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EvoFlows: Evolutionary Edit-Based Flow-Matching for Protein Engineering

2 Pith papers cite this work. Polarity classification is still indexing.

2 Pith papers citing it
abstract

We introduce EvoFlows, a variable-length protein sequence-to-sequence modeling approach designed for protein engineering. Existing protein language models are poorly suited for optimization tasks: autoregressive models require full sequence generation, masked language and discrete diffusion models rely on pre-specified mutation locations, and no existing methods naturally support insertions and deletions relative to a template sequence. EvoFlows learns mutational trajectories between evolutionarily related protein sequences via edit flows, allowing it to perform a controllable number of mutations (insertions, deletions, and substitutions) on a template sequence, predicting not only _which_ mutation to perform, but also _where_ it should occur. Through extensive _in silico_ evaluation on diverse protein families from UniRef and OAS, we show that EvoFlows generates variants that remain consistent with natural protein families while exploring farther from template sequences than leading baselines.

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representative citing papers

Flexible Flows for Biological Sequence Design

cs.LG · 2026-06-09 · unverdicted · novelty 6.0

Enhances Discrete Flow Matching with domain-specific couplings, latent edit-based rates, latent classifier-free guidance, and temperature scaling to reach SOTA on DNA and peptide sequence tasks.

Tree-Conditioned Edit Flows for Ancestral Sequence Reconstruction

q-bio.QM · 2026-05-05 · unverdicted · novelty 6.0

A new tree-conditioned edit-flow model for ancestral sequence reconstruction achieves reasonable accuracy on substitution-only evolved sequences and superior localization of changes on natural indel-rich sequences.

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  • Tree-Conditioned Edit Flows for Ancestral Sequence Reconstruction q-bio.QM · 2026-05-05 · unverdicted · none · ref 28 · internal anchor

    A new tree-conditioned edit-flow model for ancestral sequence reconstruction achieves reasonable accuracy on substitution-only evolved sequences and superior localization of changes on natural indel-rich sequences.