@hackage RNAdesign0.1.1.0

Multi-target RNA sequence design


The RNAdesign program solves the multi-target RNA sequence design problem. You can give one or more structural targets for which a single compatible sequence is designed.


Christian Hoener zu Siederdissen, Stefan Hammer, Ingrid Abfalter, Ivo L. Hofacker, Christoph Flamm, Peter F. Stadler. Computational Design of RNAs with Complex Energy Landscapes. 2013. Biopolymers. 99, no. 12. 99. 1124–36. http://dx.doi.org/10.1002/bip.22337.




RNAdesign designs RNA sequences given one or more structural targets. The program offers a variety of optimization functions that each can be used to optimize candidate sequence towards a certain goal, say, minimal ensemble defect or small energetic distance to another target structure.

RNAdesign input

Structural targets are given via stdin, preferably via an input file. Below is a the small tri-stable from our paper, which you should then pipe to RNAdesign: "echo tri-stable.dat | RNAdesign"

"cat tri-stable.dat:"

a tri-stable example target. (optional comment)

((((....))))....((((....))))........ ........((((....((((....))))....)))) ((((((((....))))((((....))))....))))

below follows a simple (and optional) sequence constraint.


The input may contain many comments lines, starting with a hash "#" and at most one sequence constraint line. All of these lines are optional, except of course for the structural constraints.

Optimization functions

Depending on the actual design you are looking for, you'll want to modify the optimization function. Below, the different options available are detailed. By giving a complex "--optfun", many different design goals can be tried.

A good optimization goal is (as an example for three targets):

--optfun "eos(1)+eos(2)+eos(3) - 3 * gibbs + 1 * ((eos(1)-eos(2))^2 + (eos(1)-eos(3))^2 + (eos(2)-eos(3))^2)"

This way, the sequence produces close-to-mfe foldings with the targets (left) and the targets are close together in terms of energy. (1 * ) scales the two terms according to user choice.

binary, combining:

      • / :: the four basic operations ^ :: (^) generalized power function

binary, apply function to many targets:

sum max min :: run function over set of targets: sum(eos,1,2) or sum(eos,all)

unary, apply to single target:

eos :: energy of a structure: eos(1) ed :: ensemble defect of a structure: ed(3)

nullary, constant for the current sequence:

Ged :: global, weighted ensemble defect: Ged gibbs :: gibbs free energy of sequence mfe :: minimum free energy of sequence


logMN :: requires four parameters logMN(0.2,0.3,0.3,0.2) penalizes according to given mono-nucleotide distribution in order of ACGU