Degradation of r-a

The mRNA complex of scbR-scbA degrades very soon after it's formation.

Chemical equation

r-a\rightarrow \varnothing

Rate equation

r= d_{mAR}\cdot[r-a]

Parameters

The parameter of this reaction is the degradation rate of the r-a complex $d_{mRA}$ .

Name	Value	Units	Value in previous GBL model ^[1]	Remarks-Reference
$d_{mRA}$	$0.35-34.7$ ^[2] ^[3]	$min^{-1}$	$0.01 s^{-1}$ ^[1] (Bistability range: and $0-1.24 s^{-1}$ )	In a study on the properties of antisense RNA and on the effect it has on gene regulation in bacteria, Georg et al. report that the antisense RNAs resulting from overlapping or divergent promoters (i.e. isiA/IsrR sense/antisense pair in Synechocystis PCC6803) that form a complex, co-degrade almost immediately. Georg et al. 2012^[3] This opinion is further supported by A.J. Carpousis who, in a review on gene regulation by antisense RNA and quantifies a short mRNA half-life as approximately $2 min$ . A.J. Carpousis 2003^[2] Therefore we can assume that the antisense RNA in the GBL system will follow a similar pattern and will rapidly degrade. The half-life should be kept under $2 min$ , therefore we can explore the range of values $0.02-2 min$ . From the antisense RNA half-life ( $t_{1/2}$ ) we calculated the degradation rate, as per $d_{mRA}= \frac{ln(2)}{t_{1/2}}$ , which resulted in a degradation rate constant value between $0.35-34.7 min^{-1}$ .

Parameters with uncertainty

When deciding how to describe the uncertainty for this parameter we must take into consideration that the reported values are either calculated with approximation from experiments corresponding to different antisense RNA degradation rates of various bacteria species and are mostly a quantification of our understanding of immediate degradation. This means that there might be a difference between the actual parameter values and the ones reported in literature, although the reported values in literature suggest that the upper bound for the half-life of such a complex would not exceed 2 minutes. These facts influence the quantification of the parameter uncertainty and therefore the shape of the corresponding distribution.

Therefore, in order to explore the range of reported values, the mode of the log-normal distribution of the $d_{mRA}$ is set to $5 min^{-1}$ and the confidence interval factor is set to $6$ , which means that the range where 95% of the values are found is between $0.83$ and $30 min^{-1}$ .