with hydrogen bonds between base pairs 2 between A and T and 3 between C and G
Depending on what "Strands" are it could be either Hydrogen bonding between complementary base pairs or Phosphate bonds between interlinking deoxyribose sugars
In DNA,adenine----------thyminecytosine----------guanine
So essentially the difference is that in DNA-DNA base pairs thymine bonds with adenine while in DNA-RNA base pairs thymine bonds to uracil.
base pairs are broken apart
It breaks the hydrogen bonds between the base pairs
DNA base pairs.
Base pairing between the DNA template strand and the RNA nucleotides
The pitch of the DNA helix, or the distance between its complete turns, is 3.4 angstroms (Å) because of the specific arrangement of its nucleotides. The DNA helix is made up of two complementary strands of nucleotides, and each nucleotide consists of a sugar molecule, a phosphate group, and a nitrogenous base. In a DNA molecule, the two complementary strands are held together by hydrogen bonds between the nitrogenous bases of the nucleotides. The distance between the nitrogenous bases determines the pitch of the helix. In the case of DNA, the nitrogenous bases are adenine (A), cytosine (C), guanine (G), and thymine (T). The distance between the nitrogenous bases of A-T and C-G base pairs is 3.4 Å. As for why there are exactly 10 pairs of nucleotides in the DNA helix, this is a generalization and not a strict rule. The number of nucleotide base pairs in a DNA molecule can vary widely, depending on the species and the type of cell. For example, the human genome has approximately 3 billion base pairs, while the genome of a bacterium may have only a few million base pairs. The number of base pairs in a DNA helix can also vary within a single chromosome or even within a single gene. In summary, the pitch of the DNA helix is determined by the distance between its nitrogenous bases, and the number of nucleotide base pairs can vary widely depending on the species and type of cell.
with hydrogen bonds between base pairs 2 between A and T and 3 between C and G
The base pairs found in DNA are adenine with thymine, and cytosine with guanine.
Depending on what "Strands" are it could be either Hydrogen bonding between complementary base pairs or Phosphate bonds between interlinking deoxyribose sugars
The correct base-pairing rules ofr DNA. . .The base pairing rules for DNA areA pairs with TG pairs with CC pairs with GT pairs with A
four base pairs
MW of a double-stranded DNA molecule = (# of base pairs) X (650 daltons/base pair) Average weight of a DNA basepair (sodium salt) = 650 daltons
Depending on what "Strands" are it could be either Hydrogen bonding between complementary base pairs or Phosphate bonds between interlinking deoxyribose sugars
Depending on what "Strands" are it could be either Hydrogen bonding between complementary base pairs or Phosphate bonds between interlinking deoxyribose sugars