Most do "dissolve" in CHCl3, but it depends on how many fatty acids, and what they are.
chloroform
Phospholipids are produced in cell membranes.
Phospholipids are the major component of cell membranes.
phospholipids
Phospholipids are a major component of the cell membrane.
Stearic acid is soluble in chloroform, so it would dissolve if added to chloroform.
Chloroform and Chlorophenol
chloroform
i think chloroform would dissolve polypyrrole....
question itself is wrong, chloroform is solute and ccl4 is solvent, solute should dissolve in solvent and solvent cannot dissolve in solute
No it does not. PVC is poly vinyl Chloride.
Depends on the Phase you are trying to dissolve in the fatty acid chain are the hydrophobic component of phospholipids so they dissolve in non-polar solutions and don'e dissolve in polar ones. of course this all depends on other conditions
Since phospholipids make up cell membranes, it is important for them not to dissolve in water, because the internal and external environment of cells is aqueous. Without the phospholipid bilayer, the cells and their environments would just all dissolve into each other and there would be no cells.
benzene, toluene, chloroform, dichloromethane, ethyl acetate
Chloroform; it is a polar molecule (like water) as opposed to carbon tetrachloride, which is nonpolar (a tetrahedral shape with identical bonds and electronegative pulls that balance out). Like substances dissolve like substances, thus chloroform dissolves more in water.
Phospholipids consist of a backbone of glycerol or sphingosine connected to fatty acids, a phosphate group, and other molecules that vary with the type of phospholipid. They are amphipathic, meaning that each of their molecules has a hydrophilic (water-loving) head and a long, hydrophobic (water-insoluble) tail. Thus, phospholipids can dissolve in both water and oil. Read more [related links]
No. CHCl3 (Chloroform) is insoluble in water. Chloroform when mixed with water, will form two liquid layers and Chloroform will form the bottom layer. This nature of chloroform is explored in several biological and chemical techniques such as DNA isolation, separation of phyotochemicals etc