Latest Articles for Biotechnology

New methods improve the design of CRISPR guide RNAs by addressing uncertainty.

A new approach reveals insights into gene regulation and its role in diseases.

Research on polyaniline microparticles reveals new possibilities in optical tweezers technology.

STAR+WASP improves measurement of allele-specific expression, addressing mapping bias effectively.

Researchers study how droplets move on polymer brush surfaces without external energy.

This research highlights how amino acid pairs influence protein detection accuracy.

New fluorescent proteins enhance monitoring of cellular activities and environmental changes.

Research shows carbon dots can enhance photosynthesis in plants and cyanobacteria.

A new approach to understanding protein function through genetic architecture.

Virus-like particles can control pH differences, impacting medicine and technology.

A novel reactor shows promise in converting CO2 into valuable chemicals efficiently.

Research on engineered bacteria offers hope in reducing plastic pollution.

Exploring efficient ways to produce curcuminoids using microbes for health and industry.

A new device improves protein analysis through advanced isoelectric focusing methods.

NOMELT offers a novel approach to protein stability in warm environments.

Research reveals how polymer brushes adapt when interacting with liquid droplets and vapor.

tFold enhances antibody and antigen structure prediction for better therapeutic developments.

Study reveals insights on REL2's impact on mosquito immunity and malaria resistance.

Exploring how cell shapes influence tissue stiffness and behavior under stress.

GenerRNA advances RNA design through deep learning for innovative medical applications.

Research uncovers complex bacterial defense strategies against viruses and genetic threats.

This study examines how light quality affects cyanobacteria growth and energy production.

AXSI reveals precise molecular distances in proteins like MalE.

Examining how Csm6 influences bacterial growth and viral resistance.

Research is advancing in developing drugs that target CCR2 for improved health.

New methods improve protein function prediction using smaller embeddings and structure searches.

New methods improve gene editing in P. palmivora, aiding plant disease management.

New methods improve protein analysis, revealing vital insights into their functions.

A new statistical approach improves analysis of genetic influences on metabolites.

Researchers study active polymers made from self-propelled droplets, revealing unique behaviors and structures.

Research harnesses transfer learning to improve protein design and function prediction.

A novel algorithm improves the comparison of large genomic datasets.

Study uncovers diverse microorganisms thriving in extreme conditions of Buhera soda pans.

Research on axolotls reveals new methods for studying nerve connections and regeneration.

A novel approach using vaults improves AAV therapy against neutralizing antibodies.

New tools enhance analysis of cell behavior in tissues.

New methods simplify creating bispecific antibodies, improving cancer treatment possibilities.

Research reveals a method for converting lignin into valuable products using bacteria.

Oxygenases are key enzymes improving environmental and biotechnological processes.

Researchers are working to improve crops using cyanobacteria and algae for better carbon capture.