Exact average molecular weight of a dsDNA basepair
The average molecular weight of a double-stranded DNA (dsDNA) base pair can be calculated by considering the molecular weights of the individual nucleotide bases in the pair.
There are four types of nucleotide bases that make up DNA: adenine (A), thymine (T), cytosine (C), and guanine (G). Each of these bases has a unique molecular weight:
– Adenine (A) has a molecular weight of approximately 135. 13 grams per mole (g/mol). – Thymine (T) has a molecular weight of approximately 126. 11 g/mol. – Cytosine (C) has a molecular weight of approximately 111. 10 g/mol. – Guanine (G) has a molecular weight of approximately 151. 13 g/mol
In a dsDNA base pair, the two complementary strands are held together by hydrogen bonds between their bases: A always pairs with T (forming an A-T base pair), and C always pairs with G (forming a C-G base pair)
Since a base pair consists of two nucleotide bases, we need to add the molecular weights of these two bases to calculate the average molecular weight. Let’s consider an example using an A-T base pair:
Average molecular weight of A-T base pair = (molecular weight of adenine + molecular weight of thymine) / 2
= (135. 13 g/mol + 126. 11 g/mol) / 2
= 130. 62 g/mol
Similarly, we can calculate the average molecular weight for other base pairs:
– C-G base pair:
Average molecular weight = (molecular weight of cytosine + molecular weight of guanine) / 2
– G-C base pair:
Average molecular weight = (molecular weight of guanine + molecular weight of cytosine) / 2
– T-A base pair:
Average molecular weight = (molecular weight of thymine + molecular weight of adenine) / 2
Note that these molecular weights represent the average values, considering natural abundance of nucleotides found in DNA. It’s important to mention that other factors can affect the molecular weight of a base pair, such as modifications or variations in the DNA sequence
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