九游体育 News
Pesticide disrupts neuronal potentiation
New research reveals how deltamethrin may disrupt brain development by altering the protein cargo of brain-derived extracellular vesicles. Read more about this recent Molecular & Cellular Proteomics article.
A look into the rice glycoproteome
Researchers mapped posttranslational modifications in Oryza sativa, revealing hundreds of alterations tied to key plant processes. Read more about this recent Molecular & Cellular Proteomics paper.
Proteomic variation in heart tissues
By tracking protein changes in stem cell鈥揹erived heart cells, researchers from Cedars-Sinai uncovered surprising diversity 鈥 including a potential new cell type 鈥 that could reshape how we study and treat heart disease.
Meet Lan Huang
Molecular & Cellular Proteomics associate editor uses crosslinking mass spec to study protein鈥損rotein interactions to find novel therapeutics.
Innovative platform empowers scientists to transform venoms into therapeutics
Scientists combine phage display and a 鈥渕etavenome鈥 library to discover new drugs that bind clinically relevant human cell receptors. Read about this recent Molecular & Cellular Proteomics paper.
Scientists identify pan-cancer biomarkers
Researchers analyze protein and RNA data across 13 cancer types to find similarities that could improve cancer staging, prognosis and treatment strategies. Read about this recent article published in Molecular & Cellular Proteomics.
New mass spectrometry tool accurately identifies bacteria
Scientists develop a software tool to categorize microbe species and antibiotic resistance markers to aid clinical and environmental research. Read about this recent article published in Molecular & Cellular Proteomics.
New tool matches microbial and metabolic metaproteomic data
Scientists develop a bioinformatics program that maps omics data to metabolic pathways. Read about this recent article published in Molecular & Cellular Proteomics
Sweet secrets of sperm glycosylation
Scientists from Utrecht University uncover similar glycosylation patterns in sperm from bulls, boars and humans, distinct from those found in blood across species. These findings may improve IVF and farming techniques.