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Two single chains bond together. The bonded chains twist together to form a double helix.
It can form four bonds. It is small and can form long chains
The backbone of a DNA chain is sugar and phosphate groups of each nucleotide.
Instead of forming one chain like many proteins and polymers, DNA is in the form of paired chains or strands. It has the shape of a twisted ladder, known as the double helix.
The Ural Mountains form the backbone of Russia.
4 polypeptide chains, each bound to a heme group to form hemoglobing
Carbon is unique because it can form four bonds, allowing it to act as the backbone for many molecules, and also because of the many structures it can form (rings, linear chains, double-bonded chains, triple-bonded chains, flat sheets, and buckminsterfullerene.
Two single chains bond together. The bonded chains twist together to form a double helix.
It can form four bonds. It is small and can form long chains
The links in a polymer chain are covalent bonded.
Three water molecules will be removed to form a triglyceride composed of three fatty acid chains and one glycerol molecule. One molecule of water is removed for each bond between a fatty acid and the glycerol molecule, for a total of three water molecules removed.
They are fatty acids; they are attached to a glycerol molecule to form a lipid.
Vertebrae are the bones that form the backbone.
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).
zigzag patterns
An acyclic organic molecule is an open chain compound, for example alkanes and acyclic aliphatic compounds. A cyclic organic molecule is a molecule in which a series of atoms connect to form a loop or ring.
The backbone of a DNA chain is sugar and phosphate groups of each nucleotide.