SspDnaB(N)BBa_K1362408 Version 1 (Component)SspDnaB N-Intein cloning piece
BBa_K1859012BBa_K1859012 Version 1 (Component)2*GSGSGS linker+ the 5??side of the intron[BBa_K1332003]
BBa_K1859010BBa_K1859010 Version 1 (Component)the 3??side of the intron[BBa_K1332005] +GSGSGS*3 linker
BBa_K1859009BBa_K1859009 Version 1 (Component)the 3??side of the intron[BBa_K1332005] +GGSGGS*3 linker
BBa_K1859014BBa_K1859014 Version 1 (Component)3*GSGSGS linker+ the 5??side of the intron[BBa_K1332003]
BBa_K1859007BBa_K1859007 Version 1 (Component)the 3??side of the intron[BBa_K1332005] +GGSGGS*2 linker
BBa_K1859011BBa_K1859011 Version 1 (Component)2*GGSGGS linker+ the 5??side of the intron[BBa_K1332003]
BBa_K1859008BBa_K1859008 Version 1 (Component)the 3??side of the intron[BBa_K1332005] +GSGSGS*2 linker
BBa_K1859013BBa_K1859013 Version 1 (Component)3*GGSGGS linker+ the 5??side of the intron[BBa_K1332003]
CircNpuBBa_K1362000 Version 1 (Component)NpuDnaE intein RFC[105] circularization construct
BBa_K1903019BBa_K1903019 Version 1 (Component)Intein N SSp DnaB S1
SspDnaB(C)BBa_K1362409 Version 1 (Component)SspDnaB C-Intein cloning piece
1Gate-NpuDBBa_K1362100 Version 1 (Component)RBS + NpuDnaE N-intein RFC[105] assembly construct (with His6)
Intein_assisted_Bisection_MappingIntein_assisted_Bisection_Mapping_collection Version 1 (Collection)Split inteins are powerful tools for seamless ligation of synthetic split proteins. Yet, their use remains limited because the already intricate split site identification problem is often complicated by the requirement of extein junction sequences. To address this, we augmented a mini-Mu transposon-based screening approach and devised the intein-assisted bisection mapping (IBM) method. IBM robustly revealed clusters of split sites on five proteins, converting them into AND or NAND logic gates. We further showed that the use of inteins expands functional sequence space for splitting a protein. We also demonstrated the utility of our approach over rational inference of split sites from secondary structure alignment of homologous proteins. Furthermore, the intein inserted at an identified site could be engineered by the transposon again to become partially chemically inducible, and to some extent enabled post-translational tuning on host protein function. Our work offers a generalizable and systematic route towards creating split protein-intein fusions and conditional inteins for protein activity control.
1GateNpuEBBa_K1362101 Version 1 (Component)RBS+NpuDnaE C-intein RFC[105] assembly construct (with His6)
BBa_K1051974BBa_K1051974 Version 1 (Component)clb6 P + D-box + GFP + MER2 Intron + TOM40 + T
BBa_J32009BBa_J32009 Version 1 (Component)4HT Dependent Intein
TerDnaE3(NBBa_K1362404 Version 1 (Component)TerDnaE3 N-Intein cloning piece
SspGyrB(N)BBa_K1362406 Version 1 (Component)SspGyrB N-Intein cloning piece
SspDnaX(N)BBa_K1362402 Version 1 (Component)SspDnaX N-Intein cloning piece
TerDnaE3(CBBa_K1362405 Version 1 (Component)TerDnaE3 C-Intein cloning piece
SspGyrB(C)BBa_K1362407 Version 1 (Component)SspGyrB C-Intein cloning piece
Gp41-1(N)BBa_K1362412 Version 1 (Component)Gp41-1 N-Intein cloning piece
SspDnaX(C)BBa_K1362403 Version 1 (Component)SspDnaX C-Intein cloning piece
BBa_K382066BBa_K382066 Version 1 (Component)intron hairpin RNAi knockdown of Ger allergen in Basta plant vector
BBa_K382070BBa_K382070 Version 1 (Component)intron hairpin RNAi knockdown of LTP allergen in Basta plant vector
BBa_K382067BBa_K382067 Version 1 (Component)intron hairpin RNAi knockdown of Ger allergen in Kan plant vector
BBa_K382071BBa_K382071 Version 1 (Component)intron hairpin RNAi knockdown of LTP allergen in Kan plant vector
NpuDnaE(C)BBa_K1362479 Version 1 (Component)nonsplicing NpuDnaE C-Intein cloning piece
BBa_K1465230BBa_K1465230 Version 1 (Component)T7-RBS Intein-tag
TerDnaE3(NBBa_K1362130 Version 1 (Component)RBS + TerDnaE3 N-intein RFC[105] assembly construct (with His6)
SspDnaB(N)BBa_K1362140 Version 1 (Component)RBS + SspDnaB N-intein RFC[105] assembly construct (with His6)
SspDnaE(N)BBa_K1362410 Version 1 (Component)SspDnaE N-Intein cloning piece
1NpuE(N*)BBa_K1362102 Version 1 (Component)RBS + NpuDnaE N-intein RFC[105] non-splicing control construct (with His6)
TerDnaE3(CBBa_K1362131 Version 1 (Component)RBS + TerDnaE3 C-intein RFC[105] assembly construct (with His6)
SspDnaB(C)BBa_K1362141 Version 1 (Component)RBS + SspDnaB C-intein RFC[105] assembly construct (with His6)
SspDnaX(N)BBa_K1362110 Version 1 (Component)RBS + SspDnaX N-intein RFC[105] assembly construct (with His6)
SspGyrB(N)BBa_K1362120 Version 1 (Component)RBS + SspGyrB N-intein RFC[105] assembly construct (with His6)
SspGyrB(C)BBa_K1362121 Version 1 (Component)RBS + SspGyrB C-intein RFC[105] assembly construct (with His6)
SspDnaE(C)BBa_K1362411 Version 1 (Component)SspDnaE C-Intein cloning piece
BBa_J48103BBa_J48103 Version 1 (Component)Iron promoter
1NpuE(C*)BBa_K1362103 Version 1 (Component)RBS + NpuDnaE C-intein RFC[105] non-slicing control construct (with His6)
BBa_K1362111BBa_K1362111 Version 1 (Component)RBS + SspDnaX C-intein RFC[105] assembly construct (with His6)
Gp41-1(C)BBa_K1362413 Version 1 (Component)Gp41-1 C-Intein cloning piece
BBa_K1332005BBa_K1332005 Version 1 (Component)The 3' side of the intron(+exon fragment) from td gene of T4 phage
BBa_K1491025BBa_K1491025 Version 1 (Component)T7 RNA Polymerase with ER Intein
BBa_K1916011BBa_K1916011 Version 1 (Component)CBCR2 + intein-CBD tag
BBa_K1916022BBa_K1916022 Version 1 (Component)CBCR11 + intein-CBD tag
BBa_K1916005BBa_K1916005 Version 1 (Component)Ga0100955_11928g3 + intein-CBD tag
BBa_K1916008BBa_K1916008 Version 1 (Component)Osc7112_5903g3 + intein-CBD tag