Researchers have created one of the most comprehensive spatial maps showing how bone and skeletal muscle communicate at the ...
A study reveals that human red blood cell development relies on cell clustering via ICAM4 rather than a central macrophage.
A new study generated one of the most comprehensive spatially resolved transcriptomic maps of cellular communication between ...
The rapid evolution of omic technologies such as spanning genomics, transcriptomics, and proteomics, is reshaping how we ...
In 2024, n6 introduced icon96 ™, redefining expectations for PCR amplification in NGS library preparation. By monitoring each well in real time and stopping amplification the moment a sample reaches ...
Virtual cell models that enable the prediction of cell behavior across scales and biological contexts are rapidly emerging at the forefront of drug discovery. Tom Sercu, PhD, vice president of AI and ...
Next-generation instruments improve rare-cell detection, sterility control, biosafety, and throughput for translational ...
This three-part webinar series brings together leading researchers to explore how spatial biology is evolving - from data ...
As scientists gain a deeper understanding of how the body’s immune system remembers pathogens it must fight, the paradigm for ...
The field of cancer genomics is rapidly evolving, driven by advanced technologies that enable detailed characterization of cancer initiation, progression, ...
A $13.3 million federal grant will support a Cornell-led research effort aimed at answering one of immunology’s most difficult questions: How immune cells communicate inside living tissue as ...