How spatial biology is unveiling new dimensions in research
Dr. Ana de Oliveira from the Spatial Biology Core at UVA discusses the potential of the field to supercharge research across sectors
Dr. Ana de Oliveira from the Spatial Biology Core at UVA discusses the potential of the field to supercharge research across sectors
Discover how researchers are better understanding human eye disease by characterizing the subtype diversity and development of RGCs
MIT engineers design the first synthetic circuit that consists entirely of fast, reversible protein-protein interactions
the In silico analysis of lineage B.1.1.529 (Omicron) is applicable to the VIASURE range of products
Promega and Incyte intend to work together in the future to develop the Promega OncoMate MSI Assay as a companion diagnostic
This special feature explores how researchers are examining the microenvironment of complex tumors, and highlights the recent advancements in microscopy and the latest discoveries driving progress in spatial biology research
Discover the latest products that have earned Seal of Quality awards, including a never-before-seen triple platinum announcement
Discover the latest tools and techniques to expand your research capacity with expert-led presentations on CAR T-cell therapy, ISO standards, novel gene identification, and more
Shotgun metagenomic sequencing is designated to sequence the total genomic DNA from environmental samples without the prior isolation and cultivation of individual species. The services are applied for studying the rich genetic repertoire of microbial communities with taxonomy information, and for studying system evolution, gene function, and metabolic network of environmental microorganisms.
Protein Extraction From Human Blood Conduits With Minilys
OncoSpan range expanded to include FFPE and cfDNA formats to mimic solid tumors and liquid biopsy samples, respectively
Horizon Discovery has announced a new B cell screening service to support the development of therapeutics for immune system diseases
The first RNA-guided DNA-cutting enzyme found in eukaryotes, Fanzor could one day be harnessed to edit DNA more precisely than CRISPR/Cas systems