Diffusion coefficient of imidazol- 1-ylacetic acid (IMAC) in erythrocyte cytoplasm

Value 212 µm^2/sec Range: ±40 Table - link µm^2/sec
Organism Rat Rattus norvegicus
Reference García-Pérez AI, López-Beltrán EA, Klüner P, Luque J, Ballesteros P, Cerdán S. Molecular crowding and viscosity as determinants of translational diffusion of metabolites in subcellular organelles. Arch Biochem Biophys. 1999 Feb 15 362(2):329-38 Table - link PubMed ID9989943
Method The role of molecular crowding and viscosity on the apparent translational diffusion coefficient (ADC) of small metabolites was investigated in different subcellular organelles using the pulse-field gradient spin-echo 1H NMR technique. ADCs of metabolites with increasing radius of gyration (0.7 Å < RG < 4.5 Å) were measured in the cytoplasm of rat or chicken erythrocytes, in the nucleus of chicken erythrocytes, and in isolated rat liver mitochondria. Metabolite ADCs in these systems were compared with the corresponding ADCs determined in model solutions of increasing bulk viscosity but different molecular crowding.
Comments Rat erythrocyte suspensions (45% hematocrit). At 25 degrees celsius. n=13. Radius of gyration of IMAC=3.44 Angstrom
Entered by Uri M
ID 104646