Latest Articles for Biotechnology

Explore the roles of CpG islands and non-methylated islands in gene regulation.

Nova-ST enhances spatial transcriptomics for better RNA analysis in tissues.

A new model enhances accuracy in antibody design through better CDR structure predictions.

A new method improves 3D imaging of proteins using cryo-EM technology.

Methodology to enhance microbial traits in biotechnology through controlled evolution.

New methods improve understanding of protein structures and classifications.

A study reveals key findings on crystal nucleation in colloidal systems.

A method combining networks with linear regression enhances predictions in complex datasets.

Adaptive Digital Tissue Deconvolution improves accuracy in bulk transcriptomics analysis.

This article explores the properties and potential of switchback DNA in nanotechnology.

New random features improve Tanimoto coefficient applications in molecular machine learning.

A look into how bacteria manage protein degradation for survival.

Research reveals the complex interplay of coaxial stacking, nicks, and gaps in RNA.

Explore the significance of kinetoplasts in research and potential applications.

Recent studies reveal proteins linked to aging and longevity in centenarians.

New tools expand our understanding of protein function and production.

Bacteria use unique strategies to compete for iron in their environments.

Discover how plant breeding is evolving with genomic data and advanced selection methods.

A look into how an alga thrives in extreme conditions using carbon concentration.

MIXALIME enhances research on allele-specific expression in genetics using advanced statistical models.

Researchers improve DNA sequencing for better health diagnostics.

PtWAVE offers better detection of genetic changes in genome editing.

Scientists analyze bacteria's genetic codes for insights into their functions.

Researchers improve cancer therapies by refining antibody targeting methods.

New methods allow faster and cheaper antibody production using bacteria.

Research combines MSTN and FGF5 mutations for improved livestock traits.

New methods enhance cell analysis to improve disease treatment outcomes.

Explore methods for efficiently identifying minimal absent words across strings.

Explore how fiber networks respond to different forces and their elasticity.

Researchers use machine learning to better predict protein mutations and their effects.

A new method improves DNA compression for efficient data storage.

Proteinoid microspheres offer unique properties for computing and medicine.

New methods reveal insights into protein locations within mitochondria of yeast.

A look at managing microorganism populations in controlled environments.

A new method improves predictions of how drugs interact with targets, saving time and resources.

Investigating how self-assembly and phase separation influence polymer solutions.

DNABERT-2 enhances genomic data analysis through improved tokenization techniques.

Examining how riboswitches control gene activity in response to metabolites.

Scientists streamline bacterial DNA to enhance genetic modifications for biotechnology.

New neural network approach improves fluorescence lifetime imaging for medical applications.