2. α-amanitin inhibits
(1) only RNA polymerase I
(2) mainly RNA polymerase II
(3) only RNA polymerase III
(4) all RNA polymerases
Which RNA Polymerase Does α-Amanitin Inhibit? Detailed Explanation
Introduction
α-Amanitin is a deadly toxin derived from certain poisonous mushrooms, most notably the death cap (Amanita phalloides). Its notoriety in molecular biology comes from its highly selective inhibition of eukaryotic RNA polymerases, the enzymes responsible for synthesizing RNA from DNA templates. Understanding which RNA polymerase is most affected by α-amanitin is crucial for both exam preparation and laboratory research.
The Correct Answer
Among the options provided:
-
only RNA polymerase I
-
mainly RNA polymerase II
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only RNA polymerase III
-
all RNA polymerases
The correct answer is (2): mainly RNA polymerase II.
How α-Amanitin Works
α-Amanitin binds specifically to the largest subunit of RNA polymerase II with high affinity, effectively blocking the enzyme’s ability to translocate along the DNA template during transcription. This inhibition is so potent that even very low concentrations can completely halt mRNA synthesis in eukaryotic cells.
Differential Sensitivity of RNA Polymerases
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RNA Polymerase II:
This enzyme is highly sensitive to α-amanitin. It is responsible for synthesizing messenger RNA (mRNA) and some small nuclear RNAs. α-Amanitin binding blocks its function almost completely, even at low concentrations. -
RNA Polymerase III:
This enzyme, which synthesizes tRNA and 5S rRNA, is moderately sensitive to α-amanitin. It is inhibited, but only at much higher concentrations compared to RNA polymerase II. -
RNA Polymerase I:
This enzyme, which synthesizes most ribosomal RNA (rRNA), is resistant to α-amanitin and is not inhibited at concentrations that affect the other two polymerases.
Supporting Evidence
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Scientific studies confirm that α-amanitin is a highly selective inhibitor of RNA polymerase II, with only slight inhibitory effects on RNA polymerase III and no significant effect on RNA polymerase.
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Structural and biochemical analyses show that the toxin’s binding site is present and accessible in RNA polymerase II, explaining its high sensitivity.
Conclusion
α-Amanitin is a powerful and selective inhibitor of eukaryotic RNA polymerase II, with only minor effects on RNA polymerase III and no effect on RNA polymerase I at typical concentrations. This specificity is exploited in molecular biology research to distinguish between the activities of different RNA polymerases and is also the reason for the toxin’s severe effects in mushroom poisoning cases.
22 Comments
Krishana
May 31, 2025👍
Shalu Choudhary
June 2, 2025✅✅
Suman bhakar
June 2, 2025✅✅
Ekta
June 2, 2025👍🏼👍🏼
Prami Masih
June 2, 2025👍👍
Anita choudhary
June 3, 2025👍
Abhishek
June 3, 2025done sir✅💯
Mosam gurjar
June 4, 2025👍👍
Sorabh Kumar
July 21, 2025👍
Kirti Agarwal
November 3, 2025RNA POL 2
Sonal Nagar
November 3, 2025Option 2nd
Sakshi yadav
November 3, 2025Ply 2 bcz highly sensitive to alpha amanitin
priyanka
November 3, 2025RN Pol 2 is the right answer
Mohd juber Ali
November 3, 2025α-Amanitin is a powerful and selective inhibitor of eukaryotic RNA polymerase II,
Rna pol. 1 not inhibit
Effect of alpha amanitin on rna pol. 3 is minor in compaire of rna pol.2
Sakshi Kanwar
November 3, 2025mainly affect RNA poly II as it more sensitive to alpha amanitin because it completely block the activity of RNA poly II
Priyanshi sharma
November 3, 2025RNA polymerase ll
Simran Saini
November 4, 2025RNA polymerase II.
Santosh Saini
November 4, 2025RNA pol II is highly sensitive to alpha amanitin
Anurag Giri
November 4, 2025Alpha-Amanitin is a powerful and selective inhibitor of eukaryotic RNA polymerase II, with only minor effects on RNA polymerase III and no effect on RNA polymerase I
Deepika Sheoran
November 4, 2025RNA polymerase 2 Highly sensitive to alpha Amanitin.
Muskan Yadav
November 7, 2025Mainly RNA polymerase II
Sonam Saini
November 27, 2025Rna polimerse 2