Difference between revisions of "Part:BBa J31001:Design"
Line 31: | Line 31: | ||
{| width="800px" | {| width="800px" | ||
|- | |- | ||
− | | colspan="3" | '''Inversion of HixC-flanked DNA in the presence of HinLVA'''<br>HinLVA has been assembled with a pLac promoter and RBS (see <partinfo>BBa_S03536</partinfo>) to create a HinLVA expression casette. We observe inversion of HixC-flanked segments of DNA in the presence of this casette. Figure 2 shows the sizes of predicted NheI restriction fragments for different confirmations of two HixC-flanked DNA segments. | + | | colspan="3" | '''Inversion of HixC-flanked DNA in the presence of HinLVA'''<br>HinLVA has been assembled with a pLac promoter and RBS (see <partinfo>BBa_S03536</partinfo>) to create a HinLVA expression casette. We observe inversion of HixC-flanked segments of DNA in the presence of this casette. Figure 2 shows the sizes of predicted NheI restriction fragments for different confirmations of two HixC-flanked DNA segments. A construct carrying the pBad promoter in the forward orientation (<partinfo>BBa_S03564</partinfo>) yields a 200 bp fragment (Figure 3, lane 2), while the reverse orientation(<partinfo>BBa_S03565</partinfo>) yields a larger 300 bp fragment (Figure 3, lane 3). In the presence of the HinLVA expression casette, the construct carrying pBad in the forward orientation shows restriction fragments for both orientations (Figure 3, lane 4). Similar results are seen for a construct carrying a HixC-flanked RBS-Tet segment (Figure 4). The occurrence of the forward and reverse orientations in roughly equal proportions suggests that inversion has reached a steady state. Inversion occurs without IPTG induction of pLac-Hin. This may be caused by Hin expression via read-through from the vector backbone or leaky transcription from pLac. |
|- | |- | ||
| [[Image:NheI_map.gif|thumb|400px|'''Figure 2.''' Predicted NheI fragments for different conformations of the different HixC-flanked DNA fragments tested.]] | | [[Image:NheI_map.gif|thumb|400px|'''Figure 2.''' Predicted NheI fragments for different conformations of the different HixC-flanked DNA fragments tested.]] |
Revision as of 16:52, 29 October 2006
DNA invertase Hin tagged with LVA
Assembly Compatibility:
- 10COMPATIBLE WITH RFC[10]
- 12COMPATIBLE WITH RFC[12]
- 21COMPATIBLE WITH RFC[21]
- 23COMPATIBLE WITH RFC[23]
- 25COMPATIBLE WITH RFC[25]
- 1000COMPATIBLE WITH RFC[1000]
Hin Invertase
To the left is a 3-D model of the a Hin/ DNA complex crystal structure (Figure 1, Protein Data Bank ID 1ZR4, Li et al. 2005). A Hin protein dimer binds each HixC sequence flanking the fragment of DNA to be inverted. The two dimers (dimer 1 = leftward green and blue protein structures; dimer 2 = rightward yellow and purple protein structures) come together to form a tetrad complex where cleaved DNA ends are swapped and ligated (Richards and Johnson 2004). |
Design Notes
The Biobricks on this part are not wildtype but the cut sites are still viable.
Standard BioBrick Cloning Sites (Knight) | 5'--GAATTC GCGGCCGC T TCTAGA G ----insert---- T ACTAGT A GCGGCCG CTGCAG-- 3'--CTTAAG CGCCGGCG A AGATCT C -------------- A TGATCA T CGCCGGC GACGTC-- |
BBa_J31001 Cloning Sites | 5'--GAATTC GCGGCCGC * TCTAGA * --Hin coding-- * ACTAGT T GCGGCCGCCTGCAG-- 3'--CTTAAG CGCCGGCG * AGATCT * -------------- * TGATCA A CGCCGGCGGACGTC-- Prefix |
Data
Inversion of HixC-flanked DNA in the presence of HinLVA HinLVA has been assembled with a pLac promoter and RBS (see BBa_S03536) to create a HinLVA expression casette. We observe inversion of HixC-flanked segments of DNA in the presence of this casette. Figure 2 shows the sizes of predicted NheI restriction fragments for different confirmations of two HixC-flanked DNA segments. A construct carrying the pBad promoter in the forward orientation (BBa_S03564) yields a 200 bp fragment (Figure 3, lane 2), while the reverse orientation(BBa_S03565) yields a larger 300 bp fragment (Figure 3, lane 3). In the presence of the HinLVA expression casette, the construct carrying pBad in the forward orientation shows restriction fragments for both orientations (Figure 3, lane 4). Similar results are seen for a construct carrying a HixC-flanked RBS-Tet segment (Figure 4). The occurrence of the forward and reverse orientations in roughly equal proportions suggests that inversion has reached a steady state. Inversion occurs without IPTG induction of pLac-Hin. This may be caused by Hin expression via read-through from the vector backbone or leaky transcription from pLac. | ||
Source
Hin invertase (BBa_J31000) from Salmonella typhimurium and the LVA degredation tag (BBa_M0040).
References
- Li, W., Kamtekar, S., Xiong, Y., Sarkis, G.J., Grindley, N.D., Steitz, T.A. (2005) Structure of a synaptic gamma delta resolvase tetramer covalently linked to two cleaved DNAs. Science. 309: 1210-1215
- Sanders, E.R., Johnson, R.C. (2004) Stepwise Dissection of the Hin-catalyzed Recombination Reaction from Synapsis to Resolution. J. Mol. Biol. 340: 753–766.
- Knight, Tom. Idempotent Vector Design for Standard Assembly of Biobricks