Quantitative Biology

New modeling approach improves understanding of zinc protein interactions.

Examining how Imatinib selectively targets the Abl kinase over Src.

Reinforcement learning methods optimize new drug-like molecules for mental health treatments.

A new approach enhances protein docking accuracy and speed.

MolCode combines 2D and 3D data for better molecule creation.

Explore how spontaneous mutations influence genetic information and evolution.

This research focuses on predicting drug synergy using advanced language models in rare tissues.

SILVR simplifies the creation of new drug candidates using machine learning and known fragments.

Gastruloids provide insights into the early stages of mammalian development.

Explores how cells switch between growth and dormancy based on environmental conditions.

Study reveals how cells navigate curved environments with a simple model.

Examining how bacteria adapt their growth tactics based on environmental changes.

Research enhances iPSC growth through metabolic modeling for better therapies.

This study examines how bacteria move in a confined space and fluid.

This study examines how oncolytic viruses behave in different tumor environments.

A look into how cells navigate and move in their environment.

A new model improves drug matching for diseases using gene expression data.

BioSequence2Vec simplifies the creation of numerical embeddings from biological sequences efficiently.

New study reveals potential genetic markers linked to Parkinson's disease.

ViralVectors streamlines the analysis of vast viral genetic data for better public health decisions.

DiscoGen improves gene regulatory network analysis by cleaning noisy data for better inference.

A method combines images and gene data to improve cancer survival predictions.

A guide on addressing missing data in single-cell protein studies.

GeneGPT enhances language models for accurate genomic answers using NCBI APIs.

A look into the dynamics of autocatalytic networks across various fields.

This article explores how pathway modules assist in studying biochemical networks.

Explore how hypergraph animals reveal complex relationships in systems.

Uncovering complex relationships in biological systems for better health outcomes.

DiscoGen improves gene regulatory network analysis by cleaning noisy data for better inference.

Efforts to improve the accessibility of scientific models for better collaboration.

New research reveals how bursts in transcription affect gene expression and protein production.

Examining how resilience impacts the reliability of biological components.

Exploring the rubber hand illusion and its implications for robotics.

A look into the constant, involuntary shifts of our eye movements.

Higher-order brain interactions reveal insights into complex information processing.

Lazy learning improves AI training by focusing on mistakes.

A novel approach to analyzing brain connectivity using a specialized neural network.

Research shows EEG can effectively classify human moods with high accuracy.

Research details how brain injuries affect neuron communication and recovery.

A look at how machines learn decision-making under uncertainty.

A look at the importance and challenges of software evaluation in the scientific community.

Exploring how AI can generate new potion recipes at Hogwarts.

A look at how variation impacts evolution and biological complexity.

Balancing economic benefits and environmental health in forestry.

A look at how living organisms process information and respond to their environments.

A look at the FitzHugh-Nagumo model and its relevance in various fields.

Innovative methods could reshape how we analyze and apply biological data.

Analyzing RNA structure dynamics for better biological understanding.

Examining the link between communicable and non-communicable diseases.

Examining how choices evolve in social dilemmas with uncertainty.

This method improves analysis of random processes on graphs, especially rare events.

Research shows a vaccine could significantly reduce iNTS cases in children.

Researchers propose a model to capture unpredictable disease spread dynamics.

Innovative techniques improve the creation of phylogenetic networks from tree data.

Examining how switching networks influence genetic mutation spread.

A study on how tuberculosis affects Burundi's population and the importance of treatment.

A new statistical approach improves analysis of genetic influences on metabolites.

A new method improves predictions in multi-response regression, relevant for various fields.

This study presents a method to generate synthetic health data ensuring patient privacy.

The METS model improves ECG classification by integrating ECG data with clinical reports.

A look at how compartment models enhance our understanding of complex systems.

Juvenile anacondas use specialized movements to evade predators effectively.

A new approach improves our understanding of the gut microbiome and its health impacts.

A new method for better molecule representation in drug design.

Learn how B cells recognize and respond to harmful antigens.

Loops significantly influence chromatin movement and gene expression.

Exploring how microtubules shape cells and organize through motor proteins.

Explore how IRE1 clusters help cells manage protein folding issues.

Examining how chromatin structure affects cellular functions and disease connections.

Mitochondria arrange themselves to optimize ATP supply in nerve cells.

A look at how motor proteins ensure efficient cargo movement in cells.

Research reveals complex dynamics of LHCII proteins and energy management in plants.

New findings on heart models can improve pacemakers and defibrillators.

A method combines images and gene data to improve cancer survival predictions.

Research reveals how noise influences heart rhythm stability in atrial fibrillation.

A look into brain organoids reveals differences in human and primate development.

A new tool streamlines the measurement of stomata, enhancing plant research.

Researchers develop a model to better understand heart fiber behavior and improve treatments.

A look at how cells interact to form stable structures in tissues.

Examining how cancer cells spread and change within the body.