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Higher Human Biology: Metabolic Pathways Summary PDF - Easy Guide for Kids

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Higher Human Biology: Metabolic Pathways Summary PDF - Easy Guide for Kids

Metabolic pathways form the foundation of cellular metabolism, consisting of interconnected enzyme-catalyzed reactions that regulate vital biological processes. This comprehensive guide explores the key concepts of metabolic pathways, their control mechanisms, and enzyme regulation.

Metabolic pathway biology encompasses both anabolic (building) and catabolic (breaking down) processes
• Enzyme activity and regulation play crucial roles in controlling metabolic reactions
• Pathways can include reversible steps and alternative routes for metabolic flexibility
• Understanding of substrate concentration and inhibitor effects is essential for pathway regulation
• Both competitive and non-competitive inhibition mechanisms help control metabolic processes

03/10/2022

331

1
7
Key Area 1.6
Metabolic Pathways
(a) Metabolic Pathways.
Metabolic pathways are integrated and controlled
pathways of enzyme- catalysed r

View

Control of Metabolic Pathways

The control of metabolic pathways is a critical aspect of cellular function, regulated through various mechanisms involving enzymes.

Definition: Enzyme control in metabolic pathways involves regulating the presence or absence of specific enzymes and modulating the reaction rates of key enzymes within the pathway.

Enzymes play a crucial role in metabolic processes by:

  1. Lowering the activation energy required to start a reaction.
  2. Providing a specific active site for substrate binding.
  3. Exhibiting a dynamic and flexible structure that allows for induced fit.

Vocabulary: Induced fit refers to the slight change in enzyme shape when substrate molecules enter the active site, allowing for a closer fit.

The relationship between enzymes and substrates is characterized by:

  1. Enzyme specificity: Each enzyme is specific to one type of substrate.
  2. Complementarity: Substrate molecules are complementary to the enzyme's active site.
  3. Affinity: Enzymes show high affinity for specific substrates and low affinity for products.

Highlight: The study of enzyme function and control is fundamental in higher human biology metabolic pathways.

1
7
Key Area 1.6
Metabolic Pathways
(a) Metabolic Pathways.
Metabolic pathways are integrated and controlled
pathways of enzyme- catalysed r

View

Substrate Concentration and Enzyme Inhibition

The rate of enzyme-catalyzed reactions in metabolic pathways is significantly influenced by substrate concentration and the presence of inhibitors.

Substrate Concentration Effects:

  1. At low concentrations, reaction rate is low due to insufficient substrate molecules.
  2. As concentration increases, reaction rate increases as more active sites are occupied.
  3. At high concentrations, reaction rate plateaus as all active sites become saturated.

Example: In a graph of reaction rate vs. substrate concentration, the curve initially rises steeply and then levels off at higher concentrations.

Enzyme Inhibitors:

Inhibitors are substances that decrease the rate of enzyme-controlled reactions. There are three main types:

  1. Competitive inhibitors
  2. Non-competitive inhibitors
  3. Feedback inhibitors

Definition: An inhibitor is a molecule that interferes with enzyme function, slowing down or stopping a metabolic reaction.

Competitive Inhibitors:

  • Have a similar shape to the enzyme's substrate
  • Bind to the active site, preventing substrate binding
  • Their effects can be reversed by increasing substrate concentration

Non-Competitive Inhibitors:

  • Bind to an allosteric site on the enzyme
  • Change the shape of the active site, preventing substrate binding
  • Their effects cannot be reversed by increasing substrate concentration

Feedback Inhibition:

  • Occurs when an end product in the metabolic pathway reaches a critical concentration
  • The end product inhibits an earlier enzyme in the pathway, blocking further synthesis

Highlight: Understanding enzyme inhibition is crucial for comprehending control of metabolic pathways in higher human biology and the regulation of cellular processes.

1
7
Key Area 1.6
Metabolic Pathways
(a) Metabolic Pathways.
Metabolic pathways are integrated and controlled
pathways of enzyme- catalysed r

View

Page 4: Enzyme Inhibition Mechanisms

The final page details different types of enzyme inhibition in metabolic pathways, focusing on competitive and non-competitive inhibition mechanisms.

Definition: Competitive inhibitors compete with substrates for the active site, while non-competitive inhibitors bind elsewhere on the enzyme.

Example: Feedback inhibition occurs when end products reach critical concentrations and inhibit earlier pathway steps.

Highlight: Competitive inhibition can be overcome by increasing substrate concentration, while non-competitive inhibition cannot.

Vocabulary: Allosteric site refers to a binding location on the enzyme distinct from the active site.

1
7
Key Area 1.6
Metabolic Pathways
(a) Metabolic Pathways.
Metabolic pathways are integrated and controlled
pathways of enzyme- catalysed r

View

Metabolic Pathways Overview

Metabolic pathways are integrated and controlled sequences of enzyme-catalyzed reactions within a cell. These pathways are crucial for maintaining cellular functions and can be either anabolic or catabolic in nature.

Definition: A metabolic pathway is a series of chemical reactions occurring within a cell, catalyzed by enzymes, to maintain life.

The structure of metabolic pathways includes:

  1. Reversible steps: Some reactions can proceed in both directions.
  2. Irreversible steps: Reactions that only occur in one direction.
  3. Alternative routes: Different pathways to achieve the same end product.

Example: In a typical pathway, Enzyme A catalyzes the conversion of a substrate to Intermediate 1, which can then be converted to Intermediate 2 by Enzyme B in a reversible step.

Anabolic pathways are processes that build up larger molecules from smaller ones, requiring energy.

Example: Protein synthesis from amino acids is an anabolic process.

Catabolic pathways, on the other hand, break down large molecules into smaller ones, releasing energy in the process.

Highlight: Understanding the 4 metabolic pathways and 5 metabolic processes in GCSE biology is crucial for grasping the fundamentals of cellular metabolism.

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Higher Human Biology: Metabolic Pathways Summary PDF - Easy Guide for Kids

Metabolic pathways form the foundation of cellular metabolism, consisting of interconnected enzyme-catalyzed reactions that regulate vital biological processes. This comprehensive guide explores the key concepts of metabolic pathways, their control mechanisms, and enzyme regulation.

Metabolic pathway biology encompasses both anabolic (building) and catabolic (breaking down) processes
• Enzyme activity and regulation play crucial roles in controlling metabolic reactions
• Pathways can include reversible steps and alternative routes for metabolic flexibility
• Understanding of substrate concentration and inhibitor effects is essential for pathway regulation
• Both competitive and non-competitive inhibition mechanisms help control metabolic processes

03/10/2022

331

 

S5/S6

 

Biology

24

1
7
Key Area 1.6
Metabolic Pathways
(a) Metabolic Pathways.
Metabolic pathways are integrated and controlled
pathways of enzyme- catalysed r

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Control of Metabolic Pathways

The control of metabolic pathways is a critical aspect of cellular function, regulated through various mechanisms involving enzymes.

Definition: Enzyme control in metabolic pathways involves regulating the presence or absence of specific enzymes and modulating the reaction rates of key enzymes within the pathway.

Enzymes play a crucial role in metabolic processes by:

  1. Lowering the activation energy required to start a reaction.
  2. Providing a specific active site for substrate binding.
  3. Exhibiting a dynamic and flexible structure that allows for induced fit.

Vocabulary: Induced fit refers to the slight change in enzyme shape when substrate molecules enter the active site, allowing for a closer fit.

The relationship between enzymes and substrates is characterized by:

  1. Enzyme specificity: Each enzyme is specific to one type of substrate.
  2. Complementarity: Substrate molecules are complementary to the enzyme's active site.
  3. Affinity: Enzymes show high affinity for specific substrates and low affinity for products.

Highlight: The study of enzyme function and control is fundamental in higher human biology metabolic pathways.

1
7
Key Area 1.6
Metabolic Pathways
(a) Metabolic Pathways.
Metabolic pathways are integrated and controlled
pathways of enzyme- catalysed r

Sign up to see the content. It's free!

Access to all documents

Improve your grades

Join milions of students

By signing up you accept Terms of Service and Privacy Policy

Substrate Concentration and Enzyme Inhibition

The rate of enzyme-catalyzed reactions in metabolic pathways is significantly influenced by substrate concentration and the presence of inhibitors.

Substrate Concentration Effects:

  1. At low concentrations, reaction rate is low due to insufficient substrate molecules.
  2. As concentration increases, reaction rate increases as more active sites are occupied.
  3. At high concentrations, reaction rate plateaus as all active sites become saturated.

Example: In a graph of reaction rate vs. substrate concentration, the curve initially rises steeply and then levels off at higher concentrations.

Enzyme Inhibitors:

Inhibitors are substances that decrease the rate of enzyme-controlled reactions. There are three main types:

  1. Competitive inhibitors
  2. Non-competitive inhibitors
  3. Feedback inhibitors

Definition: An inhibitor is a molecule that interferes with enzyme function, slowing down or stopping a metabolic reaction.

Competitive Inhibitors:

  • Have a similar shape to the enzyme's substrate
  • Bind to the active site, preventing substrate binding
  • Their effects can be reversed by increasing substrate concentration

Non-Competitive Inhibitors:

  • Bind to an allosteric site on the enzyme
  • Change the shape of the active site, preventing substrate binding
  • Their effects cannot be reversed by increasing substrate concentration

Feedback Inhibition:

  • Occurs when an end product in the metabolic pathway reaches a critical concentration
  • The end product inhibits an earlier enzyme in the pathway, blocking further synthesis

Highlight: Understanding enzyme inhibition is crucial for comprehending control of metabolic pathways in higher human biology and the regulation of cellular processes.

1
7
Key Area 1.6
Metabolic Pathways
(a) Metabolic Pathways.
Metabolic pathways are integrated and controlled
pathways of enzyme- catalysed r

Sign up to see the content. It's free!

Access to all documents

Improve your grades

Join milions of students

By signing up you accept Terms of Service and Privacy Policy

Page 4: Enzyme Inhibition Mechanisms

The final page details different types of enzyme inhibition in metabolic pathways, focusing on competitive and non-competitive inhibition mechanisms.

Definition: Competitive inhibitors compete with substrates for the active site, while non-competitive inhibitors bind elsewhere on the enzyme.

Example: Feedback inhibition occurs when end products reach critical concentrations and inhibit earlier pathway steps.

Highlight: Competitive inhibition can be overcome by increasing substrate concentration, while non-competitive inhibition cannot.

Vocabulary: Allosteric site refers to a binding location on the enzyme distinct from the active site.

1
7
Key Area 1.6
Metabolic Pathways
(a) Metabolic Pathways.
Metabolic pathways are integrated and controlled
pathways of enzyme- catalysed r

Sign up to see the content. It's free!

Access to all documents

Improve your grades

Join milions of students

By signing up you accept Terms of Service and Privacy Policy

Metabolic Pathways Overview

Metabolic pathways are integrated and controlled sequences of enzyme-catalyzed reactions within a cell. These pathways are crucial for maintaining cellular functions and can be either anabolic or catabolic in nature.

Definition: A metabolic pathway is a series of chemical reactions occurring within a cell, catalyzed by enzymes, to maintain life.

The structure of metabolic pathways includes:

  1. Reversible steps: Some reactions can proceed in both directions.
  2. Irreversible steps: Reactions that only occur in one direction.
  3. Alternative routes: Different pathways to achieve the same end product.

Example: In a typical pathway, Enzyme A catalyzes the conversion of a substrate to Intermediate 1, which can then be converted to Intermediate 2 by Enzyme B in a reversible step.

Anabolic pathways are processes that build up larger molecules from smaller ones, requiring energy.

Example: Protein synthesis from amino acids is an anabolic process.

Catabolic pathways, on the other hand, break down large molecules into smaller ones, releasing energy in the process.

Highlight: Understanding the 4 metabolic pathways and 5 metabolic processes in GCSE biology is crucial for grasping the fundamentals of cellular metabolism.

Can't find what you're looking for? Explore other subjects.

Knowunity is the #1 education app in five European countries

Knowunity has been named a featured story on Apple and has regularly topped the app store charts in the education category in Germany, Italy, Poland, Switzerland, and the United Kingdom. Join Knowunity today and help millions of students around the world.

Ranked #1 Education App

Download in

Google Play

Download in

App Store

Knowunity is the #1 education app in five European countries

4.9+

Average app rating

13 M

Pupils love Knowunity

#1

In education app charts in 12 countries

950 K+

Students have uploaded notes

Still not convinced? See what other students are saying...

iOS User

I love this app so much, I also use it daily. I recommend Knowunity to everyone!!! I went from a D to an A with it :D

Philip, iOS User

The app is very simple and well designed. So far I have always found everything I was looking for :D

Lena, iOS user

I love this app ❤️ I actually use it every time I study.