Not in DNA. In DNA the only base pairs are A-T and C-G. RNA can form non-canonical base pairings, so you might get some AC in RNA structures.
In DNA, base cytosine (C) pairs with guanine (G) through three hydrogen bonds, while thymine (T) pairs with adenine (A) through two hydrogen bonds. Therefore, base C does not pair with base T in standard DNA base pairing rules. However, in certain experimental or altered conditions, non-canonical pairing might occur, but this is not typical in natural DNA structures.
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.
Each letter pair in the table represents a DNA base pair - adenine and thymine (A-T) or cytosine and guanine (C-G). These base pairs form the building blocks of DNA molecules and are complementary to each other based on hydrogen bonding.
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No, RNA nucleotides in transcription pair with complementary DNA nucleotides according to the base pairing rules (A-U, G-C), as opposed to replicating DNA in which DNA nucleotides pair with complementary DNA nucleotides (A-T, G-C).
It means which nitrogen base pairs with the other Nitrogen bases: A-t T-a C-g G-c
T-A-C-G-A-T
It has 2 Hydrogen Bonds and the base has made a 180° rotation around the x axis.
A goes to U and G goes to C. DNA its A=T G=C.
Cytosine (C) and Guanine (G) pair, as do Adenine (A) and Thymine (T).
TAGC. A pairs with T, G pairs with C.
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.
Chargaff's base pair rules state that in DNA, the amount of adenine (A) is equal to thymine (T), and the amount of cytosine (C) is equal to guanine (G). This is known as complementary base pairing, where A pairs with T and C pairs with G.
In DNA, base cytosine (C) pairs with guanine (G) through three hydrogen bonds, while thymine (T) pairs with adenine (A) through two hydrogen bonds. Therefore, base C does not pair with base T in standard DNA base pairing rules. However, in certain experimental or altered conditions, non-canonical pairing might occur, but this is not typical in natural DNA structures.
A nucleotide consists of a base pair ( A with T, C with G) with a sugar phospate molecule
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.
Each letter pair in the table represents a DNA base pair - adenine and thymine (A-T) or cytosine and guanine (C-G). These base pairs form the building blocks of DNA molecules and are complementary to each other based on hydrogen bonding.