(JUNE 2007)
11. The order of reaction catalyzed by enzyme at low substrate concentration is
(1) first order (2) Pseudo first order
(3) Second order (4) Zero order

The correct answer is (1) first order.

Introduction

Enzymes catalyze biochemical reactions by lowering activation energy and increasing reaction rates. However, the order of the reaction catalyzed by enzymes depends on substrate concentration. This concept is pivotal in enzyme kinetics and has profound implications in biochemical pathways and pharmaceutical sciences. Here, the focus is on enzyme-catalyzed reactions at low substrate concentrations and why they follow first-order kinetics.

Understanding Reaction Order in Enzyme Kinetics

The order of a reaction describes how the reaction rate depends on the concentration of reactants.

For a simple reaction without enzymes:

A first-order reaction rate depends linearly on the concentration of one reactant.
A second-order reaction depends on the concentration of two reactants.
A zero-order reaction indicates the rate is independent of substrate concentration.

Enzyme Kinetics: Michaelis-Menten Model

The Michaelis-Menten model describes how the reaction rate ( $v$ ) depends on substrate concentration $[S]$ :

$v = K ^{m} + [ S ] V ^{ma x} [ S ]$

Where

$V_{ma x}$ is the maximum reaction velocity (when enzyme is saturated by substrate).
$K_{m}$ is the Michaelis constant (substrate concentration at which reaction rate is half of $V_{ma x}$ ).

Reaction Order at Low Substrate Concentration $([S] ≪ K_{m})$

When substrate concentration is very low compared to $K_{m}$ :

$v \approx K ^{m} V ^{ma x} [ S ] \propto [S]$

This means:

The reaction rate is directly proportional to substrate concentration.
The reaction exhibits first-order kinetics with respect to substrate concentration.
The enzyme active sites are mostly free, so the substrate availability limits the reaction rate.

Reaction Order at High Substrate Concentration $([S] ≫ K_{m})$

At high substrate concentrations:

$v \approx V_{ma x}$

The enzyme becomes saturated with substrate.
The reaction rate reaches a maximum ( $V_{ma x}$ ) and no longer increases with substrate concentration.
Reaction displays zero-order kinetics with respect to substrate concentration.

Real-World Analogy

Imagine taxis (enzymes) waiting for passengers (substrate):

At low passengers, increasing passengers directly increases trips (first-order).
At full capacity (enzyme saturation), more passengers do not increase trips (zero-order).

Implications in Biology and Biotechnology

Understanding the order of enzyme reactions helps predict reaction behavior in metabolic pathways.
Useful in designing drugs and inhibitors targeting enzyme activity.
Vital for metabolic engineering and enzyme-based industrial processes.

Summary Table

Substrate Concentration	Reaction Order	Explanation
Low ( $[S] ≪ K_{m}$ )	First order	Rate proportional to substrate
High ( $[S] ≫ K_{m}$ )	Zero order	Rate independent of substrate (saturation)

Conclusion

At low substrate concentrations, enzyme-catalyzed reactions follow first-order kinetics because the reaction rate depends on the amount of available substrate. As substrate concentration increases, saturation occurs, shifting the reaction to zero-order kinetics. This fundamental concept is crucial for understanding enzyme behavior in physiological and experimental settings and beneficial for academic and professional pursuits in life sciences.

52 Comments

Roopal Sharma
September 12, 2025

First order reaction depends upon substrate concentration and zero order reaction is independent of substrate concentration.

Reply
Sakshi yadav
September 12, 2025

Ist order of reaction -it’s depend upon the substrate conc.

Reply
Aakansha sharma Sharma
September 12, 2025

First order reaction bez it depends upon only onesubstrate concentration

Reply
Sakshi Kanwar
September 12, 2025

At low substrate concentrations, the reaction rate is directly proportional to the substrate concentration.
And reaction will be first order

Reply
- Varsha Tatla
  September 12, 2025
  
  1st oder reaction
  
  Reply
Mohd juber Ali
September 12, 2025

At low substrate concentration rate dependebt of subs.(first order reaction )

Reply
Priya dhakad
September 12, 2025

First order reaction becoz it depends upon substrate concentration.

Reply
Mansukh Kapoor
September 12, 2025

The correct answer is option 1st
First order reaction is based upon the substrate concentration

Reply
Tanvi Panwar
September 12, 2025

First order reaction is based on substrate concentration.

Reply
Heena Mahlawat
September 12, 2025

1st order reaction – here the concentration of substrate is low and limiting, hence reaction is dependent on concentration of one reactant only

Reply
HIMANI FAUJDAR
September 12, 2025

Ans First order reaction depend on one substrate concentration.

Reply
Kanica Sunwalka
September 13, 2025

first order as it is based on substrate conc .

Reply
Santosh Saini
September 13, 2025

1st order reaction depends linearly on the concentration of one substrate

Reply
Dharmpal Swami
September 13, 2025

First order rex.at which substrate construction is low

Reply
Neha Yadav
September 13, 2025

1st order of reaction depends on the 1 reactants conc. ( Low Substrate concentration )

Reply
Kirti Agarwal
September 13, 2025

First order reaction

Reply
Bhawna Choudhary
September 13, 2025

1st order reaction is the correct answer

Reply
Bhawna Choudhary
September 13, 2025

1st order reaction

Reply
Soniya Shekhawat
September 14, 2025

First order reaction depend on upon substate concentration in which substrate concentration is very low compared to the km .

Reply
Nilofar Khan
September 14, 2025

correct answer is (1) first order.
First order reaction depend upon substate.

Reply
Aafreen Khan
September 14, 2025

First Order Reaction because here the concentration of substrate is low and rate depends on the concentration of one reactant

Reply
Kajal
September 14, 2025

First order bcz depends upon substrate concentration

Reply
Ayush Dubey
September 14, 2025

first order.

Reply
Vanshika Sharma
September 14, 2025

First order reaction

Reply
Khushi Agarwal
September 14, 2025

The correct answer is (1) first order.

Reply
Anjali
September 14, 2025

First order reaction

Reply
Bhavana kankhedia
September 14, 2025

First order reaction

Reply
Manisha choudhary
September 14, 2025

Jab substrate concentration km hoti h too enzyme ki active site free bhi hoti h jaise jaise substrate concentration bdhayenge vese vese enzyme substate complex bhi bnta jayega jab tk ki sabhi enzyme ko substrate nhi mil jaate rate of reaction bdhegi straight line curve hoga means first oder reaction ko follow krega

Jab sbhi enzyme ko substrate mil jaayega at high substrate concentration ab substrate kaa number kitna bhi bdha lo rate of reaction nhi bdhegi means substrate ki concentration p depend nhi rahegi saturation aa jayega zero order reaction ko follow krega

Reply
Anurag Giri
September 14, 2025

Ans 1 A first-order reaction rate depends linearly on the concentration of one reactant

Reply
Mitali saini
September 14, 2025

The correct answer is (1) first order.

Reply
Avni
September 14, 2025

First Order Reaction rate depends on the concentration of one reactant

Reply
Rishita
September 14, 2025

first order.

Reply
Deepika sheoran
September 14, 2025

First order reaction is based upon the substrate concentration.

Reply
Arushi Saini
September 14, 2025

first order reaction depends upon the concentration of substrate

Reply
Asha Gurzzar
September 14, 2025

First order reaction

Reply
Payal Gaur
September 14, 2025

Substrate concentration low then follow 1st order V directly proportional to S¹

Reply
Simran Saini
September 14, 2025

First order reaction.

Reply
Pallavi Ghangas
September 14, 2025

First order reaction

Reply
anjani sharma
September 14, 2025

First order reaction is based on substrate concentration.

Reply
Sneha Kumawat
September 14, 2025

First order reaction depend on concentration

Reply
Priyanshi sharma
September 15, 2025

First order reaction because it’s depend upon substrate construction

Reply
Devika
September 15, 2025

First order

Reply
Khushi Vaishnav
September 15, 2025

First order reaction is based on low substrate concentration.

Reply
- Yogita
  September 16, 2025
  
  1st order reaction
  
  Reply
Anjana sharma
September 16, 2025

1st order reaction

Reply
Minal Sethi
September 16, 2025

at low substrate concentration the order of reaction is first order and when the substrate concentration is high or infinite then it becomes zero order

Reply
Muskan singodiya
September 16, 2025

1st order reaction

Reply
Alec
September 16, 2025

First order reaction because it depends on low substrate concentration

Reply
Muskan Yadav
September 17, 2025

First-order kinetics because the reaction rate depends on the amount of available substrate.

Reply
Divya rani
September 17, 2025

Reaction catalyzed by Enzyme at low substrate concentration is first order reaction.

Reply
Monika jangid
September 17, 2025

1st order reaction

Reply
Priti khandal
September 17, 2025

First order

Reply