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Factors affecting enzyme activity

How Temperature and Helpers Affect Enzyme Actions

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How Temperature and Helpers Affect Enzyme Actions
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Amala Seth

@amala_seth

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Enzymes are biological catalysts that play a crucial role in metabolic processes, featuring specific structures and functions that enable them to speed up chemical reactions without being consumed.

  • The effect of temperature on enzyme activity is significant, with optimal function typically between 40-50°C before denaturation occurs
  • Enzymes possess active sites that are complementary to specific substrates, following either the lock-and-key or induced-fit model
  • Role of cofactors in enzyme function involves improving active site shape and enhancing enzyme efficiency
  • Competitive versus non-competitive enzyme inhibition represents different mechanisms for controlling enzymatic reactions
  • Enzyme structure and function are highly dependent on environmental conditions including pH and temperature

05/01/2023

124

Structure globular proteins Specific-only work with I substrate. tertiary structure contain active site.. Function metabolic catalysts Speed

View

Page 2: Enzyme Inhibition and Cofactors

The second page delves into enzyme inhibition mechanisms and the role of cofactors in enzymatic reactions. It presents a detailed comparison between competitive and non-competitive inhibition, along with their effects on reaction rates.

Definition: Cofactors are small molecules that bind with enzymes to improve the shape of the active site.

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

Example: Chloride ions act as cofactors for salivary amylase, improving how well starch fits into the active site.

Vocabulary:

  • Competitive inhibition: When molecules similar to the substrate block the active site
  • Non-competitive inhibition: When molecules bind away from the active site but change the enzyme's structure

The page emphasizes that while competitive inhibition is usually reversible, non-competitive inhibition typically results in permanent denaturation of the enzyme.

Structure globular proteins Specific-only work with I substrate. tertiary structure contain active site.. Function metabolic catalysts Speed

View

Page 1: Enzyme Structure and Function

The first page explores the fundamental aspects of enzyme structure and their catalytic function. Enzymes are described as globular proteins with specific tertiary structures containing active sites. These biological catalysts are soluble in water and their activity is influenced by both pH and temperature.

Definition: Enzymes are metabolic catalysts that speed up reactions without being consumed in the process.

Highlight: The optimal temperature range for most enzymes is 40-50°C, beyond which denaturation occurs.

Example: Different types of bonds are broken by specific enzymes - peptide bonds by proteases, glycosidic bonds by carbohydrases, and ester bonds by lipases.

Vocabulary: Denaturation refers to the process where an enzyme's tertiary structure breaks down, rendering it non-functional.

The page also details two main theories of enzyme-substrate interaction:

  1. Lock-and-Key Hypothesis: Where the enzyme's active site perfectly matches the substrate
  2. Induced-fit Hypothesis: Where the enzyme's shape slightly adjusts as the substrate binds

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Subjects

/

Biology

/

Biological molecules

/

Proteins

/

Factors affecting enzyme activity

How Temperature and Helpers Affect Enzyme Actions

user profile picture

Amala Seth

@amala_seth

·

58 Followers

Follow

Enzymes are biological catalysts that play a crucial role in metabolic processes, featuring specific structures and functions that enable them to speed up chemical reactions without being consumed.

  • The effect of temperature on enzyme activity is significant, with optimal function typically between 40-50°C before denaturation occurs
  • Enzymes possess active sites that are complementary to specific substrates, following either the lock-and-key or induced-fit model
  • Role of cofactors in enzyme function involves improving active site shape and enhancing enzyme efficiency
  • Competitive versus non-competitive enzyme inhibition represents different mechanisms for controlling enzymatic reactions
  • Enzyme structure and function are highly dependent on environmental conditions including pH and temperature

05/01/2023

124

 

12/13

 

Biology

5

Structure globular proteins Specific-only work with I substrate. tertiary structure contain active site.. Function metabolic catalysts Speed

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Page 2: Enzyme Inhibition and Cofactors

The second page delves into enzyme inhibition mechanisms and the role of cofactors in enzymatic reactions. It presents a detailed comparison between competitive and non-competitive inhibition, along with their effects on reaction rates.

Definition: Cofactors are small molecules that bind with enzymes to improve the shape of the active site.

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

Example: Chloride ions act as cofactors for salivary amylase, improving how well starch fits into the active site.

Vocabulary:

  • Competitive inhibition: When molecules similar to the substrate block the active site
  • Non-competitive inhibition: When molecules bind away from the active site but change the enzyme's structure

The page emphasizes that while competitive inhibition is usually reversible, non-competitive inhibition typically results in permanent denaturation of the enzyme.

Structure globular proteins Specific-only work with I substrate. tertiary structure contain active site.. Function metabolic catalysts Speed

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 1: Enzyme Structure and Function

The first page explores the fundamental aspects of enzyme structure and their catalytic function. Enzymes are described as globular proteins with specific tertiary structures containing active sites. These biological catalysts are soluble in water and their activity is influenced by both pH and temperature.

Definition: Enzymes are metabolic catalysts that speed up reactions without being consumed in the process.

Highlight: The optimal temperature range for most enzymes is 40-50°C, beyond which denaturation occurs.

Example: Different types of bonds are broken by specific enzymes - peptide bonds by proteases, glycosidic bonds by carbohydrases, and ester bonds by lipases.

Vocabulary: Denaturation refers to the process where an enzyme's tertiary structure breaks down, rendering it non-functional.

The page also details two main theories of enzyme-substrate interaction:

  1. Lock-and-Key Hypothesis: Where the enzyme's active site perfectly matches the substrate
  2. Induced-fit Hypothesis: Where the enzyme's shape slightly adjusts as the substrate binds

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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

15 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.