Latest Articles for Biotechnology

CELL-Diff enhances protein imaging and sequence prediction for biological research.

Researchers improve DNA integration methods in human stem cells for better therapies.

Research reveals bacteria in Penang can break down poly(3-hydroxybutyrate).

Researchers create synthetic cells using innovative methods for advanced molecular interactions.

Researchers are revealing new targets for drug development through targeted protein degradation techniques.

Research on tumor cell line HG008 aids understanding of pancreatic cancer genetics.

RatXcan reveals links between rat genetics and traits like body length and BMI.

New approach estimates microbial growth without detailed tracking.

Insect cells show promise for sustainable meat production with high nutritional value.

This research highlights the role of sdAbs in targeting fibroblast activation protein.

Assessing FDR control in proteomics is vital for reliable research outcomes.

New methods to edit mitochondrial DNA show promise for treating diseases.

A new method merges atomic force microscopy with deep learning to improve protein shape prediction.

PocketXMol unifies molecular task approaches for better drug design and molecular analysis.

This study examines how different correction methods affect phase switching in DNA.

MAPred combines sequence and structure data for better enzyme function predictions.

Exploring how RL improves diffusion models for targeted outcomes.

New methods for protein removal could transform neuroscience research.

Introducing SimpleSBDD, a method streamlining drug discovery by optimizing binding affinity.

This study evaluates methods for predicting how mutated peptides bind to proteins.

Research reveals variability in how phages infect bacteria, impacting treatment effectiveness.

A novel QM/MM method enhances the study of enzymes using advanced computational techniques.

Biocomputing uses biological materials for efficient and energy-saving computation.

Scientists use machine learning to identify enzymes that break down plastic waste.

MuSIC combines fluorescent and DNA barcoding for better cellular analysis.

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

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

Microalgae may offer sustainable alternatives to combat plastic waste and pollution.

A new method for generating peptides with single sequence input enhances drug discovery.

This article examines how Chlamydia trachomatis divides without the protein FtsZ.

Study reveals CovR's role in controlling the immune response of Group B Streptococcus.

SHARP improves resolution of Hi-C contact matrices, leading to better genomic insights.

A study on correcting index misassignment in single-cell RNA sequencing.

Rag2Mol enhances drug discovery efficiency by integrating retrieval methods and machine learning.

MGSE offers a reliable way to estimate plant genome sizes using mapping data.

New strategies enhance speed and accuracy in long-read DNA processing.

C. incerta shows promise for enhancing protein production in biotechnology.

A comparison of tools for measuring poly(A) tail lengths using nanopore technology.

FilmCPI improves drug discovery by addressing data imbalance and enhancing prediction efficiency.

Research reveals promising uses of yeast cell wall in fighting cancer.