proteomics

Extracting nucleic acids and proteins gently from samples increases experimental success.

Scientists combine spatially resolved imaging analyses with cutting edge single cell techniques for greater insight into fundamental and disease relevant pathways.

Where and how human papillomavirus integrates itself into the human genome steers the infection’s clinical outcomes, finds a large, multifaceted study.

Explore how biomolecular processes drive health and disease.

A previously unknown kind of ribosome is responsible for folding sperm proteins, which decay before fertilization if prepared by other ribosomes.

This year’s crop of winning products features many with a clinical focus and others that represent significant advances in sequencing, single-cell analysis, and more.

The molting fluid of ant pupae functions as “metabolic currency” in the ant colony and may have enabled the evolution of eusociality. 

Learn how the latest single-cell proteomics technology is revolutionizing protein analysis and driving research progress.

Before their own central clocks develop, the brains of fetal rats detect their mother’s metabolic cycle to help regulate the expression of certain genes.

Miriam Merad and Harrison Specht will discuss how single cell proteomics complement other omics methods to provide insight into disease pathophysiology and treatment.

In this webinar, an expert panel will discuss nucleic acid recovery and sequencing methods from biological samples found in unusual habitats.

Explore how technology enables large-scale proteomics for biomarker discovery and clinical application.

Reconstructing the diet and microbiome of human ancestors shows an astonishingly rapid loss of microbiome diversity.

An expert panel will discuss how a functional cell library confirms critical insights from previous omics studies. Additionally, they will introduce an innovative platform that connects single cell transcriptomics with functional proteomics for the first time.

Probing the protein landscape in lung cancers reveals new therapeutic insights.

Microclots in blood plasma may be behind Long COVID’s chronic symptoms.

3-D brain atlases help scientists better understand brain function in physiological and pathological situations.

Researchers optimize technologies to simultaneously obtain proteomic and transcriptomic data from single cells.

Timothy O’Sullivan and Jacob Blum will discuss how they use single cell data to understand complex biological systems.

An expert panel will discuss how single cell multiomic techniques shed new light on immune cell heterogeneity and immune function.