Latest Articles for Biotechnology

New insights into how alginate gels flow in narrow spaces.

AlphaFold2 revolutionizes the prediction of protein shapes using deep learning.

FLAMES improves gene prediction from genetic studies, aiding complex trait analysis.

Innovative software uses algorithms to improve treatment response predictions in clinical trials.

Research reveals polyphenols hinder DNA quality in brown algae sequencing.

This research explores how active colloids self-organize through chemical reactions.

New methods reveal insights into microglial subtypes and their role in Alzheimer's.

Investigating how polymers move through confined spaces and its biological significance.

Understanding how mRNA localization impacts cell behavior and development.

New methods improve understanding of antibodies and their role in the immune system.

Research aims to make cultivated meat more efficient and reduce environmental impact.

Exploring the integration of digital twins and IoBNT in biotechnology.

New Bi2FC system enhances reliability in protein interaction research.

Research highlights how bacteria can break down ethylene glycol for recycling.

Research reveals key roles of i-motifs in gene regulation and cellular function.

idMotif aids researchers in visualizing and analyzing protein sequences for motif identification.

New methods reveal the independent nature of transcription factor binding.

Researchers enhance gene tagging using biotin-modified DNA for better accuracy.

Innovative methods improve the speed and effectiveness of monoclonal antibody development.

Examining how the nucleus grows and its effects on cell behavior.

A look at techniques for creating long-living mouse cells for research.

Learn how Monod kinetics enhances cell production efficiency in bioprocessing.

A look at the proteins and processes behind bacterial reproduction.

This study discusses creating an efficient k-mer model for RNA004 in nanopore sequencing.

DiscDiff enhances DNA sequence generation using advanced machine learning techniques.

Researchers use electroporation and CRISPR to edit sheep genes for improved growth.

CLIPZyme enhances enzyme discovery using machine learning for various applications.

A look at how technology influences cell behavior for better production.

PAPEORS shows promise for better chiral molecule detection in medical settings.

Synthetic cells mimic life functions, revolutionizing fields like medicine and biotechnology.

Advancements in predictive models improve treatment decisions for rectal cancer patients.

Enhancing biotechnology safety through machine learning security operations.

A new tool streamlines analysis of gene activity in tissue samples.

Research on improving microbial communities for better pollution breakdown.

Study reveals insights into gene duplication impacts on evolutionary traits.

A novel approach for improving cellular reprogramming strategies using deep reinforcement learning.

Researchers reveal a new approach to study protein shape changes and allostery.

Research into CPR1 offers hope for better soybean resistance against SCN.

Study reveals the role of circRNAs in Camelina seedling development.

AI is changing the way new drugs are developed, making it faster and more efficient.