adenine and thymine, cytosine and guanine or a pairs with t and c pairs with g
Adenine and guanine,
and cytosine and Thymine?
the types that occur are complementary and antiparallel. For example, DNA A will pair with RNA U and DNA C will pair with RNA G.
Base pairing rules and complementary base rules are related because of DNA. If one can find the base pairing on a strand of DNA, usually the complementary base is easily found.
They would be described as being complementary - as in complementary base pairing.
The structure of DNA relies on a base-pairing rule. This means that in DNA, Adenine binds to Thymine and Guanine binds to Cytosine. The complementary base is the base that binds to the base in question. Therefore A is complementary to T, C is complementary to G, etc. So if you had a strand of DNA, for example; ATT-CCA-GTC The complementary strand (which would bind to the above) would be; TAA-GGT-CAG
It is not a DNA base pair itself, it is a DNA nucleotide base. It does however, form a base pair when bonded with adenine.
Thymine is the complementary base pair for adenine in DNA.
the types that occur are complementary and antiparallel. For example, DNA A will pair with RNA U and DNA C will pair with RNA G.
They are: - Adenine and thymine - Cytosine and guanine
Uracil is the base used in messenger RNA in place of thymine, and is complementary to adenine.
Complementary base pairing is necessary because it ensures the fidelity of the DNA sequence during replication. Because only one base can pair with only one other, the two daughter strands of DNA made during replication will be the exact same as the original parent strand. If this were not the case DNA replication would result in random DNA sequences.
Base pairing rules and complementary base rules are related because of DNA. If one can find the base pairing on a strand of DNA, usually the complementary base is easily found.
A basepair is a pair of nucleotides on opposite complementary DNA or RNA strands which are connected via hydrogen bonds.
They would be described as being complementary - as in complementary base pairing.
The structure of DNA relies on a base-pairing rule. This means that in DNA, Adenine binds to Thymine and Guanine binds to Cytosine. The complementary base is the base that binds to the base in question. Therefore A is complementary to T, C is complementary to G, etc. So if you had a strand of DNA, for example; ATT-CCA-GTC The complementary strand (which would bind to the above) would be; TAA-GGT-CAG
The ribosome has three sites for binding. It binds RNA and DNA so that they can be matched to their complementary base pair.
hydrogen bonds
Its complementary base is guanine