DNA ( Deoxyribo Nucleic Acid) is held together by a hydrogen bond in between the two bases connecting the two backbones that make the "twisted ladder" shape. The backbones are held together by sugars and phosphates. They are usually called sugar-phosphate backbones.
Hydrogen bonds
Covalent bonds
Phosphodiester bonds
Sigma bonds
Pi bonds
Double bonds
When DNA is replicated, hydrogen bonds between the complementary bases are broken to allow for the double helix DNA strand to "unzip"
Covalent bond, hydrogen bond, Sulphur bridges, van der Waals forces of attraction.
Hydrogen Bonds.
They have a phosphodiester bond
A good one. :P
Hydrogen Bonds
Covalent bonding occurs between the nucelotides between the phosphate, deoxyribose sugar and organic base of a single DNA strand and hydrogen bonding holds the complementary bases of two DNA strands together.
Polar covalent
Almost all of the compounds of carbon are formed by covalent bonding. Compounds such as diamond and graphite show strict covalent character in bonding.
Bonds in organic compounds from oil are covalent.
Hydrogen bonding between the complementary, nitrogenous bases (cytosine, guanine, thymine, adenine) of the two polynucleotide chains.
DNA is held together by hydrogen bonding (aka H-bonding).
it has covalent bonding
hydrogen bonding between the two bases present on two strands of dna hold the two strands. If there was no hydrogen bonding then doublex helix structure of dna would not be possible
Covalent Bonding
Covalent bonding occurs between the nucelotides between the phosphate, deoxyribose sugar and organic base of a single DNA strand and hydrogen bonding holds the complementary bases of two DNA strands together.
hydrogen bonds
hydrogen bonds
Network
Polar covalent
Peptide bonding is the fundamental bonding in all types of Proteins.
The sugar that is found in DNA is known as deoxyribose.
Hydrogen bonding of nucleotide across to nucleotide.