59. The following feature about A-DNA is INCORRECT
1. The DNA is arranged in a left handed double helix
2. The base pairs in A-DNA are not perfectly perpendicular to the helix axis
3. The DNA is arranged in a right handed double helix
4. Number of base pairs per helical turn is 11
Understanding A-DNA: Structure, Features, and Key Differences from B-DNA and Z-DNA
A-DNA is one of the three main forms of DNA, alongside B-DNA and Z-DNA. It occurs under dehydrating conditions and has unique structural properties that differentiate it from the more common B-DNA. Let’s examine an important question about A-DNA and identify which feature is incorrect.
Answer: Incorrect Feature of A-DNA
Statement: “The DNA is arranged in a left-handed double helix”
✅ Incorrect! A-DNA is actually a right-handed double helix, similar to B-DNA, but with distinct structural differences.
Correct Features of A-DNA:
- Base pairs in A-DNA are not perfectly perpendicular to the helix axis – ✅ Correct
- The DNA is arranged in a right-handed double helix – ✅ Correct
- Number of base pairs per helical turn is 11 – ✅ Correct
Thus, the incorrect feature is option 1 because A-DNA is right-handed, not left-handed.
Structural Features of A-DNA
A-DNA differs from B-DNA in several ways:
1. Helical Handedness
- A-DNA: Right-handed
- B-DNA: Right-handed
- Z-DNA: Left-handed
2. Helical Pitch and Tilt
- A-DNA has a tighter helical turn with 11 base pairs per turn, while B-DNA has 10.5 base pairs per turn.
- The base pairs in A-DNA are tilted and not perfectly perpendicular to the helix axis.
3. Major and Minor Grooves
- A-DNA has a narrower major groove and a wider, shallower minor groove compared to B-DNA.
When Does A-DNA Form?
- A-DNA is typically observed under low humidity or dehydrating conditions.
- It can form in RNA-DNA hybrids and double-stranded RNA.
- Some bacteriophages have been found to store DNA in the A-DNA conformation.
Differences Between A-DNA, B-DNA, and Z-DNA
| Feature | A-DNA | B-DNA | Z-DNA |
|---|---|---|---|
| Helical Handedness | Right | Right | Left |
| Base Pairs per Turn | 11 | 10.5 | 12 |
| Groove Structure | Narrow Major, Wide Minor | Balanced Grooves | Deep Minor, Flattened Major |
| Tilt of Base Pairs | Tilted | Perpendicular | Zig-zag conformation |
Conclusion
A-DNA is a right-handed double helix with 11 base pairs per turn, occurring under dehydrating conditions. The incorrect statement about A-DNA is that it has a left-handed helix. Understanding these structural differences is crucial in molecular biology, particularly for studies involving DNA-RNA interactions and structural transitions in nucleic acids.
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yogesh sharma
April 6, 2025I’ve just started solving the questions without reading topics
Thank you so much suraj sir for giving this type of easy language explanation of questions
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April 16, 2025Done ✅
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