English

mRNA secondary structure prediction using utility-scale quantum computers

Quantum Physics 2024-05-31 v1

Abstract

Recent advancements in quantum computing have opened new avenues for tackling long-standing complex combinatorial optimization problems that are intractable for classical computers. Predicting secondary structure of mRNA is one such notoriously difficult problem that can benefit from the ever-increasing maturity of quantum computing technology. Accurate prediction of mRNA secondary structure is critical in designing RNA-based therapeutics as it dictates various steps of an mRNA life cycle, including transcription, translation, and decay. The current generation of quantum computers have reached utility-scale, allowing us to explore relatively large problem sizes. In this paper, we examine the feasibility of solving mRNA secondary structures on a quantum computer with sequence length up to 60 nucleotides representing problems in the qubit range of 10 to 80. We use Conditional Value at Risk (CVaR)-based VQE algorithm to solve the optimization problems, originating from the mRNA structure prediction problem, on the IBM Eagle and Heron quantum processors. To our encouragement, even with ``minimal'' error mitigation and fixed-depth circuits, our hardware runs yield accurate predictions of minimum free energy (MFE) structures that match the results of the classical solver CPLEX. Our results provide sufficient evidence for the viability of solving mRNA structure prediction problems on a quantum computer and motivate continued research in this direction.

Keywords

Cite

@article{arxiv.2405.20328,
  title  = {mRNA secondary structure prediction using utility-scale quantum computers},
  author = {Dimitris Alevras and Mihir Metkar and Takahiro Yamamoto and Vaibhaw Kumar and Triet Friedhoff and Jae-Eun Park and Mitsuharu Takeori and Mariana LaDue and Wade Davis and Alexey Galda},
  journal= {arXiv preprint arXiv:2405.20328},
  year   = {2024}
}

Comments

12 pages, 12 figures

R2 v1 2026-06-28T16:47:37.156Z