Difference between revisions of "Team:MIT/L7AeRepressingSystem"
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| + | <div style="text-decoration: none; color: #000000; float: center; margin: 15px;text-align:center"> | ||
| + | <img src="https://static.igem.org/mediawiki/2016/1/11/T--MIT--L7Ae_Kink_turn_mechanism.png" alt="" style="width:500px;margin-bottom:10px;"> | ||
| + | <div style="width: 599px; text-align: center;display:inline-block;"><i><b>Figure. </b>Binding of L7Ae to kink-turn motifs preveting translation.</i></div> | ||
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<a href="#"><p style="font-family: Trebuchet MS;font-color:#7ECEFD"><i><b>Read more about building kturn constructs here.</b></i></p></a> | <a href="#"><p style="font-family: Trebuchet MS;font-color:#7ECEFD"><i><b>Read more about building kturn constructs here.</b></i></p></a> | ||
Revision as of 05:27, 17 October 2016
L7Ae - Kink turn
Back to recombinase overview pageRNA-Based Gene Regulation
L7Ae, an archaeal ribosomal protein, binds with high affinity to RNA motifs called kink-turns (K-turns), found in both archaeal and eukaryote RNAs [1][2][3]. L7Ae protein sequence is divided into three structural regions consisting of a highly conserved RNA-binding region (RBR) flanked by less conserved N-terminal and C-terminal regions [2]. Variation in the terminal regions could dictate RNA-binding specificity of different homologs of L7Ae protein [2]. When a K-turn motif is inserted into the target mRNA upstream of the open reading frame, L7Ae can be used as a translational regulator [1][2][3]. The binding activity of L7Ae will prevent the ribosome machinery from performing translation. The strength of the repression can be controlled by varying the distance between the K-turns and the 5’-end of the mRNA, or by changing the number of the k-turn motifs [1].
Read more about building kturn constructs here.
Recombinase and L7Ae-Kturn
Purpose
Experimental Setup
Result
Testing the 2x k-turn L7Ae system with varied L7Ae expression level
Testing the effect of varying k-turn sequences
REFERENCE:
- Oliwia Andries, Tasuku Kitada, Katie Bodner, Niek N Sanders & Ron Weiss (2015) Synthetic biology devices and circuits for RNA-based ‘smart vaccines’: a propositional review, Expert Review of Vaccines, 14:2, 313-331
- Gagnon KT, Zhang X, Qu G, et al. Signature amino acids enable the archaeal L7Ae box C/D RNP core protein to recognize and bind the K-loop RNA motif. Rna 2010;16(1):79-90
- Stapleton JA, Endo K, Fujita Y, et al. Feedback control of protein expression in mammalian cells by tunable synthetic translational inhibition. ACS Synth Biol 2012;1(3):83-8
