The bond linking a phosphate group to a sugar of a another molecule is called a phosphodiester bond
Hydrogen Bonds
Covalent Bonds ;-)
Phopho
ionic bonds :)
Ionic bonds
In sodium metal the atoms are held together by metallic bonds.
weak hydrogen bonds hold together sugars and phosphates
Because heat breaks the bonds and forces which holds the structure together.
Sugar phosphate groups in nucleic acids serve as the backbone that holds the nucleotide units together through phosphodiester bonds. They provide structural stability to the DNA or RNA molecule and help in maintaining the overall shape of the molecule. Additionally, sugar phosphate groups can also participate in interactions with proteins and other molecules during processes like transcription and replication.
First off - it is important to understand that a nucleotide (the monomer of DNA) is composed of 3 things: a sugar, a phosphate group, and a nitrogenous base. Next - understand that the "backbone" of DNA is composed of the sugars and phosphates. That leaves you with nitrogenous bases. Hydrogen bonds form between the nitrogenous bases off opposite strands in the double helix. THIS is what holds the double helix together.
Bonds hold atoms together. There are hydrogen bonds, ionic bonds, and covalent bonds.
The two sides of DNA are the sugar-phosphate backbone, which provides the structural support for the molecule. The helix is held together by hydrogen bonds between the nitrogenous bases on each side of the DNA molecule.
Generally hydrogen bonds between the different base pairs holds the double helix together.
two hydrogen bonds holds adenine and thiamine together and three hydrogen bonds holds guanine and cytocine.
Strong hydrogen bonds.
glycosidic bonds
phosphoester linkages
bonds
Hydrogen bonds
Covalent Bonds