Latest Articles for Computational Biology

FrameFlow propels protein design by enhancing scaffold diversity and functionality.

Researchers enhance read mapping efficiency using innovative algorithms and hardware.

Assessing animal models with IST improves drug testing and understanding of diseases.

FREED++ shows improved drug generation with enhanced molecular design and performance.

A study on the effectiveness of computer tools for predicting cat allergenic proteins.

Discover how link prediction enhances our understanding of biological interactions.

An overview of MPNNs, their workings, and applications in various fields.

New tools enhance understanding of genetic diversity and structural variants in human populations.

SAIS enhances optimization through biological symbiotic relationships in artificial intelligence.

AlphaFold2 revolutionizes the prediction of protein shapes using deep learning.

PIE simplifies complex biological data for clearer insights.

New framework enhances protein research through innovative question answering.

New algorithms enhance genome assembly with efficient overlap representation.

Explore how genome changes impact evolution and diversity.

PhyloFusion enhances phylogenetic networks by handling incomplete data effectively.

Research reveals how bacteria interact and cluster in confined spaces.

A new method improves data generation, reconstruction, and representation in machine learning.

FAPM improves protein function prediction using multi-modal models and deep learning.

A new model enhances the prediction of circular RNA structures, improving accuracy and efficiency.

A new method improves accuracy and efficiency in single-cell RNA sequencing data analysis.

AlphaFastPPi simplifies protein interaction predictions for diverse research needs.

New dataset and prediction method boost drug-target interaction research.

BacTermFinder improves predictions of transcription termination sites in bacteria.

This study sheds light on gene interactions and their impact on cancer treatments.

A new method to improve model training from noisy graph data.

A look into dynamic strings and efficient management with enhanced splay trees.

Scientists use computational methods to improve drug binding selectivity analysis.

Research into KRAS inhibitors highlights innovative approaches in drug discovery.

This article explores how gene expression influences cell fate during DNA damage.

CParty offers improved methods for predicting complex RNA structures, aiding scientific research.

Caduceus improves genomic modeling by addressing DNA's complexities.

This article explores how animals perceive and process various smells.

New software streamlines the identification of structured tandem repeat proteins.

New methods enhance understanding of protein interactions for drug development.

ProLLM enhances predictions of protein-protein interactions using advanced language models.

Researchers uncover new genetic ties to height and diseases using advanced methods.

mpbn simplifies analysis of Boolean networks for gene interaction studies.

A compact time-series feature set enhances brain activity analysis across species.

A look at reducing complexity in phylogenetic networks using cherry reduction.

A deep dive into the evolution of BLAST's significance measures.