Artificial transcriptional terminators
The goal is to create a series of transcriptional terminators with varying efficiencies. The majority of transcriptional terminators have a G+C rich stem of 7(+/-1)bp and a loop of 4(+/-1) nucleodtides followed by a poly(U) tail. Two common loops are UUCG and GAAA, both of which are known to increase RNA hairpin stability. The sequence GCGGG(G) is a common sequence found on the 3' arm of the stem. [d'Aubenton 90]
Effects of stem loop sequence on terminator efficiency
Bulges and mismatches in the stem, as well low G+C content of the stem will lower TE more than reducing the length of or elimination of the poly(U) tail [Abe 96]. The sequences downstream of the poly(U) tail and between the stop codon and the start of the stem loop structure also affect the TE of a terminator, particularly T7Te or T3Te.
Several sources [Reynolds 92, Chamberlin 79] measured the termination efficiency(TE) of T7Te at around 90%. However, efficiency for the biobricks part BBa_B0012 , also T7Te, is around 30%. T7Te has a very short poly(U) tail and requires the further downstream sequence for efficiecent termination [Reynolds 92], and this further downstream sequence is lacking in BBa_B0012. If the sequence for BBa_B0012 is lengthened to include this downstream segment, then the TE of part should be improved.
Predicting terminator efficiency
It may be possible to predict terminator efficiency using methods from d'Aubenton, in particular, the score d assigned to a possible terminator sequence d = nt*18.16+Y*96.59-116.87 where nt measures the statistical distribution of the T residues in the non transcribed DNA strand and Y is the free energy per nucleodtide of the stem loop structure.
The score d will give a rough estimate of how efficient a terminator is. d<0: TE<20% 0<d<30: 20%<TE<70% d>30: TE>70%
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