That could describe a surfactant which can allow water to dissolve into oil by forming reverse micelles with the water on the inside with the polar phosphate heads effectively dissolved in the water andthe fatty tails protruding outwards dissolving into the oil.
Reverse micelles are able to hold relatively large amounts of water in their interior. In that way, a "pocket" is formed which is particularly suited for the dissolution and transportation of polar solutes through a non polar solvent.A lipid where two fatty acids and a phosphate group are attached to a glycerol molecule is known as a phospholipid.
phospholipid
yes.
A phospholipid consists of two fatty acids and a phosphate group bonded to a glycerol molecule.
Fatty acids and glycerol may combine to form monoglycerides, diglycerides and triglycerides (normal fats and oils). Addition of a phosphate group to a diglyceride will give a membrane lipid (phospholipid).
Lipid is a heterogeneous group of compound which are soluble in organic solvents but in soluble in water. Important groups of lipids are fats , oils, triacyl glycerol; phospholipids, waxes and terpenes including steroids and carotenoids.This last group ie carotenoids and steroids is the lipid that are not made up of fatty acid but they are composed of isoprenoid units, their examples are cholestrole and red pigment carotin of carrots.
the building block for a lipid is a Triglyceride.
I believe the phosphate give the phospholipid a polar region which allows it to interact with water (also polar). This is the basis for the formation of the lipid bilayer.
A phospholipid consists of two fatty acids and a phosphate group bonded to a glycerol molecule.
two layers of phospholipids called the lipid bilayer
Phospholipids are the type of lipids that break down into glycerol and phosphate when broken down through hydrolysis. Phospholipids are important components of cell membranes due to their amphiphilic nature, where the glycerol backbone is linked to two fatty acid chains and a phosphate group.
The phosphate group in a phospholipid molecule is located in the hydrophilic "head" region of the molecule, which is made up of glycerol, phosphate, and a polar group such as choline or ethanolamine.
A lipid is made up of glycerol and fatty acids. Lipids are diverse molecules that serve various functions in the body, including energy storage and cell membrane structure.
Fatty acids are used to make lipids in a cell. They also attach to a phosphate group to form phospholipids, the phosphate head being hydrophilic and the two fatty acid tails being hydrophobic, that are used to form the lipid bilayer in the cell membrane.
Fatty acids and glycerol may combine to form monoglycerides, diglycerides and triglycerides (normal fats and oils). Addition of a phosphate group to a diglyceride will give a membrane lipid (phospholipid).
The lipid that forms the framework of the cell membrane are phospholipids. Phospholipids are composed of two fatty acids, a glycerol unit, a phosphate group, and a polar molecule.
glycerol + two fatty acids +phosphate group
Most lipids are composed of some sort of fatty acid arrangement. The fatty acids are Fatty acids are composed of a chain of methylene groups with a Carboxyl functional group at one end.
The hydrophobic portion of the phospholipid molecule is the fatty acid tails. These tails consist of long hydrocarbon chains that do not interact well with water molecules, making them nonpolar and hydrophobic.
The building blocks of lipids are glycerol and fatty acids. However, triglycerol is only one type of lipid. Lipid is a large and broad class that also includes steroids, glycerophospholipid, and more.