Part:BBa_K4601134
Synthetic RBS designed for LacZalpha
This part is a synthetic RBS specifically designed for the LacZ-alpha (pUC19 like) (BBa_K2448003) using the Salis Lab RBS Library Calculator v2.0 [1-3].
Usage and Biology
This RBS was used to drive the expression of LacZ-alpha (pUC19 like) (BBa_K2448003) under the control of the (J23110) promoter in the composite part BBa_K4601234. In this context, the predicted features of this RBS, according to Salis Lab RBS Calculator v2.1.1 [1,4-7], are:
Translation Initiation Rate (au) : 163127.13 dG_total (kcal/mol) : -10.85 dG_mRNA_rRNA (kcal/mol) : -15.01 dG_spacing (kcal/mol) : 0.01 dG_stacking (kcal/mol) : -0.30 dG_standby (kcal/mol) : 1.53 dG_start (kcal/mol) : -2.76 dG_mRNA (kcal/mol) : -5.68 Warnings : none
This RBS was selected fortuitously during the cloning process from a library of 96 RBSes (ASWTTAATAATKTAKAGAGGVGGTATAK) for which the estimated Translation Initiation Rates (TIR) range from 4223.38 to 393272.53.
References
[1] Reis AC, Salis HM. An automated model test system for systematic development and improvement of gene expression models. ACS synthetic biology (2020) 9: 3145–3156.
[2] Farasat I, Kushwaha M, Collens J, Easterbrook M, Guido M, Salis HM. Efficient search, mapping, and optimization of multi-protein genetic systems in diverse bacteria. Molecular Systems Biology (2014) 10: 731.
[3] Ng CY, Farasat I, Maranas CD, Salis HM. Rational design of a synthetic Entner-Doudoroff pathway for improved and controllable NADPH regeneration. Metabolic Engineering (2015) 29: 86–96.
[4] Cetnar DP, Salis HM. Systematic quantification of sequence and structural determinants controlling mRNA stability in bacterial operons. ACS Synthetic Biology (2021) 10: 318–332.
[5] Espah Borujeni A, Cetnar D, Farasat I, Smith A, Lundgren N, Salis HM. Precise quantification of translation inhibition by mRNA structures that overlap with the ribosomal footprint in N-terminal coding sequences. Nucleic Acids Research (2017) 45: 5437–5448.
[6] Espah Borujeni A, Channarasappa AS, Salis HM. Translation rate is controlled by coupled trade-offs between site accessibility, selective RNA unfolding and sliding at upstream standby sites. Nucleic Acids Research (2014) 42: 2646–2659.
[7] Salis HM, Mirsky EA, Voigt CA. Automated design of synthetic ribosome binding sites to control protein expression. Nature Biotechnology (2009) 27: 946–950.
Sequence and Features
- 10COMPATIBLE WITH RFC[10]
- 12COMPATIBLE WITH RFC[12]
- 21COMPATIBLE WITH RFC[21]
- 23COMPATIBLE WITH RFC[23]
- 25COMPATIBLE WITH RFC[25]
- 1000COMPATIBLE WITH RFC[1000]
None |