Latest Articles for Molecular Biology

Research reveals how cell shape changes impact animal development.

A new method for studying enzyme interactions and activity in real time.

NDPKs are key enzymes in cellular processes and cancer research.

scooby improves gene behavior predictions at the single-cell level using DNA sequences.

TwinC model reveals insights into DNA interactions and gene regulation.

An overview of how clathrin influences cellular uptake processes.

A look at how actin influences cellular material uptake.

Centrosomes manage microtubules and are crucial during cell division.

New methods improve molecular design by measuring prediction uncertainty.

Study reveals how zebrafish Rh2-1 and Rh2-4 opsins absorb light differently.

Examining the impact of HDAC inhibitors on lung cancer treatment responses.

Researchers are uncovering the complexities of RNA viruses through innovative methods.

Research highlights the roles of IGF2BP3 and autophagy in TNBC progression.

Scientists develop yeast-based systems to study coronaviruses and test antiviral drugs.

DKK2 is vital for cancer cell growth and spread in colorectal cancer.

Study reveals complex interactions of amino acids affecting protein function.

Scientists uncover diverse structures and functions of Orthornavirus proteins.

Study reveals key factors in microexon splicing and their implications.

Research reveals how DNA link styles affect curvature and material properties.

Hybrid approach improves simulations of complex molecular behaviors using expert knowledge and data.

A guide to preparing and studying nucleosome structures using beta-casein.

Study reveals how YEATS2 and GCDH drive cancer cell invasiveness.

Examining the impact of transcription factors on gene expression in various organisms.

Moco is vital for many enzymes involved in essential biological processes.

CTCF protein is vital for DNA arrangement and gene regulation.

This article examines traditional and protein language model approaches to studying protein evolution.

Rev7 plays a crucial role in DNA repair processes, influencing genome stability.

T-Hop framework leverages path information for better predictions in drug discovery.

New elliptical cylinders improve measurement of DNA twisting and turning.

Study reveals protein interactions critical for chromosome organization.

This technique reduces background noise in cell imaging using DNA-PAINT.

RiboGL enhances understanding of ribosome behavior in protein translation via a graph-based approach.

Investigating how PRMT1 influences HPV and its potential cancer implications.

This article explores how RNA and Pol ζ contribute to DNA repair mechanisms.

This study examines how codon choices impact mRNA stability and translation efficiency.

Study reveals the complex factors shaping codon usage bias in yeast species.

A fresh approach enhances drug candidate generation and effectiveness in pharmaceutical research.

New methods enhance protein labeling for scientific research.

DFMDock integrates sampling and ranking to enhance protein docking predictions.

New methods improve ribosome counting, shedding light on their role in cells.