Latest Articles for Biomedical Research

AlphaProteo uses machine learning to design effective protein-binding proteins for research and medicine.

This article examines how epithelial cells behave under compression.

Learn how alternative splicing impacts proteins and gene predictions.

Research sheds light on how RyR clusters affect heart rhythms.

New methods enhance RNA sequence generation and optimization, impacting gene regulation.

UVAE tackles challenges in flow cytometry data analysis effectively.

AI is transforming how researchers create virtual cells to study biological processes.

DBiTplus combines RNA and protein analysis for better cell insights.

Using machine learning to model electrical signals in the heart.

TDC-2 enhances research in drug development through better data access and multimodal models.

RRD-Bio offers a centralized hub for over 2.5 million biomedical research resources.

Research highlights the roles of mitochondria and DNA methylation in Alzheimer's disease.

GATher improves the prediction of drug targets using advanced graph technology.

A look into metal-organic frameworks and their growing significance in science.

A new framework improves tracking of T cell behavior in research.

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

A look at how multicomponent vesicles behave in flow and their relevance to biology.

This research reveals how heart cells move and cooperate during formation.

Discover how RNA-GPT is revolutionizing research on RNA and its functions.

This article presents a new method for studying particles in electric fields.

New methods enhance document categorization and answer extraction for researchers.

ZiPo offers a fresh method for analyzing gene expression in single-cell studies.

New research shows low-performing models can offer valuable insights into feature importance.

Researchers develop powerful models for analyzing cell images to aid drug discovery.

VaxLLM enhances vaccine data extraction for better public health insights.

Innovative methods are improving the analysis of genetic data across multiple species.

Research proposes methods to find common elements in unaligned multi-modal data.

New methods improve imaging of biological tissues without altering their natural state.

Innovative CRISPR method enhances gene analysis in retinal diseases.

Learn how protein compartments help bacteria survive and clean up pollutants.

A new method reduces labeling effort in cell nuclei detection while maintaining accuracy.

AI and data standards improve health research efficiency and data management.

A new tool enhances DNA analysis using GPU technology for faster results.

COEXIST method enhances tissue analysis by integrating data from multiple sections.

Learn how polymorphonuclear leukocytes protect us from infections.

Explore how tiny motors within cells compete to transport cargo.

Discover how cells communicate through complex signaling processes.

New method improves cardiovascular simulations, saving time and enhancing surgical planning.

Uncovering the crucial role of microRNAs in managing gene expression and protein production.

Discover how new technologies are reshaping our understanding of heart diseases.