Chains (carbon 1 to carbon 4), branches (carbon 1 to carbon 6), 5', and 3'
The base pairing is as follows: Adenine + Thymine (AT)
Guanine + Cytosine (GC)
Think: All Together Getting Coffee
well yeah and no really!
hydrogen bonds
The mRNA strand!
Adenine binds to Thymine Guanine binds to Cytosine Hydrogen bonding holds the bases together.
the DNA molecule split down the middle,where the bases meet. The bases on each side of the molecule are used as a pattern for a new strand.
The rungs of DNA are made up of the nitrogenous bases Adenine (A), Cytosine (C), Guanine (G) and Thymine (T). Each rung represents the bonding of two bases (one from each DNA strand). A binds with T and C binds with G.
between the nitrogen bases of the two strands of DNA
between the nitrogen bases of the two strands of DNA
The two chains are connected by hydrogen bonding between nitrogen bases to form a long double-stranded molecule.So hydrogen bonding determines which nitrogen bases form pairs of DNA.
hydrogen bonds
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 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.
sex
The mRNA strand!
The the nitrogenous bases of the DNA double helix are held together by hydrogen bonding. When a polar, protic organic solvent such as ethanol is added to solution, the H-bonding of the bases pairs break and reform with the ethanol in certain areas. The "stringy threads" that you are seeing are most likely single stranded DNA.
I assume you mean the hydrogen bonding that holds bases of DNA together.
Adenine binds to Thymine Guanine binds to Cytosine Hydrogen bonding holds the bases together.
Hydrogen bonding between the complementary, nitrogenous bases (cytosine, guanine, thymine, adenine) of the two polynucleotide chains.