Quantitative Biology

New optimization methods are reshaping protein design for better accuracy and efficiency.

Discover how machine learning is transforming protein engineering and directed evolution.

A dataset of 86 million molecules aids research in drug discovery and material science.

D3FG model improves drug design by focusing on functional groups and linkers.

Researchers develop a model to better predict protein stability changes from amino acid mutations.

New approach improves prediction of macrocyclic peptide shapes for drug design.

A new model improves antibody design for more effective vaccines.

A novel approach uses limited data to improve predictions of protein-peptide interactions.

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

FP-IRL blends physics with IRL to reveal agent motivations in complex systems.

This article examines how cells manage their size during growth and division.

This model sheds light on how cells change shape during division.

Investigating how nonlocal interactions shape patterns in biological systems.

AI is transforming how scientists analyze cellular images and videos.

Stress hormones significantly affect immune cells in cancer treatment.

Exploring chirality's effects on cells and organismal shapes.

New methods in machine learning improve understanding of breast cancer survival.

A new method improves genome assembly using both long and short DNA reads.

A novel tool for predicting outcomes from genomic data enhances genetic research.

RNA velocity aids in understanding how cells evolve by analyzing gene expression.

MIXALIME enhances research on allele-specific expression in genetics using advanced statistical models.

Learn how to correct biases in Pool-seq for accurate genetic insights.

Research reveals key genetic changes in HTLV-1-infected cells linked to leukemia.

A new method improves DNA compression for efficient data storage.

Exploring how energy and matter interact in closed ecosystems for survival.

Research shows attractors grow exponentially as Kauffman networks increase in size.

Modeling complex biological interactions using strong regulatory graphs for better insights.

A new method improves gene regulation analysis by accounting for fluctuations in biological systems.

This article examines insulin signaling differences in healthy individuals and those with resistance.

Exploring the dynamics and stability of biological systems through interaction networks.

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

Exploring key gene interactions linked to type 2 diabetes for better treatment insights.

A look into neuron behavior and modeling methods.

A study enhances predictions for cognitive decline using partial data.

A faster Bayesian approach improves spike detection in neuroscience research.

New strategies enhance artificial intelligence's ability to generalize beyond training data.

MindEye reconstructs images from brain activity, revealing insights into thought and perception.

Examining how neuron connections influence movement patterns in the simple nervous system of C. elegans.

Nerve cells adjust their sensitivity to improve information processing.

Study evaluates energy landscape analysis for reliable brain activity insights.

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.

Analyzing how small groups protect against competition.

This article examines the patterns of gene frequency changes over time.

This study proposes a new way to model COVID-19 transmission considering various factors.

A look into the complex interactions between predators, prey, and kleptoparasitism.

Research reveals the complexity of interactions in microbial communities.

Exploring how energy and matter interact in closed ecosystems for survival.

Exploring how harmful mutations impact asexual reproduction and population health.

Oxygen influences cancer cell behavior and growth within tumors.

This study highlights a new method to analyze brain age using imaging data.

A new computational approach enhances the modeling of mechanical responses in brain tissue.

Understanding AI predictions enhances trust in chemistry applications.

New challenge aims to improve detection and treatment of children's brain tumors.

Research reveals the complexity of interactions in microbial communities.

Examining how neuron connections influence movement patterns in the simple nervous system of C. elegans.

Exploring innovative treatments to combat stubborn bacterial infections in biofilms.

New methods improve accuracy in predicting protein shapes and their functions.

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

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

UQSA helps researchers quantify uncertainty in biological models and analyze sensitivity.

This article examines how surface structure influences cell movement during migration.

A look into how particle clusters form and impact cell function.

Investigating how the cytoskeleton responds to stress in cells.

This study examines how rare events occur in systems with random walkers.

This study examines how nutrient availability affects ribosome production and degradation.

New methods improve understanding of heart tissue mechanics.

Oxygen levels in tumors significantly influence the effectiveness of radiotherapy.

Investigating how nonlocal interactions shape patterns in biological systems.

Researchers are enhancing CAR T-cell therapy effectiveness against solid tumors.

Innovative approach harnesses synthetic images to improve brain tumor detection.

Innovative approaches in heart modeling aim to enhance patient diagnosis and treatment.

Study compares immune reactions to endotoxin via bolus injection and continuous infusion.

This article examines cell adhesion's role in movement and its implications for health.