Covalent bonds that sugar as one of one nucleotide to the next bond is together done come together as a DNA strand. This is taught in science.
Covalent bond
Phosphate
helix
sugar
base
phosphate
Phophodiester bonds are the one that connect the nucleotides next to each other on the same strand. Weak hydrogen bonds join the two complementary nucleotides and thus the two strands of the DNA together.
Between nucleotides, there is a phosphodiester bond between the phosphate group of one nucleotide and the sugar of another nucleotide. Nucleotides (such as Adenine and Thymine) are held together on two strands of DNA through hydrogen bonding. This doesn't keep nucleotides together in a strand, but helps in the structure of two corresponding strands of DNA.
Nucleotides in both DNA and RNA are bound by phosphate ester bonds. See the following link for a detailed discussion: http://www.ncc.gmu.edu/dna/structur.htm
Covalent bonds between a sugar molecule (deoxyribose) and a phosphate group make up the backbone of DNA. These are very strong covalent bonds and are broken only with great expenditure of energy--x-rays, for example.
The bonds of the atom are covalent where as the bonds between the base pairs are hydrogen.
The connection between nucleotides is between the sugar of the first nucleotide and the phosphate of the second. These are covalent bonds yielding a covalently attached sugar-phosphate backbone.
They join together in a condensation reaction.
Through covalent and hydrogen bonds. The covalent bonds hold the pentose sugar-phosphate backbone together and are alternatively called phosphodiester bonds. The hydrogen bonds are between the nitrogen bases and hold the "rungs" of the ladder together.
The nucleotides are joined together by phosphodiester linkages between the sugar of one nucleotide and the phosphate of the next.
The sugar pentose is connected to the nitrogenous base this is called a nucleotide. nucleotides are joined by phosphodiester linkages between the phosphate of one nucleotide and the sugar of the next.
In a nucleotide the 5-carbon sugar is bonded to the phosphate group, which is bonded to the nitrogenous base. In a chain of nucleotides (a strand of DNA), the nucleotides are connected by covalent bonds between the sugar of one nucleotide, and the phosphate group of the next nucleotide.
The backbone of the nucleotides are composed of repeating ribose (in RNA) or deoxyribose (in DNA) and phosphates held together by phosphodiester bonds between the 5's and 3's of the ribose/deoxyribose.
Phophodiester bonds are the one that connect the nucleotides next to each other on the same strand. Weak hydrogen bonds join the two complementary nucleotides and thus the two strands of the DNA together.
In producing a strand of DNA the nucleotides combine to form phosphodiester bonds.
Between nucleotides, there is a phosphodiester bond between the phosphate group of one nucleotide and the sugar of another nucleotide. Nucleotides (such as Adenine and Thymine) are held together on two strands of DNA through hydrogen bonding. This doesn't keep nucleotides together in a strand, but helps in the structure of two corresponding strands of DNA.
Nucleotides in both DNA and RNA are bound by phosphate ester bonds. See the following link for a detailed discussion: http://www.ncc.gmu.edu/dna/structur.htm
These types of chemical bonds are called covalent bonds. Note though that the sugar-phosphate backbone does not contain nucleotides - except as like a side branch.