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'''To get the highest level of translation from this Promoter-RBS combination it must be connected to a coding region preceded by a coding region prefix<cite>1</cite>. A standard prefix will increase the distance between the RBS and the start codon, reducing translational efficiency.''' | '''To get the highest level of translation from this Promoter-RBS combination it must be connected to a coding region preceded by a coding region prefix<cite>1</cite>. A standard prefix will increase the distance between the RBS and the start codon, reducing translational efficiency.''' | ||
Design: The sequence of Pveg was obtained from the DBTBS<cite>1<cite> and RBS-gsiB were obtained from papers<cite>2</cite> and the sequence synthesised by GeneArt | Design: The sequence of Pveg was obtained from the DBTBS<cite>1</cite> and RBS-gsiB were obtained from papers<cite>2</cite> and the sequence synthesised by GeneArt | ||
Source: Pveg-gsiB was synthesised by GeneArt | Source: Pveg-gsiB was synthesised by GeneArt | ||
Revision as of 06:55, 2 October 2008
Composite Parts
Seen as how the wiki may soon cause errors due to the size of the previous page (and the affect it was having on us), here is the new parts page, specifically for composite parts...
We'll start looking at these soon and I'll get back to people after the weekend
Expression Related
P43-gsiB
Name: Promoter 43 and RBS gsiB for B. subtilis
Code: K143050
Long: Constitutive promoter 43(<bbpart>BBa_K143013</bbpart>) coupled to the strong Ribosome Binding Site gsiB(<bbpart>BBa_K143020</bbpart>) from B. subtilis.
P43-gsiB can be used in the context of a Polymerases per second (PoPS) output generator
To get the highest level of translation from this Promoter-RBS combination it must be connected to a coding region preceded by a coding region prefix[1]. A standard prefix will increase the distance between the RBS and the start codon, reducing translational efficiency.
Design: The sequence of P43 and RBS-gsiB were obtained from papers[1, 2] and the sequence synthesised by GeneArt
Source: P43-gsiB was synthesised by GeneArt
References
- Zhang XZ, Cui ZL, Hong Q, and Li SP. High-level expression and secretion of methyl parathion hydrolase in Bacillus subtilis WB800. Appl Environ Microbiol. 2005 Jul;71(7):4101-3. DOI:10.1128/AEM.71.7.4101-4103.2005 |
- Jürgen B, Schweder T, and Hecker M. The stability of mRNA from the gsiB gene of Bacillus subtilis is dependent on the presence of a strong ribosome binding site. Mol Gen Genet. 1998 Jun;258(5):538-45. DOI:10.1007/s004380050765 |
P43-spoVG
Name: Promoter 43 and RBS spoVG for B. subtilis
Code: K143051
Long: Constitutive promoter 43(<bbpart>BBa_K143013</bbpart>) coupled to the strong Ribosome Binding Site spoVG(<bbpart>BBa_K143021</bbpart>) from B. subtilis.
P43-spoVG can be used in the context of a Polymerases per seconds (PoPS) output generator
To get the highest level of translation from this Promoter-RBS combination it must be connected to a coding region preceded by a coding region prefix[1]. A standard prefix will increase the distance between the RBS and the start codon, reducing translational efficiency.
Design: The sequence of P43 and RBS-spoVG were obtained from papers[1, 2] and the sequence synthesised by GeneArt
Source: P43-spoVG was synthesised by GeneArt
References
- Zhang XZ, Cui ZL, Hong Q, and Li SP. High-level expression and secretion of methyl parathion hydrolase in Bacillus subtilis WB800. Appl Environ Microbiol. 2005 Jul;71(7):4101-3. DOI:10.1128/AEM.71.7.4101-4103.2005 |
- Jürgen B, Schweder T, and Hecker M. The stability of mRNA from the gsiB gene of Bacillus subtilis is dependent on the presence of a strong ribosome binding site. Mol Gen Genet. 1998 Jun;258(5):538-45. DOI:10.1007/s004380050765 |
Code: K143051
Long:
Design:
Source:
References
Pveg-gsiB
Name: Promoter Pveg and RBS gsiB for B. subtilis
Code: K143052
Long: Constitutive promoter veg(<bbpart>BBa_K143012</bbpart>) coupled to the strong Ribosome Binding Site gsiB(<bbpart>BBa_K143020</bbpart>) from B. subtilis.
Pveg-gsiB can be used in the context of a Polymerases per second (PoPS) output generator
To get the highest level of translation from this Promoter-RBS combination it must be connected to a coding region preceded by a coding region prefix[1]. A standard prefix will increase the distance between the RBS and the start codon, reducing translational efficiency.
Design: The sequence of Pveg was obtained from the DBTBS[1] and RBS-gsiB were obtained from papers[2] and the sequence synthesised by GeneArt
Source: Pveg-gsiB was synthesised by GeneArt
References
- Sierro N, Makita Y, de Hoon M, and Nakai K. DBTBS: a database of transcriptional regulation in Bacillus subtilis containing upstream intergenic conservation information. Nucleic Acids Res. 2008 Jan;36(Database issue):D93-6. DOI:10.1093/nar/gkm910 |
- Jürgen B, Schweder T, and Hecker M. The stability of mRNA from the gsiB gene of Bacillus subtilis is dependent on the presence of a strong ribosome binding site. Mol Gen Genet. 1998 Jun;258(5):538-45. DOI:10.1007/s004380050765 |
Pveg-spoVG
Name:
Code: K143053
Long:
Design:
Source:
References
Phyper-spank-gsiB
Name:
Code: K143054
Long:
Design:
Source:
References
Phyper-spank-spoVG
Name:
Code: K143055
Long:
Design:
Source:
References
Pxyl-gsiB
Name:
Code: K143056
Long:
Design:
Source:
References
Pxyl-spoVG
Name:
Code: K143057
Long:
Design:
Source:
References
Pctc-gsiB
Name:
Code: K143058
Long:
Design:
Source:
References
Pctc-spoVG
Name:
Code: K143059
Long:
Design:
Source:
References
PgsiB-gsiB
Name:
Code: K143060
Long:
Design:
Source:
References
PgsiB-spoVG
Name:
Code: K143061
Long:
Design:
Source:
References
LacI-Terminator
Name: LacI repressor protein - Terminator
Code: K143062
Long: LacI transcriptional repressor protein (<bbpart>BBa_K143033</bbpart>) coupled to the double terminator (<bbpart>BBa_B0015</bbpart>.
The LacI does not possess a LVA degradation tag and gas a short (3 amino acid) N-terminal deletion consistent with LacI used in conjunction with B. subtilis.
LacI can be used in conjunction with the lac operon promoter (<bbpart>BBa_K143015</bbpart>), where the LacI will act as a receiver for an IPTG input to result in a Polymerases per second (PoPS) output.
The double terminator is the most commonly used terminator and is a combination of parts <bbpart>BBa_B0010</bbpart> and <bbpart>BBa_B0012</bbpart>.
The double terminator allows the LacI to be easily incorporated into a closed transcriptional unit.
Design: LacI was identified from the pDR111 B. subtilis integration vector. The double terminator is the most commonly used registry terminator.
Source: LacI was produced by PCR cloning using Pfu form the B. subtilis integration vector and cloned into a BioBrick with the registry double terminator
XylR-Terminator
Name:
Code: K143063
Long:
Design:
Source:
References
Antibiotic Related
Integration Related
Codes and associated parts
Note- Aad9 is the Spectinomycin resistance gene
- RI - Resistance Integration Brick, P - Promoter, Pi - chemically inducible promoter, Pl - light inducible promoter, Bs - B.subtilis, PTC - Promoter Testing Construct, Rep - Repressor protein
| Code | Part | Code | Part | Code | Part | Code | Part | Code | Part |
|---|---|---|---|---|---|---|---|---|---|
| K143050 | P43-gsiB | K143051 | P43-spoVG | K143052 | Pveg-gsiB | K143053 | Pveg-spoVG | K143054 | Phyperspank-gsiB |
| K143055 | Phyper-spank-spoVG | K143056 | Pxyl-gsiB | K143057 | Pxyl-spoVG | K143058 | Pctc-gsiB | K143059 | Pctc-spoVG |
| K143060 | PgsiB-gsiB | K143061 | PgsiB-spoVG | K143062 | LacI - Terminator | K143063 | XylR - Terminator | K143064 | CAT - Terminator |
| K143065 | Aad9 - Terminator | K143066 | Int Open | K143067 | RI Brick | K143068 | RI-Rep-Pi Brick | K143069 | RI-Ytva-Pl Brick |
| K143070 | Bs-PTC | K143071 | Int Close | K143072 | K143073 | K143074 | |||
| K143075 | K143076 | K143077 | K143078 | K143079 | |||||
| K143080 | K143081 | K143082 | K143083 | K143084 | |||||
| K143085 | K143086 | K143087 | K143088 | K143089 |
