The nucleotide base pairs are:
A-T
C-G
Thats Adenine to Thymine and Cytosine to Guanine
During DNA transcription Uracil bonds with Adenine instead of Thymine, although when A-U is bonded it would technically be an RNA molecule
In DNA, A (adenine) matches with T (thymine) and C (cytosine) matches with G (guanine).
thymine
Because instead of matching shapes your matching dna base sequences
i am not sure
Which of the following would indicate a base pairing mutation in DNA?1) an A paired with a T2) a C paired with a G3) a G paired with a T4) all the above are improrer base pairsThe correct answer is #3A should pair with T and G should pair with CIf A paired with C or G paired with T it would be a base pairing mutation.
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.
In DNA,adenine----------thyminecytosine----------guanine
Base pair complementarity ensures faithful DNA replication. Remember that a base can only pair with a definite pair and not with just about any base therefore this ensures high fidelity of replication. If guanine can only pair with cytosine the same way that adenine can .only pair with thymine then the copying of the DNA will be accurate.
thymine
DNA!! the matching strands of rna form dna..
Because instead of matching shapes your matching dna base sequences
Adenine pairs with Guanine, Thaimine pairs with Cytosine.
Guanine
DNA
Uracil. In normal DNA it would be Thymine, but in RNA Uracil becomes the base pair for Adenine.
The base on one strand pair with the base on the other strand, adenine with thymine, and cytosine with guanine, they join together by hydrogen bonds. Parent
i am not sure