Successive State Transitions with I/O Interface by Molecules
DNA '00 Revised Papers from the 6th International Workshop on DNA-Based Computers: DNA Computing
Codeword design and information encoding in DNA ensembles
Natural Computing: an international journal
An Ant Colony System for DNA sequence design based on thermodynamics
ACST '08 Proceedings of the Fourth IASTED International Conference on Advances in Computer Science and Technology
Minimum basin algorithm: an effective analysis technique for DNA energy landscapes
DNA'04 Proceedings of the 10th international conference on DNA computing
Proceedings of the 15th annual conference companion on Genetic and evolutionary computation
Engineering Applications of Artificial Intelligence
| Hi-index | 0.00 |
We use combinatorial analysis to transform a special case of the computational problem of designing RNA base sequences with a given minimal free energy secondary structure into a coding theory question. The function of RNA molecules is largely determined by their molecular form, which in turn is significantly related to the base pairings of the secondary structure. Hence, this is crucial initial work in the design of RNA molecules with desired three-dimensional structures and specific functional properties. The biological importance of RNA only continues to grow with the discoveries of many different RNA molecules having vital functions other than mediating the production of proteins from DNA. Furthermore, RNA has the same potential as DNA in terms of nanotechnology and biomolecular computing.