Latest Articles for Biotechnology

Scientists evaluate rejuvenation techniques using aging clocks to measure biological age.

New methods improve accuracy and speed in identifying small molecules.

Research focuses on enhancing lipid output in microalgae for sustainable fuel.

Researchers use magnetic fields to influence bacterial movement and behaviors in liquid environments.

Espaloma introduces machine learning to improve molecular simulations and drug discovery.

Researchers develop new protein scaffolds for targeted therapies.

Recent developments in optogenetics enhance our understanding of brain function and neuron stimulation.

A new R package offers solutions for managing microbial growth data analysis.

Kernel-based testing enhances insights into single-cell behavior and characteristics.

Investigating disease resistance in sugar beet through genome assembly and candidate gene identification.

A simple approach to create diverse microbial groups for research and biotechnology.

Research reveals how light helps bacteria degrade penicillin G.

Nictaba, a plant lectin, plays key roles in stress responses and carbohydrate interactions.

A Bayesian framework improves accuracy in analyzing protein levels in biological studies.

Introducing PLANTAIN, a fast method for predicting ligand poses in drug discovery.

TIP60 plays a key role in regulating mRNA production and stability.

Learn how cations influence DNA movement and interactions in biological and laboratory settings.

Recent research sheds light on genetic factors and splicing related to breast cancer.

Discover how advanced computing is transforming protein engineering methods.

Nanomotors display unique behaviors influenced by complex chemical patterns.

New methods in genetic code expansion enable powerful protein design.

DeepES reveals candidate genes for orphan enzymes linked to gut health.

Research highlights advancements in understanding treatment resistance in prostate cancer.

Research reveals the dual roles of gene regulatory elements in health and disease.

Examining how the arrangement of materials affects shape and function in bacterial compartments.

A new model reshapes protein backbone design for better structure generation.

A study reveals how the Asesino virus organizes its replication without tubulin.

Study reveals how phages affect Enterococcus faecalis through protein changes.

New plasmid design enhances gene editing efficiency and simplicity.

A deep dive into protein structures and their evolutionary relationships.

Explore how bacteria protect themselves from phages through the BREX system.

Recent models enhance predictions for antibody interactions with key antigens.

T-ChIC offers insights into gene activity and histone modifications during cell development.

This study examines the effects of lectins on bladder cancer cell movement and growth.

Researchers are modifying gut bacteria using engineered lysins for improved health.

Research focuses on techniques for optimizing microbial species interactions.

Discover how carboxysomes aid bacteria in capturing carbon dioxide.

Magnetic nanoparticles show promise in cancer treatment and cell behavior manipulation.

Research reveals how bacteria get trapped close to surfaces and its implications.

Study reveals low methylation in mitochondrial DNA of Arabidopsis thaliana.