Large-scale Protein Language Models (PLMs) have improved performance in protein prediction tasks, ranging from 3D structure prediction to various function predictions. In particular, AlphaFold, a ground-breaking AI system, could potentially reshape structural biology. However, the utility of the PLM module in AlphaFold, Evoformer, has not been explored beyond structure prediction. In this paper, we investigate the representation ability of three popular PLMs: ESM-1b (single sequence), MSA-Transformer (multiple sequence alignment) and Evoformer (structural), with a special focus on Evoformer. Specifically, we aim to answer the following key questions: (i) Does the Evoformer trained as part of AlphaFold produce representations amenable to pre...
Computational models starting from large ensembles of evolutionarily related protein sequences captu...
For decades, scientists have struggled to predict the ways in which the many proteins in the human b...
Recent advances in deep learning techniques have revolutionised protein structure modelling. Since A...
AI-based protein structure prediction pipelines, such as AlphaFold2, have achieved near-experimental...
By analysing the structure of a protein it is possible to draw conclusions about its function. Obtai...
Breakthrough methods in machine learning (ML), protein structure prediction, and novel ultrafast str...
AlphaFold2 is a machine-learning algorithm for protein structure prediction that has now been used t...
Recent developments in deep learning, coupled with an increasing number of sequenced proteins, have ...
In the field of artificial intelligence, a combination of scale in data and model capacity enabled b...
Background Predicting protein function and structure from sequence is one important ...
Determining the structure of proteins has been a long-standing goal in biology. Lan- guage models ha...
The recent breakthroughs of Large Language Models (LLMs) in the context of natural language processi...
Novel protein sequences arise through mutation. These mutations may be deleterious, beneficial, or n...
Proteins are the essential agents of all living systems. Even though they are synthesized as linear ...
Data-driven predictive methods which can efficiently and accurately transform protein sequences into...
Computational models starting from large ensembles of evolutionarily related protein sequences captu...
For decades, scientists have struggled to predict the ways in which the many proteins in the human b...
Recent advances in deep learning techniques have revolutionised protein structure modelling. Since A...
AI-based protein structure prediction pipelines, such as AlphaFold2, have achieved near-experimental...
By analysing the structure of a protein it is possible to draw conclusions about its function. Obtai...
Breakthrough methods in machine learning (ML), protein structure prediction, and novel ultrafast str...
AlphaFold2 is a machine-learning algorithm for protein structure prediction that has now been used t...
Recent developments in deep learning, coupled with an increasing number of sequenced proteins, have ...
In the field of artificial intelligence, a combination of scale in data and model capacity enabled b...
Background Predicting protein function and structure from sequence is one important ...
Determining the structure of proteins has been a long-standing goal in biology. Lan- guage models ha...
The recent breakthroughs of Large Language Models (LLMs) in the context of natural language processi...
Novel protein sequences arise through mutation. These mutations may be deleterious, beneficial, or n...
Proteins are the essential agents of all living systems. Even though they are synthesized as linear ...
Data-driven predictive methods which can efficiently and accurately transform protein sequences into...
Computational models starting from large ensembles of evolutionarily related protein sequences captu...
For decades, scientists have struggled to predict the ways in which the many proteins in the human b...
Recent advances in deep learning techniques have revolutionised protein structure modelling. Since A...