcctggcgactgagatgatgagcgagcaggatggctatctggcagaatcgatcaataaagatatcgaagagtgcaacgccatcattgagcagtttatcgactacctgcgcaccgggcaggagatgccgatggaaatggcggatcttaatgcagtactcggtgaggtgattgctgccgaaagtggctatgagcgggaaattgaaaccgcgctttaccccggcagcattgaagtgaaaatgcacccgctgtcgatcaaacgcgcggtggcgaatatggtggtcaacgccgcccgttatggcaatggctgggtcaaagtcagcagcggaacggagccgaatcgcgcctggttccaggtggaagatgacggtccgggaattgcgccggaacaacgtaagcacctgttccagccgtttgtccgcggcgacagtgcgcgcaccattagcggcacgggattagggctggcaattgtgcagcgtatcgtggataaccataacgggatgctggagcttggcaccagcgagcggggcgggctttccattcgcgcctggctgccagtgccggtaacgcgggcgcagggcatgacaaaagaagggtaataa
BBa_B0012_sequence
1
tcacactggctcaccttcgggtgggcctttctgcgtttata
BBa_B0015_sequence
1
ccaggcatcaaataaaacgaaaggctcagtcgaaagactgggcctttcgttttatctgttgtttgtcggtgaacgctctctactagagtcacactggctcaccttcgggtgggcctttctgcgtttata
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