Latest Articles for Genetic Engineering

New tools and methods aim to improve plant traits for sustainability.

Recent methods improve protein design and functionality using computer techniques.

New methods enhance the design process for DNA and protein sequences.

Hydroporation enhances CAR-T cell therapy by improving T-cell viability and targeting effectiveness.

SNAP-PROTACs enhance protein study and targeted degradation techniques.

Study reveals negative effects of EYFP on muscle performance and structure.

A novel technique enhances the measurement of ribozyme activity across various contexts.

This study reveals how microbes interact through nutrient sharing and competition.

Examining auxin's impact on plant growth and somatic embryogenesis.

Examination of DNA polymerases' interactions with PST-modified DNA highlights unexpected replication behaviors.

Researchers investigate enzyme behavior directly in living cells for better insights.

Cyanidioschyzon merolae offers unique opportunities in genetic engineering and sustainable production.

Research on improved plasmids enhances gene expression and natural product yields in fungi.

An overview of how bacteria swim using flagella and ion-powered systems.

Research on engineered bacteria could transform treatments for resistant infections.

Explore how integrative and conjugative elements impact bacteria and antibiotic resistance.

A new framework for guiding generative models to achieve specific outputs.

Research reveals how Francisella tularensis uses CRISPR for survival.

Research reveals potential for enhancing rice yield through SiR promoter.

Researchers enhance vaccine safety and efficiency by modifying MDCK cells.

Research explores new methods for genetic improvement in crops using CRISPR technology.

New genetic research sheds light on P. falciparum and malaria treatment strategies.

CRISPR and trimology integration enhance precision in gene editing for medicine and agriculture.

Study reveals the role of ring nucleases in bacterial immune responses.

Study explores how mutations affect enzyme activity and binding with sugars.

Exploring the role of low oxygen levels in disease management.

SciPhy offers new methods for tracking cell lineage and growth dynamics.

A new method for building multi-gene expression systems efficiently.

Research reveals how AcrIIA4 inhibits Cas9, guiding future CRISPR innovations.

Researchers enhance DNA delivery in diatoms, promising advances for sustainable food production.

New methods streamline the transformation of plants for better crops.

Plants develop unique defenses to combat harmful microbes and pathogens.

Research targets ribosome modifications to enhance protein production in synthetic biology.

Exploring the impact and potential of CRISPR-Cas9 in biotechnology.

This study reveals new insights into how bacteria regulate gene expression using σ-factors.

Pathogens use proteins to weaken plant immune systems, revealing important defense mechanisms.

This article examines how bacteria use cAMP for environmental response and adaptation.

Scientists develop gene drives to manage pest populations and diseases effectively.

This research explores new methods for creating synthetic gene circuits using CRISPR.

Research explores engineering ferredoxins to control electron transfer in biological systems.