PepPrCLIP

De Novo Generation and Prioritization of Target-Binding Peptide Motifs from Sequence Alone

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Designing binders to target undruggable proteins presents a formidable challenge in drug discovery, requiring innovative approaches to overcome the lack of putative binding sites on pathogenic proteins. Recently, generative models have been trained to design binding proteins from the three-dimensional structure of a target protein alone, but thus exclude design to disordered or conformationally unstable targets. In this work, we provide a generalizable algorithmic framework to design short target-binding peptide motifs, requiring only the amino acid sequence of the target protein. To do this, we propose a process to generate naturalistic peptide candidates through Gaussian perturbation of the peptidic latent space of the state-of-the-art ESM-2 protein language model, and subsequently screen these de novo linear sequences for target-selective interaction activity via a CLIP-based contrastive learning architecture. By integrating these generative and discriminative steps, we create a unified Peptide Prioritization via CLIP (PepPrCLIP) pipeline.

In this repository, you can find the datasets, model weights, and full code for PepPrCLIP.

We have developed a user-friendly Colab notebook for peptide generation with PepPrCLIP! When you download the repository, copy this Colab notebook into the repository's main directory (which should be located at MyDrive/pepprclip) and follow the instructions to generate peptides.

Authors: Suhaas Bhat, Kalyan Palepu, Sophia Vincoff and Pranam Chatterjee

Contact: info@ubiquitx.com

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PepPrCLIP

De Novo Generation and Prioritization of Target-Binding Peptide Motifs from Sequence Alone