Latest Articles for Cell Biology

A novel approach enhances understanding of gene expression in zebrafish development.

A new method improves reliability in single-cell analysis across various labs.

GET enhances understanding of transcription factors in various human cell types.

This article explores how aging affects gene regulation and cellular function.

Discover how La and ROS impact osteoclast formation and bone density.

Researchers use machine learning to analyze cancer cells and improve treatment strategies.

Research explores DNA tetrahedrons' effects on tumor-associated macrophages for cancer treatment.

Studying bacterial aggregation behaviors sheds light on multicellularity.

EFL-3 influences stem cell behavior and development in C. elegans.

A new method improves understanding of cell functions and interactions.

Exploring how cells manage DNA damage during replication stress.

A faster approach to fit GLM-PCA models for scRNA-seq research.

Research sheds light on PINK1's importance in cell survival and stress management.

A fresh approach to examine the behavior of membraneless organelles in cells.

Recent studies reveal crucial links between Asgard archaea and complex cells.

This study explores how active droplets move and function within cellular environments.

Research reveals how long-lived proteins influence female fertility and reproductive health.

Research reveals mechanisms behind cellular responses to DNA breaks.

Researchers analyze cell behavior using kinetic models to uncover movement patterns.

Research highlights genetic variants and immune responses related to Alzheimer’s disease.

Nanotiming simplifies DNA replication timing studies with low-cost, high-resolution profiles.

Research reveals how loop extrusion and condensates organize DNA for efficient gene expression.

Researchers leverage nanoparticles to track movement and behavior within cells.

Research reveals key proteins affecting muscle function through synaptic signaling.

Ubiquitin serves as a vital regulator of protein functions in cells.

Prdm1 regulates immune cells crucial for fighting cancer and infections.

Discover the mechanisms behind neuron spacing and connection in the brain.

A new method improves cell segmentation for better tissue studies.

New methods improve cellular imaging for better understanding of cell structures and diseases.

Oxidation alters muscle protein function, impacting strength and contraction.

Research reveals the critical role of ADAMTS5 in ovarian cancer spread and patient survival.

Examining how ubiquitination affects neurotransmitter release and neuronal signaling.

Cellular senescence impacts wound healing, balancing recovery and potential complications.

Research reveals how basal cells transform into luminal cells in the mammary gland.

Research shows key differences between hiPSCs and hESCs impacting therapies and disease modeling.

Examining how membranes shaped the early stages of life on Earth.

UPEC changes shape to survive and multiply in human bladder cells during UTIs.

Study reveals how fluorescent tags influence protein droplet formation in cells.

A new method enhances biological imaging without labels using holography and THG.

Introducing a framework for studying complex biological interactions using optimal transport theory.