(JUNE 2017) 45. A serine protease was tested for its activity on the following peptide substrates of different lengths and sequences. The obtained kinetic parameters of the protease are shown along with the peptide. Arrow denotes site of cleavage. Based on the above data, the following statements are made: A. Catalytic efficiency (Kcat / Km) increases with the size of the peptide. B. Amino acid at the hydrolytic cleavage position of the peptide is critical for binding of the peptide with the protease C. Catalytic efficiency decreases from three amino acid peptide to four amino acid peptide. Which of the following combinations of the above statements is correct? (1) A and B (2) A and C (3) B and C (4) A, B and C

The correct answer is (1) A and B.

Introduction

Enzyme kinetics provide critical insights into how substrate structure influences catalytic efficiency and binding. Serine proteases, important for protein digestion, exhibit unique preferences for peptide length and sequence near their hydrolytic cleavage sites. By comparing kinetic parameters ( $K_{c a t}$ , $K_{m}$ ) for different peptide substrates, we can dissect the role of peptide size and residue identity in enzyme function.

Interpreting the Data

Substrate	$K_{c a t}$ (s $^{-1}$ )	$K_{m}$ (mM)	Efficiency ( $K_{c a t} / K_{m}$ )
Ac-X-Ala-CO- $↓$ -NH $_{2}$	0.01	100	0.0001
Ac-Y-X-Ala-CO- $↓$ -NH $_{2}$	0.10	4.0	0.025
Ac-Z-Y-X-Ala-CO- $↓$ -NH $_{2}$	8.0	4.0	2.0
Ac-Y-X-Val-CO- $↓$ -NH $_{2}$	6.0	35.0	0.171

Statement Analysis

A. Catalytic efficiency ( $K_{c a t} / K_{m}$ ) increases with peptide size

Compare peptide size (number of amino acids) and efficiency.
The peptide Ac-X-Ala-CO- $↓$ -NH $_{2}$ (smallest) has the lowest efficiency.
Efficiency increases as peptide size grows, peaking at Ac-Z-Y-X-Ala-CO- $↓$ -NH $_{2}$ (three amino acids added). The fourth peptide, with Val at the cleavage position, shows lowered efficiency, highlighting the effect of the cleavage site residue.

B. Amino acid at hydrolytic cleavage position is critical for binding

Dramatic difference in $K_{m}$ and efficiency when cleavage site residue changes, e.g., Ac-Y-X-Val-CO- $↓$ -NH $_{2}$ vs. Ac-Z-Y-X-Ala-CO- $↓$ -NH $_{2}$ .
Indicates that the identity of the amino acid at the cleavage position strongly influences binding and recognition.

C. Catalytic efficiency decreases from three amino acid peptide to four amino acid peptide

Efficiency increases with peptide length up to three residues, then drops for the four-residue peptide (with Val).
However, this statement ignores the role of the cleavage site residue; the decrease is likely due more to residue identity than peptide length.

Justification for the Correct Choice

A and B are consistent with the kinetic data and biochemical principles: efficiency rises with peptide size (up to a point), and the hydrolytic site amino acid, influencing $K_{m}$ , is key for substrate binding.
C is less universally true, relying on only two data points and confounded by side-chain effects.

Summary Table

Statement	Supported by Data	Explanation
A	Yes	Efficiency increases with peptide size
B	Yes	Cleavage site residue alters binding
C	Partially	Efficiency decrease linked to residue, not just size

Conclusion

The correct interpretation of the serine protease data is that catalytic efficiency increases with peptide size, and the nature of the amino acid at the cleavage position importantly affects binding, confirming statements A and B. Understanding these relationships guides enzyme engineering and enhances competence in enzymology for exams and research.

17 Comments

Varsha Tatla
September 13, 2025

Kcat/km increase with the size of the peptide
Cleavage site residue alters the binding
Given statment a,b is correct 💯

Reply
Aakansha sharma Sharma
September 13, 2025

Kcat/km increase with the size of the peptide
Cleavage site residue alters the binding

Reply
Anju
September 14, 2025

Ans:1(a and b)
Kcat/km

Reply
Kanica Sunwalka
September 14, 2025

option 1 is correct

Reply
Roopal Sharma
September 14, 2025

Catalytic efficiency increase with pepetide size and nature of amino acid at clevage position affects binding.

Reply
- yashika
  September 14, 2025
  
  Kcat/km increase with size of peptide
  
  Reply
Kirti Agarwal
September 14, 2025

Statement A, B

Reply
Sakshi Kanwar
September 14, 2025

Kcat value is more so enzyme efficiency of 3rd Ac-Z-Y-X-Ala-CO–NH2
A and B are the options

Reply
Muskan singodiya
September 14, 2025

Option 1
A and b

Reply
Bhawna Choudhary
September 14, 2025

A and B is the correct answer

Reply
Tanvi Panwar
September 15, 2025

catalytic efficiency increases with peptide size, and the nature of the amino acid at the cleavage position importantly affects binding,so A AND B are correct.

Reply
Anjana sharma
September 16, 2025

(1) A and B.

Reply
Palak Sharma
September 16, 2025

Kcat/km increase with size of peptide and nature of amino acid at clevage position affects binding.
A and B

Reply
Khushi Agarwal
September 16, 2025

The correct answer is (1) A and B
Catalytic efficiency (Kat / Km) increases with the size of the peptide.
Amino acid at the hydrolytic cleavage position of the peptide is critical for binding of the peptide with the protease

Reply
Priya khandal
September 17, 2025

No

Reply
Muskan Yadav
September 18, 2025

Catalytic efficiency increases with peptide size, and the nature of the amino acid at the cleavage position importantly affects binding, so the correct option statements A and B.

Reply
Minal Sethi
September 19, 2025

A and B are correct

Reply