In DNA the base pairs are Adenine with Thymine and Guanine with Cytosine.
In RNA Thymine is replaced by Uracil so the base pairs are Adenine with Uracil and Guanine with Cytosine.
A goes to U and G goes to C. DNA its A=T G=C.
The molecular weight of a DNA base pair is approximately 650 daltons.
The molecular weight of a base pair in DNA is approximately 650 daltons.
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.
The rule used to join free nucleotides to the exposed bases of DNA is base pairing. Adenine pairs with thymine, and guanine pairs with cytosine through hydrogen bonding. This complementary base pairing ensures the accurate replication of DNA during cell division.
Each base pair in DNA is connected by two hydrogen bonds.
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.
Thymine base pairs with adenine in DNA, forming a T-A base pair. Uracil base pairs with adenine in RNA, forming a U-A base pair.
Guanine
Thymine and guanine cannot pair because they do not form complementary base pairs in DNA. In DNA, adenine pairs with thymine and guanine pairs with cytosine due to hydrogen bonding properties. Thus, thymine and guanine are not complementary bases and cannot form a stable base pair.
Chargaff's rules state that DNA of any cell of all organisms have a ratio of 1:1. This is called the base pair rule wherein a pattern is found in both strands of the DNA.
Chargaff's rule states: Adenine will always pair with Thymine in DNA; Guanine will always pair with Cytosine in DNA. Note: In RNA, no thymine is present, and its replaced by uracil; therefore, in RNA, Adenine pairs with Uracil.