How many base pairs are present in a Z form DNA double helix of 148 nm in length?

What is the relationship between the length of a Z form DNA double helix and the number of base pairs present in the molecule? The Z form of DNA is a unique double helix structure with a length of 148 nm. In this structure, each base pair is separated by a distance of 0.34 nm. To calculate the number of base pairs present in this molecule, we need to divide the total length by the distance between each base pair. By doing this, we can determine the approximate number of base pairs in the Z form DNA double helix.

Calculation of Base Pairs in Z Form DNA Double Helix:

Total Length of Z Form DNA Double Helix: 148 nm

Distance between Base Pairs: 0.34 nm

To calculate the number of base pairs:

Number of Base Pairs = Total Length / Distance between Base Pairs

Number of Base Pairs = 148 nm / 0.34 nm

Number of Base Pairs ≈ 435294 base pairs

Therefore, a Z form DNA double helix of 148 nm in length roughly consists of approximately 435294 base pairs. Each base pair in this structure is separated by a distance of 0.34 nm, forming the characteristic double helix structure of DNA.

This calculation highlights the relationship between the length of a Z form DNA double helix and the number of base pairs present in the molecule. It shows how the physical dimensions of the DNA structure determine the total number of base pairs, essential for genetic information storage and replication.

← Understanding trophic niche partitioning in cichlids The relationship between the greenhouse effect and global warming →

More Posts: