Proteomics Feeling like the dog that caught a car now that you have all this proteomic data? So, once we have all of this amazing proteomic data, what do we do with it???
Proteomics Structure equals function might be the most important phrase in proteomics Proteomics: It’s all about the structures!
Proteomics Mass spec is primed to lead the next proteomics revolution Mass Spec is leading the charge in bringing high-throughput proteomics to a lab near you.
Proteomics How to do proteomics using a high throughput sequencer Multiplex aptamer/antibody arrays are a gateway drug to get genetics people to embrace proteomics.
Proteins There are more than 20 amino acids You might have been told that there are 20 amino acids. That’s a lie.
Proteomics The future of high throughput proteomics is unfolding right in front of us High throughput proteomics could revolutionize our understanding of human disease, but it's going to take some major innovations to get us there!
Proteomics The proteasome and lysosome decide what proteins live or die The importance of taking out the trash: An overview of cellular protein degradation pathways.
Proteomics Translation complicates the proteome, big time! Translating the Proteome: There’s more to making proteins than just transcribing DNA into mRNA.
Nanopores Will nanopores enable single molecule protein sequencers? Brain storming about nanopore based protein sequencing generates new hypotheses to test
Proteomics Proteoforms make proteomics infinitely more complicated than genomics Proteoforms: This is where things start to get complicated.
Proteomics The proteome is so hot right now The Proteome: we can’t live without it, but, what actually is it?
Paid-members only Proteomics Will Nautilus Biotechnology ever release their proteome fingerprinting product?
Proteins Green Fluorescent Protein was first discovered in Jellyfish in 1960 In 1994, an obscure jellyfish protein was stuck into a worm. It has enlightened biology and medicine ever since.
Proteomics PROTACs and LYTACs: How therapeutics can take advantage of proteomic garbage men Cells are biological marvels, but even they need help taking out the trash sometimes.
Proteomics Resolving the proteome with single-cell and spatial proteomics. Single-cell and spatial proteomics: a more refined future.
Proteomics Proteomics is a data deluge. Taming the firehose is still a work in progress. Once we have all of this amazing proteomic data, what do we do with it???
Proteomics Fred Sanger, the father of DNA sequencing, cut his teeth doing protein sequencing and snagged a Nobel in the process! Fred Sanger received a Nobel Prize for his work with Insulin. As the father of DNA sequencing, this surely was for insulin's nucleic acid sequence? It wasn't.
Proteomics Multiplex aptamer/antibody arrays are a gateway drug to get genetics people to embrace proteomics Multiplex Apater and Immuno Affinity Arrays are perfect for getting people excited about the power of proteins!
Proteomics Sickle Cell Anemia was molecularly characterized in 1949 using a revolutionary new technique: electrophoresis Sickle Cell Anemia was the first inherited disease to be molecularly characterized. It was done in 1949 using a revolutionary new method: electrophoresis.
Proteomics Protein sequencing is the latest cutting edge technique in our proteomics toolkit Protein sequencing is the latest cutting edge technique in our proteomics toolkit. But when will it be ready for primetime?
Proteomics Mass Spec is leading the charge in bringing high-throughput proteomics to a lab near you Mass Spec: It's not just for chemistry nerds anymore.
Proteomics There are lot's of cool new ways to measure the proteome! High throughput proteomics could revolutionize our understanding of human disease, but it's going to take some major innovations to get us there!
