membrane fluidities การใช้

• For all cells, membrane fluidity is important for many reasons.
• Sterols contribute to membrane fluidity by hindering the packing together of phospholipids.
• Partitioning preference of probes can also be a gauge of membrane fluidity.
• This is critical for synaptic transmission and membrane fluidity.
• All of these effects bet on membrane fluidity.
• In animal cells, membrane fluidity is modulated by the inclusion of the sterol cholesterol.
• Membrane fluidity can be described by two different types of motion : rotational and lateral.
• Rearrangements of glycosphingolipids, phospholipids, as well as cholesterol explains changes in membrane fluidity.
• Increased PUFA concentrations decrease the membrane fluidity and help the bacterium thrive in the cold temperatures.
• This then decreases membrane fluidity, allowing the cell to keep more molecules from crossing the membrane.
• Cholesterol serves multiple roles in the cell including modulating membrane fluidity serving as a precursor to steroid hormones.
• Furthermore, IFITM proteins reduced membrane fluidity and affected membrane curvature to restrict viral membrane fusion with the cellular membrane.
• The omega-6 fatty acid to omega-3 fatty acid ratio is important to avoid imbalance of membrane fluidity.
• The lipids consist mainly of unsaturated fatty acids, which has various physiological functions such as the maintenance of cell membrane fluidity.
• As I get it, one of the reasons is to maintain membrane fluidity under a variety of temperature and salinity conditions.
• Given its polyunsaturated nature it has been proposed that this molecule is produced as part of a response to maintain optimal membrane fluidity.
• Biological membranes in eukaryotes also contain another class of lipid, sterol, interspersed among the phospholipids and together they provide membrane fluidity and mechanical strength.
• The ratio of stearic acid to oleic acid has been implicated in the regulation of cell growth and differentiation through effects on cell membrane fluidity and signal transduction.
• These differences have been attributed to the remodeling of membrane phospholipids in order to regulate membrane fluidity and the accumulation of physiologically important fatty acids such as arachidonic acid.
• By decreasing the membrane fluidity, the cell is able to decrease the movement of the phospholipid molecules, which stops the unwanted movement of molecules across the membrane.