amino acids
To form a molecule of fat, the two types of molecules that are needed are glycerol and fatty acid. One glycerol molecule attaching itself to three molecules of fatty acid will give one molecule of fat.
The organic molecules form proteins for the body.
I think it might be glycerol and fatty acids, according to my biology book.
A polymer. The smaller molecules are called monomers. For example, many glucose molecules (the monomers) linked together make a starch molecule (the polymer). Similarly, many amino acid molecules (the monomers) linked together form a protein molecule (the polymer). For more in formation about polymers, starting at the very beginning, see: http://pslc.ws/macrog/kidsmac/wiap.htm
Well its not ribersome supposed to be ribosome. Ribosome is an an organelle (an internal component of a biological cell) the function of which is to assemble the twenty specific amino acid molecules to form the particular protein molecule determined by the nucleotide sequence of an RNA molecule.
Amino acids!
Two monosaccharide molecules are needed to form one sucrose molecule.
To form a molecule of fat, the two types of molecules that are needed are glycerol and fatty acid. One glycerol molecule attaching itself to three molecules of fatty acid will give one molecule of fat.
2
It takes 2 monosaccharide molecules to form a maltose molecule. Those are 2 glucose molecules. So 2 glucose molecules join together to make 1 maltose molecule.
To form a molecule of fat, the two types of molecules that are needed are glycerol and fatty acid. One glycerol molecule attaching itself to three molecules of fatty acid will give one molecule of fat.
Molecules
How many monosaccharides are made up to make glucose molecule
Two glucose molecules form a maltose molecule.
The organic molecules form proteins for the body.
I think it might be glycerol and fatty acids, according to my Biology book.
There are exactly twenty amino acids that are the molecules that make up (comprise) the biologically active proteins found in and around The Cell.