Learn Glycolysis, Kreb’s Cycle and E.T.C with a Doctor
SAT Score Range
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3 sessions
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MK
NS
rl
+5
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🔥 2 spots left!
About
Join this interactive session led by a medical doctor, where we'll learn the complex processes of glycolysis, the Krebs cycle, and the electron transport chain (ETC) step by step. We'll explore each stage's key enzymes, regulation points, and energy yield, and connect them to real-life physiology and medicine. Expect visuals, analogies, and live Q&A throughout. This session is perfect for high school, AP Biology, and early college students aiming to deeply understand cellular respiration.
Tutored by
I am a medical doctor and i also tutor students of age group between 15-26 years old covering high school science / advanced level science ( Ap bio ) / biology / medical entrance exams / medical sciences. I have an experience of 3+ years in tutoring . My other hobbies are social media management and graphic designing for small cafes and restaurants.
✋ ATTENDANCE POLICY
To ensure you get the most out of this session and contribute meaningfully to group discussions, please plan to attend the entire session from start to finish.
Active participation is encouraged☺️
SESSION 2
9
Aug
SESSION 2
Other Topics
Other Topics
Sat 3:00 PM - 4:15 PM UTCAug 9, 3:00 PM - 4:15 PM UTC
Let’s explore how pyruvate is converted into acetyl-CoA and enters the citric acid cycle (Krebs cycle).
What We’ll cover ?
1) The 8 steps of the Krebs cycle with giving more importance to Pyruvate dehydrogenase enzyme and key enzymes NADH/FADH₂ yield
2) how this connects to the ETC Regulation by calcium and energy status of the cell
3) Medical relevance (e.g., thiamine deficiency, mitochondrial disorders)
4) A mnemonic to remember steps of Krebs cycle
This session will focus on visual learning and interactive Q&A with live sketching of the cycle.
SESSION 3
11
Aug
SESSION 3
Other Topics
Other Topics
Mon 3:00 PM - 4:15 PM UTCAug 11, 3:00 PM - 4:15 PM UTC
In our final and most crucial session, we’ll learn how the electron transport chain uses the energy from NADH and FADH₂ to generate ATP.
What You’ll learn ?
1) Complex I to IV
2) ATP synthase
3) proton gradien
4) Oxygen’s role and what happens in hypoxia
5) Uncouplers, inhibitors (e.g., cyanide) and physiological uncouplers