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La-proteina: Atomistic protein generation via partially latent flow matching.arXiv preprint arXiv:2507.09466

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

7 Pith papers citing it
abstract

Recently, many generative models for de novo protein structure design have emerged. Yet, only few tackle the difficult task of directly generating fully atomistic structures jointly with the underlying amino acid sequence. This is challenging, for instance, because the model must reason over side chains that change in length during generation. We introduce La-Proteina for atomistic protein design based on a novel partially latent protein representation: coarse backbone structure is modeled explicitly, while sequence and atomistic details are captured via per-residue latent variables of fixed dimensionality, thereby effectively side-stepping challenges of explicit side-chain representations. Flow matching in this partially latent space then models the joint distribution over sequences and full-atom structures. La-Proteina achieves state-of-the-art performance on multiple generation benchmarks, including all-atom co-designability, diversity, and structural validity, as confirmed through detailed structural analyses and evaluations. Notably, La-Proteina also surpasses previous models in atomistic motif scaffolding performance, unlocking critical atomistic structure-conditioned protein design tasks. Moreover, La-Proteina is able to generate co-designable proteins of up to 800 residues, a regime where most baselines collapse and fail to produce valid samples, demonstrating La-Proteina's scalability and robustness.

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A-CODE: Fully Atomic Protein Co-Design with Unified Multimodal Diffusion

q-bio.QM · 2026-05-05 · unverdicted · novelty 8.0

A-CODE presents a fully atomic one-stage multimodal diffusion model for protein co-design that claims superior unconditional generation performance over prior one- and two-stage models plus a tenfold success-rate gain on hard binder-design tasks.

Steerable Neural ODEs on Homogeneous Spaces

cs.LG · 2026-05-11 · unverdicted · novelty 7.0

Steerable NODEs extend manifold neural ODEs by coupling base flow on homogeneous spaces with parallel transport of features in associated bundles, achieving G-equivariance under invariant conditions.

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  • Steerable Neural ODEs on Homogeneous Spaces cs.LG · 2026-05-11 · unverdicted · none · ref 5 · internal anchor

    Steerable NODEs extend manifold neural ODEs by coupling base flow on homogeneous spaces with parallel transport of features in associated bundles, achieving G-equivariance under invariant conditions.

  • Yeti: A compact protein structure tokenizer for reconstruction and multi-modal generation q-bio.BM · 2026-05-11 · unverdicted · none · ref 49 · internal anchor

    Yeti is a compact tokenizer for protein structures that delivers strong codebook use, token diversity, and reconstruction while enabling from-scratch multimodal generation of plausible sequences and structures with 10x fewer parameters than ESM3.