بحث
  • بحث
  • بلدي القصص المصورة

BIO

قم بإنشاء Storyboard
انسخ هذه القصة المصورة
BIO
Storyboard That

إنشاء القصة المصورة الخاصة بك

جربه مجانا!

إنشاء القصة المصورة الخاصة بك

جربه مجانا!

نص القصة المصورة

  • Mitochondrial Matrix
  • YUM! That's some good food
  • In The Cells
  • In biological processes, ATP is the energy currency. ADP releases energy and ATP stores it.The catabolic pathways that break down energy-rich substances to create ATP are part of cellular respiration.The thousands of reactions that occur during cellular respiration are summarised in the equation below:C6H12O6(s) + 6O2(g) 6CO 🡪 2(g) + 6H2O(l) +ATP
  • YAY! Now ATP can be made by breaking down the energy-rich compounds that were just consumed
  • 6 carbon SugarC-C-C-C-C-C
  • 1. Glycolysis
  • Glucose
  • Cytoplasm
  • (2) ADP + P
  • (2) NAD+
  • (2) NADH
  • (2) ATP
  • Occurs in CytoplasmUses 2 ATP, creates 4 reduces 2 NAD+ to 2 NADHDoesn't require O2Breakdown of Glucose into 2 Pyruvate Molecules
  • (2) 3 carbon moleculesC-C-C C-C-C(or 2 pyruvate)
  • 2. Pyruvate Oxidation
  • Occurs in the mitochondrial matrixFor 1 Pyruvate has 1C is removedReleases 1 molecule of CO2 Becomes 2C compound1 molecule of NADH is formed (per 1 Pyruvate)Acetyl group attaches to CoA which forms the Acetyl coenzyme A
  • Pyruvate + NAD++ CoA → Acetyl-CoA + NADH + CO2 + H+
  • Pyruvate3 carbon moleculesC-C-C
  • Transport Protein
  • NAD+
  • 
  • CO2
  • Coenzyme A (CoA)
  • NADH + H+
  • Acetyl- CoA
  • FADH2
  • NADH
  • FAD+
  • The Krebs Cycle is requires oxygen to process.
  • NAD+
  • 3. Krebs Cycle
  • 
  • ATP
  • Acetyl CoA
  • CoA
  • CoA
  • NAD+
  • NADH + CO2
  • NAD+
  • Carbon
  • NADH + CO2
  • Occurs in the mitochondrial matrixCoA separates from 2-carbon, forming a 6C molecule.One CO2 is produced when two C are oxidized (2 are created due to two Acytle CoA)NAD+ captures electrons from oxidation, resulting in NADH (1 per CO2)There is a release of 1 ATP and 1 FADH.After 2 cycles:4 CO26 NADH2 FADH2 ATP
  • Electron Transport Carriers
  • All of the electron carriers, as well as NADH and FADH, are utilized here.While transferring electrons through proteins, NADH offers 3 H and FADH gives 2 H+.H+ diffuses into the gap between the inner and outer membranes, forming a gradient.ADP →ATP, electrons are exchanged between proteins.The electron reaches the final acceptor, O2, which forms H2O with the help of H from ATP synthase.Electron carriers are molecules that transfer electrons while also storing energy for a short period of time.
  • (Khan Academy, 2016)
تم إنشاء أكثر من 30 مليون من القصص المصورة