- Cell: Cell Press
Cell publishes findings of unusual significance in any area of experimental biology, including but not limited to cell biology, molecular biology, neuroscience, immunology, virology and microbiology, cancer, human genetics, systems biology, signaling, and disease mechanisms and therapeutics
- Cell Press: Home
Publisher of over 50 scientific journals across the life, physical, earth, and health sciences, both independently and in partnership with scientific societies including Cell, Neuron, Immunity, Current Biology, AJHG, and the Trends Journals
- The structure of human sweetness: Cell
Over 20 years ago, the mammalian sweet taste receptor was identified using a combination of genetics, cell-based assays, and mouse knockout studies 1,2,3 Notably, a single sweet receptor recognizes the diverse universe of sweet-tasting compounds, including natural sugars, artificial sweeteners, D-amino acids, and a class of intensely sweet
- Issue: Cell
Despite initial forays into clinical settings, single-cell technologies do not yet routinely inform medical decision-making Here, we identify and categorize barriers hindering the clinical deployment of single-cell omics
- CD36-mediated endocytosis of proteolysis-targeting chimeras: Cell
In our studies, pull-down of potential interacting proteins from cell membrane lysates with biotinylated probes and sequential mass spectrometry analyses identified key clathrin endocytic cascade-associated proteins, including clathrin heavy-chain-1, clathrin adaptor protein 2 complex (AP-2), and Rab5 20 Rab-5 KD decreased protein degradation
- Unraveling mitochondrial influence on mammalian . . . - Cell Press
Over decades of research, the mitochondrion has surpassed its stereotypical portrayal as the ATP-producing powerhouse of the cell, and they are now recognized for their essential roles in various cellular processes, including the regulation of cell death, differentiation, signal transduction, aging, and developmental timing 4,5,6,7,8 However
- A host organelle integrates stolen chloroplasts for animal . . .
These slugs feed on marine algae by piercing cell walls with their radula, sucking out the cell contents, 1 and ingesting and sequestering stolen, photosynthetically active chloroplasts into the cells lining their intestinal diverticula 2,3,4,5,6 (Figure 1 A)
- Tracing the evolutionary history of the CCR5delta32 . . . - Cell Press
Xu, M CCR5-Δ32 biology, gene editing, and warnings for the future of CRISPR-Cas9 as a human and humane gene editing tool Cell Biosci 2020; 10:48 Crossref Scopus (22) PubMed
|