Sigma Factor Mutation Affects Thermal Stress Adaptation

admin
May 27, 2025
34 Comments

6. A mutation in which one of the following sigma factors may be a possible cause for E. colt failing to adapt in response to thermal stress?
(1) σ⁷⁰ (2) σ³²
(3) σ⁵⁴ (4) σ⁴⁵

Correct Answer: (2) σ³²

Explanation:

Thermal Stress and Heat-Shock Response in E. coli

When E. coli experiences elevated temperatures, it triggers a heat-shock response to prevent protein denaturation and misfolding.
This response is mediated by heat-shock proteins (HSPs) such as DnaK, GroEL, GroES, HtpG, etc.
The key regulatory factor in initiating the transcription of these genes is Sigma 32 (σ³²).

What Is Sigma 32 (σ³²)?

Also known as RpoH, σ³² is the heat-shock sigma factor.
It directs RNA polymerase to the promoters of heat-shock genes.
Without functional σ³², E. coli cannot express chaperones or proteases needed for survival during heat stress.

Other Options Explained:

Sigma Factor	Function	Relevance to Heat Stress
σ⁷⁰	Housekeeping transcription	Not specialized for stress responses
σ⁵⁴	Nitrogen starvation and other alternative pathways	Not involved in heat-shock response
σ⁴⁵	Not a well-characterized or standard sigma factor in E. coli	Irrelevant here

Here’s a table summarizing some key sigma factors:

Sigma Factor	Name	Function
σ⁷⁰	SigA	Principal sigma factor, responsible for most housekeeping genes
σ⁵⁴	SigL	Transcribes a subset of genes, including those involved in nitrogen metabolism
σ³²	SigB	Responds to heat shock
σ²⁸	SigD	Transcribes flagellar genes
σE	SigE	Transcribes genes involved in sporulation
σS	SigS	Responds to general stress
σH	SigH	Transcribes genes involved in DNA repair
σB	SigB	Responds to starvation and other stress conditions
σF	SigF	Transcribes genes involved in flagellar biosynthesis
σG	SigG	Transcribes genes involved in sporulation

Correct Answer Recap: (2) σ³²

Mutation in σ³² impairs heat-shock gene transcription, making E. coli vulnerable to thermal stress.
It is critical for survival during sudden temperature increases.

CSIR NET Takeaways:

Know the specific roles of sigma factors in bacterial stress responses.
σ³² (RpoH) = Heat shock
σ^S = Stationary phase/general stress
σ⁷⁰ = Routine transcription
σ⁵⁴ = Nitrogen metabolism

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34 Comments

Rani Sharma
May 28, 2025

✅✅

Reply
- Rishita
  November 4, 2025
  
  Done sir 👍🏻
  
  Reply
Suman bhakar
May 28, 2025

✅✅

Reply
Krishana
May 28, 2025

Done

Reply
Pallavi gautam
May 28, 2025

Okkk

Reply
Arushi
May 28, 2025

👍☑️

Reply
Beena Meena
May 28, 2025

Nice explanation

Reply
Shalu Choudhary
May 28, 2025

Understood by explanation

Reply
Renu Saini
May 29, 2025

👍👍👍

Reply
Bhanwar Jaat
May 29, 2025

Acha ye bhi sahi hai ✅👍

Reply
Prami Masih
May 29, 2025

Understood by explanation sir ji

Reply
Shreeji Charan
June 1, 2025

👍

Reply
Kirti Agarwal
October 26, 2025

Sigma 32

Reply
Santosh Saini
October 26, 2025

Correct answer is Sigma 32 ( mutation in sigma 32 impairs heat shock gene transcription, making E.coli vulnerable to thermal stress. It is critical for survival during sudden temp. Increase.

Reply
Bhawna Choudhary
October 28, 2025

Sigma 32 is correct answer

Reply
Sonal Nagar
November 2, 2025

Option 2nd

Reply
Heena Mahlawat
November 3, 2025

Sigma- 32

Reply
Roopal Sharma
November 3, 2025

Sigma 32 for thermal or heat

Reply
Pooja
November 3, 2025

Sigma 32 respond to heat shock

Reply
anjani sharma
November 3, 2025

A mutation in the σ 32 (sigma H) factor is a possible cause for E. coli failing to adapt to thermal stress because σ 32.

regulates the expression of heat-shock genes.

Reply
Anurag Giri
November 3, 2025

Ans 2 is correct bcz Sigma 32 respond to heat shock and also in. thermal stress

Reply
Divya rani
November 3, 2025

Sigma 32 is the heat shock response transcription factor in E.coli.

Reply
Mohd juber Ali
November 3, 2025

Sigma32 is Thermal Stress and Heat-Shock Response in E. coli

Reply
Dipti Sharma
November 3, 2025

Heat shock protein transcription is activated by σ³² .

Reply
Sneha kumawat
November 3, 2025

Sigma 32

Reply
Anjali sharma
November 3, 2025

Sigma 32 respond to heat shock.so ans is option 2

Reply
Dharmpal Swami
November 3, 2025

Sigma 32 a heat shock protein

Reply
Shivani
November 3, 2025

mutation in the σ 32 is a possible cause for E. coli failing to adapt to thermal stress because σ 32.

Reply
Kajal
November 4, 2025

Correct Answer: (2) σ³²

Reply
Deepika Sheoran
November 4, 2025

Sigma 32

Reply
Manisha choudhary
November 5, 2025

Sigma 32

Reply
sakshivijay
November 6, 2025

sigma 32 is correct option
because it respond to heat shock protein and prevent thermal stress

Reply
Komal Sharma
November 11, 2025

Mutation in σ³² impairs heat-shock gene transcription, making E. coli vulnerable to thermal stress.

Reply
Neelam Sharma
November 13, 2025

Sigma 32 is correct answer

Reply