a pair of nitrogenous bases,consisting of a purine linked by hydrozen bonds to a pyrimidine that connects the complementary strands . the base pair are adenine,thymine,cytosine & guanine in DNA & uracil in place of thymine in RNA.
one of the pairs of chemical bases joined by hydrogen bonds that connect the complementary strands of a DNA molecule or of an RNA molecule that has two strands
adenine pairs with thymine, cytosine pairs with guanine
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.
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 pairing
base pairing rules
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Base Pairing Rules
Why is complementary base pairing crucial for life?
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.
Adenine binds toThymineCytosinebinds toGuanineThe shapes of the bases are specific and can only fit their complimentary base. Hydrogen bonds hold them together. In RNA Thymine is replaced by Uracil.
Complementary
Th nitrogen bases for DNA are: thymine (T), guanine (G), cytosine (C) and adenine (A). For RNA they are adenine, guanine, cytosine and uracil (U).DNA base pairing is highly specific: T pairs with A (T-A) and G pairs with C (G-C).RNA base pairing is not as specific, but can be said to occur like so: U pairing with A (U-A) and G pairing with C.
Base pairingg base pairing
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
The base-pairing during transcription is the same as when DNA replicates, except that RNA has uracil instead of thymine.
Complementary base pairing occurs only between the probe and the target gene.
AG, CT
Yes