genomics

Explore proteomics concepts, approaches, and data analysis.

High-throughput sequencing technology supports mangrove protection efforts.

An immuno-oncology targeting panel accurately characterized tumor-resident immune cells and located pathologically and clinically relevant tumor microenvironment features. 

Emmanuel Naouri from Illumina discusses recent innovations that promise to support new and established next-generation sequencing (NGS) users.

In this symposium, an expert panel will discuss how sequencing and omics technologies enable unprecedented exploration of health and disease, from genetic disorders to cancer. 

Protein characterization can help scientists better understand how molecular events influence health and disease and identify causal factors for disease states.

A new study employs a multiomic approach to study how cytomegalovirus activation impacts breast milk bioactive factors and the infant microbiota.

Sequencing advances deliver comprehensive insights into how genomic variation drives cancer initiation and progression.

Scientists use multiomics to explore the biological continuum from gene to phenotype, identifying complex molecular mechanisms and pathways.

The emergence of innovative analytical methods empowers researchers to comprehensively characterize tumor samples.

Digital PCR is highly sensitive and precise, making it ideal for detecting rare targets and measuring small-fold changes.

In plants, sugar transport and microbial community composition go hand in hand. 

To accelerate research initiatives, scientists can utilize a platform that brings together over 14 petabytes of multimodal data. 

Humans have more in common with cows than mice when it boils down to bone marrow stem cells.

A new approach using two types of recombinases lets scientists insert larger DNA payloads into human pluripotent stem cells faster than ever before. 

Researchers use nanopore sequencing to advance microbiology and infectious disease research.

Jef Boeke and his team create intricate works of art on Petri dishes using a palette of yeast paints.

When chemical approaches for synthesizing longer DNA oligonucleotides plateaued, scientists turned to a one-of-a-kind enzyme.