Gene expression and pathway analysis constitute a critical nexus in modern molecular biology, facilitating the exploration of how genes collectively influence cellular functions and disease processes.

Gene expression analysis and RNA sequencing have transformed our understanding of molecular biology, offering a comprehensive view of transcriptomic landscapes in diverse biological systems. By ...

They say a picture is worth a thousand words. A new method, developed by University of Michigan researchers, creates images that are worth many gigabytes of data, which could revolutionize the way ...

Understanding the genetic mechanisms linking genome variations, such as single-nucleotide polymorphisms (SNPs), to phenotypes is challenging. Quantitative trait loci (QTLs) are genomic loci that ...

Explore RNA interference methods, comparing siRNA and shRNA for gene knockdown, their mechanisms, advantages, and ...

What if a cup of coffee could help treat cancer? Researchers at the Texas A&M Health Institute of Biosciences and Technology ...

We know the genes, but not their functions—to resolve this long-standing bottleneck in microbial research, a joint research team has proposed a cutting-edge research strategy that leverages artificial ...

A deep learning framework combines convolutional and bidirectional recurrent networks to improve protein function prediction from genomic sequences. By automating feature extraction and capturing long ...

Researchers used spatial transcriptomics to map gene expression in developing wheat spikes at single-cell resolution.

An exploratory study shows that combining short-term topical microdosing with gene-expression profiling can detect early drug ...