Cells, Free Full-Text
Por um escritor misterioso
Descrição
The primary cilium has gone from being a vestigial organelle to a crucial signaling hub of growing interest given the association between a group of human disorders, collectively known as ciliopathies, and defects in its structure or function. In recent years many ciliogenesis proteins have been observed at extraciliary sites in cells and likely perform cilium-independent functions ranging from regulation of the cytoskeleton to vesicular trafficking. Perhaps the most striking example is the non-ciliated T lymphocyte, in which components of the ciliary machinery are repurposed for the assembly and function of the immunological synapse even in the absence of a primary cilium. Furthermore, the specialization traits described at the immunological synapse are similar to those seen in the primary cilium. Here, we review common regulators and features shared by the immunological synapse and the primary cilium that document the remarkable homology between these structures.
Cells, Free Full-Text
Cell-Free DNA and Apoptosis: How Dead Cells Inform About the Living - ScienceDirect
Cell-free methods to produce structurally intact mammalian membrane proteins
Cells, Free Full-Text
Advancing synthetic biology through cell-free protein synthesis - ScienceDirect
Frontiers Combining Cell-Free Protein Synthesis and NMR Into a Tool to Study Capsid Assembly Modulation
Cell-free Macromolecular Synthesis
Iec/Ts 62886 Get File - Colaboratory
Remote immune processes revealed by immune-derived circulating cell-free DNA
Cell-Free Synthetic Biology for Pathway Prototyping - ScienceDirect
IJMS, Free Full-Text
Label-free, full-field visualization of red blood cell (RBC)
Cells, Free Full-Text
Fat extract promotes angiogenesis in a murine model of limb ischemia: a novel cell-free therapeutic strategy, Stem Cell Research & Therapy
