Latest Articles for Computational Biology

A new model improves prediction of drug effects on cancer cells.

An overview of LED trees and their role in studying species evolution.

A look at methods for aligning protein sequences and structures.

Introducing LEGEND, a method for analyzing gene expression across cell types and tissues.

Understanding reticulation events in phylogenetic networks and their implications for evolution.

New framework aids in predicting protein interactions, especially for corals.

A look at AlphaFold2's predictions and potential misinterpretations in protein structures.

Different Cell Ranger versions significantly affect scRNA-seq data analysis outcomes.

New methods enhance the search for protein similarities at the domain level.

Auto-ParAdvisor enhances RNA-seq transcript assembly accuracy through tailored parameter selection.

A new method improving cell segmentation in microscopy images for biological research.

A new method improves evolutionary tree construction using deep learning.

New tools enhance efficiency in genomic data indexing and searching.

BALM uses machine learning to enhance drug discovery accuracy.

A method to clean noisy graphs and enhance GNN performance.

Research highlights amino acid composition as key to protein function understanding.

GreedyMini enhances data processing in genetic research by optimizing minimizer selection.

New GPU methods speed up pangenome analysis, enhancing genetic research.

Cells react to changes using transcription factors for survival.

New methods improve timing predictions in biochemical reactions.

New techniques boost efficiency in organizing complex biological data.

MultiCOAP improves analysis of count data from multiple studies, addressing complexity and overdispersion.

moPepGen enhances protein detection from genetic variations, opening new research avenues.

This article examines Watson-Crick automata and their role in analyzing circular DNA structures.

K-mers streamline DNA sequence comparisons, enhancing efficiency in bioinformatics.

New algorithms improve RNA motif detection and analysis efficiency.

New neural networks improve analysis of complex, directed data relationships.

Exploring the complexities of genome rearrangements and the significance of median arrangements.

Learn how deep learning is changing our understanding of protein behavior.

Learn how to effectively analyze DNA sequences using k-mers and Shannon entropy.

A new model enhances protein analysis by capturing structural information effectively.

StrainPGC improves understanding of microbial strains and their health impacts.

A look at how conformal prediction improves uncertainty quantification in biology.

GIFFLAR improves glycan property predictions using graph neural networks.

Exploring the role of 3-sunlets in phylogenetic analysis and gene sharing.

New methods improve our understanding of gene expression in health and disease.

A look at how Chimaera helps predict DNA structures and their importance.

Scientists use Boolean models to understand complex biological interactions and make predictions.

New techniques improve storage and search of genomic k-mer data.

A new tool predicts water interactions around proteins for better drug design.