Biology SL
Biology SL
4
Chapters
553
Notes
Theme A - Unity & Diversity
Theme A - Unity & Diversity
Theme B - Form & Function
Theme B - Form & Function
Theme C - Interaction &  Interdependence
Theme C - Interaction & Interdependence
Theme D - Continuity & Change
Theme D - Continuity & Change
IB Resources
Theme D - Continuity & Change
Biology SL
Biology SL

Theme D - Continuity & Change

Unlocking Proteasomes: The Powerhouse of Amino Acid Recycling

Word Count Emoji
457 words
Reading Time Emoji
3 mins read
Updated at Emoji
Last edited on 5th Nov 2024

Table of content

🌟 Fun Fact: Proteins in our cells don’t last forever! Just like we recycle plastic and paper, our cells recycle proteins. 🔄

The Short Life of Proteins - 🥚➡️🐣➡️🐔

  • Proteins made by translation don’t hang around for long.
  • Why? Several reasons!
    • 🔁 Changing Needs: Cells change activities. For instance, when a cell moves from one phase of its life cycle to the next, it might not need a certain protein anymore.
      • 🌍 Real-World Example: Just like outgrowing childhood toys when you become a teenager, cells outgrow certain proteins as they move through stages.
    • 🧪 Chemical Damage: Some proteins are sensitive and can be altered by free radicals or other reactive chemicals. Once changed, they can't do their jobs.
      • 🌍 Real-World Example: Imagine if coffee spilled on your laptop. It won't work properly, right? Similarly, when proteins get "damaged," they can't function.
    • 🌡️ Misfolding: Sometimes proteins can get twisted, misshaped, or denatured.
      • 🌍 Real-World Example: Like when you accidentally shrink your favorite sweater in the wash - it doesn’t fit or function as it used to!

The Mighty Proteasome - Protein Recycling Center! ♻️

  • When proteins can't do their jobs or are not needed, proteasomes break them down.
    • 🔍 Appearance: Check out the proteasome structure in your textbook!
  • Ubiquitin Tagging: If a protein is destined for recycling, it gets a 'tag' with small proteins called ubiquitin.
    • 🌍 Real-World Example: Think of ubiquitin as the recycling symbol ♻️, indicating the protein is ready for the recycling bin!
  • Proteasome Process
    • Entry: The ubiquitinated proteins get recognized by the proteasome’s regulatory subunits.
    • Unfolding: The proteins are unfolded and sent into the proteasome’s central chamber. This action needs energy from ATP.
    • Digestion: Inside the proteasome, multiple proteases break the proteins into shorter amino acid chains.
    • Exit & Recycling: These short chains leave the proteasome and are further digested in the cytoplasm. This process gives amino acids which the cell can use to make new proteins.
      • 🌍 Real-World Example: This is like breaking down an old wooden chair to reuse the wood to build a new table.

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IB Resources
Theme D - Continuity & Change
Biology SL
Biology SL

Theme D - Continuity & Change

Unlocking Proteasomes: The Powerhouse of Amino Acid Recycling

Word Count Emoji
457 words
Reading Time Emoji
3 mins read
Updated at Emoji
Last edited on 5th Nov 2024

Table of content

🌟 Fun Fact: Proteins in our cells don’t last forever! Just like we recycle plastic and paper, our cells recycle proteins. 🔄

The Short Life of Proteins - 🥚➡️🐣➡️🐔

  • Proteins made by translation don’t hang around for long.
  • Why? Several reasons!
    • 🔁 Changing Needs: Cells change activities. For instance, when a cell moves from one phase of its life cycle to the next, it might not need a certain protein anymore.
      • 🌍 Real-World Example: Just like outgrowing childhood toys when you become a teenager, cells outgrow certain proteins as they move through stages.
    • 🧪 Chemical Damage: Some proteins are sensitive and can be altered by free radicals or other reactive chemicals. Once changed, they can't do their jobs.
      • 🌍 Real-World Example: Imagine if coffee spilled on your laptop. It won't work properly, right? Similarly, when proteins get "damaged," they can't function.
    • 🌡️ Misfolding: Sometimes proteins can get twisted, misshaped, or denatured.
      • 🌍 Real-World Example: Like when you accidentally shrink your favorite sweater in the wash - it doesn’t fit or function as it used to!

The Mighty Proteasome - Protein Recycling Center! ♻️

  • When proteins can't do their jobs or are not needed, proteasomes break them down.
    • 🔍 Appearance: Check out the proteasome structure in your textbook!
  • Ubiquitin Tagging: If a protein is destined for recycling, it gets a 'tag' with small proteins called ubiquitin.
    • 🌍 Real-World Example: Think of ubiquitin as the recycling symbol ♻️, indicating the protein is ready for the recycling bin!
  • Proteasome Process
    • Entry: The ubiquitinated proteins get recognized by the proteasome’s regulatory subunits.
    • Unfolding: The proteins are unfolded and sent into the proteasome’s central chamber. This action needs energy from ATP.
    • Digestion: Inside the proteasome, multiple proteases break the proteins into shorter amino acid chains.
    • Exit & Recycling: These short chains leave the proteasome and are further digested in the cytoplasm. This process gives amino acids which the cell can use to make new proteins.
      • 🌍 Real-World Example: This is like breaking down an old wooden chair to reuse the wood to build a new table.

Unlock the Full Content! File Is Locked Emoji

Dive deeper and gain exclusive access to premium files of Biology SL. Subscribe now and get closer to that 45 🌟