Latest Articles for Molecular Biology

Exploring the critical processes involved in meiosis and its role in reproduction.

An exploration of how amino acid chirality affects protein interactions.

Investigating how SMARCAL1 and FANCM protect against genome instability and their implications for cancer treatment.

Explore how spontaneous mutations influence genetic information and evolution.

Study reveals IP6's impact on gammaretrovirus and lentivirus replication processes.

Research on non-natural amino acids could reshape protein applications in science and medicine.

Introducing a lightweight approach to enhance protein engineering through mutation prediction.

New insights into gene expression and cellular diversity in H. bakeri.

New research shows how T cells may harm dopamine-producing neurons in Parkinson's Disease.

Telomeres protect genetic information during cell division, crucial for cellular health.

SHAMAN identifies binding sites on dynamic RNA structures for drug development.

BTB proteins are key players in gene regulation and development across various organisms.

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

Exploring hybridization chain reaction for rapid HIV detection in low-resource areas.

Examining how ORF48 influences KSHV's ability to evade the immune system.

A novel method for studying E3 ligases and their substrate interactions.

BRAKER3 enhances genome annotation accuracy with diverse data sources.

racoon_clip simplifies the analysis of RNA-binding protein interactions.

Reindeer enables accurate quantification of RNA variations in large datasets.

piRNAs regulate genetic elements and maintain genomic integrity.

Discover the role and structure of kinetochores in chromosome separation.

New research shows how magnetite could influence the development of homochirality in early life.

A novel tool to simplify nanopore sequencing data interpretation.

New algorithm improves understanding of complex satellite DNA structures.

CRISPR-Cas9 technology offers new possibilities in gene editing with notable challenges.

Exploring the role of PTEN in GBM therapy advancements.

A new tool enhances the study of low-abundance RNA types in real time.

CHEUI offers a new way to detect RNA modifications, enhancing biological research.

New findings on MAGMAS and BT9 in treating childhood brain cancer.

Mad2 ensures correct chromosome separation during cell division to prevent genetic issues.

Nonsense-mediated mRNA decay protects cells from faulty proteins and regulates gene expression.

This study reveals how DFDs enhance our immune system's response to threats.

Investigating how MYRF-1 influences the expression of lin-4 in worm development.

Loops significantly influence chromatin movement and gene expression.

Exploring how biological systems maintain stability while adapting to environmental changes.

Investigating how intron retention affects protein diversity and plant traits.

Research sheds light on RNA's role in early life formation.

Examining the unique properties and phases of semiflexible polymers under varying conditions.

MAGPIE offers a new approach to visualize protein-ligand interactions in three dimensions.

Research reveals how mechanosensitive channels in plants respond to different pressures.