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 Protein Variants The Magic of Alternative Splicing

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

Table of content

The Magic of Alternative Splicing

  • Imagine one gene turning into a magician, whipping out multiple protein variants like a rabbit out of a hat! 🎩🐰 That's what happens with alternative splicing!
  • Basic Concept: One gene can produce multiple protein forms through post-transcriptional modification.

What Exactly Happens?

  • First, we get the primary transcript (kind of like the raw material). This remains unchanged.
  • But then... TADA! The mRNA may undergo changes, like skipping an exon (part of the mRNA).
    • Think of it like editing a movie scene. Sometimes, you remove a scene to change the story slightly.
    • Most common method: Exon skipping.

Why is this Cool?

  • We get different forms of a protein without duplicating the gene.
  • Imagine having to buy a new cookbook each time for just one new recipe. Nope! We just tweak the ones we have.

Real-World Example - Heart of the Matter - Troponin T gene (TNNT2)

  • Troponin: Muscle protein superstar. Helps muscles contract and relax.

    • Attached to actin filaments.
    • Moves tropomyosin, allowing myosin filaments to bind. Think of this as dancers coming together for a final move!
  • Troponin Components

    • Troponin C
    • Troponin I
    • Troponin T (TnT): The binding buddy of tropomyosin.
  • Fun Fact: We have only one form each of troponin C and I. But 4 forms of troponin T!

    • TnT1 & TnT2: The baby versions (found in fetal hearts).
    • TnT3: The adult version (like most of us reading this! 😉)
    • TnT4: The version in diseased hearts.
  • The Magical Change: TNNT has 17 exons. Alternative splicing occurs especially at exons 4 & 5 to produce the 4 versions of troponin T.

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 🌟

Nail IB's App Icon
IB Resources
Theme D - Continuity & Change
Biology SL
Biology SL

Theme D - Continuity & Change

Unlocking Protein Variants The Magic of Alternative Splicing

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

Table of content

The Magic of Alternative Splicing

  • Imagine one gene turning into a magician, whipping out multiple protein variants like a rabbit out of a hat! 🎩🐰 That's what happens with alternative splicing!
  • Basic Concept: One gene can produce multiple protein forms through post-transcriptional modification.

What Exactly Happens?

  • First, we get the primary transcript (kind of like the raw material). This remains unchanged.
  • But then... TADA! The mRNA may undergo changes, like skipping an exon (part of the mRNA).
    • Think of it like editing a movie scene. Sometimes, you remove a scene to change the story slightly.
    • Most common method: Exon skipping.

Why is this Cool?

  • We get different forms of a protein without duplicating the gene.
  • Imagine having to buy a new cookbook each time for just one new recipe. Nope! We just tweak the ones we have.

Real-World Example - Heart of the Matter - Troponin T gene (TNNT2)

  • Troponin: Muscle protein superstar. Helps muscles contract and relax.

    • Attached to actin filaments.
    • Moves tropomyosin, allowing myosin filaments to bind. Think of this as dancers coming together for a final move!
  • Troponin Components

    • Troponin C
    • Troponin I
    • Troponin T (TnT): The binding buddy of tropomyosin.
  • Fun Fact: We have only one form each of troponin C and I. But 4 forms of troponin T!

    • TnT1 & TnT2: The baby versions (found in fetal hearts).
    • TnT3: The adult version (like most of us reading this! 😉)
    • TnT4: The version in diseased hearts.
  • The Magical Change: TNNT has 17 exons. Alternative splicing occurs especially at exons 4 & 5 to produce the 4 versions of troponin T.

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 🌟