carbon
The three molecules attached to glycerol backbone are long chain fatty acids.
the biological elements and compounds which is needed in order to complete and make the proper functioning of cells are termed as micro molecules
A molecule in a molecule is the smallest a molecule can be ( in easier terms)
The sugar that is found in DNA is called Deoxyribose
The glycerol backbone. The glyceol backbone undergoes metabolism to become glyceraldehyde-3-phosphate, which is one of the reactants in glycolysis. Two molecules of G3P becomes one molecule of glucose in a process that is the reverse of glycolysis called gluconeogenesis.
The backbone of the DNA molecule consists of a sugar, deoxyribose and a phosphate group. --(sugars and phosphates)
Phosphate and sugar molecules
The class of biological molecule that contains fatty acids is lipids.
The three molecules attached to glycerol backbone are long chain fatty acids.
Alternating deoxyribose and phosphate molecules
Its unique sidegroup, also called its radical (often indicated as an R in molecular diagrams). The common amino acid backbone only allows polymerization of these monomers into protein molecules.
Glycerol is a subunit molecule of a lipid. It is a three carbon alcohol that forms the backbone of most lipid molecules in the body.
Because it forms vital molecules such as DNA and RNA.
Anything that's not highly conserved which is 99% of biological molecules.
Enzymes are the organic molecules that act as biological catalysts.
The many ways that monomers of each class of biological molecule can be combined into polymers
First of all what is a biological molecule? Its a group of substances that make up and helps with proper functioning of a living organism. There are several different types of biological molecules: - Carbohydrates - Proteins - Salts - Lipids -etc.