Answer any one and only one of the following:
Answer any one and only one of the following:
a. Describe the mitochondrial electron transport pathway and the synthesis of ATP by mammalian mitochondria.
b. Provide an overview of fatty acid synthesis and breakdown and their coordinated regulation.
c. Discuss the regulation of the TCA cycle.
d. Compare and contrast the KNF and MWC models.
Homework Answers
NADH2 & FADH2 obtained from glycolysis
and Kreb's cycle enter in electron transport chain (ETC) and
form H2O by oxidation.
In this process, energy is released which is used for the synthesis of ATP.
Transfer of electrons from NADH2 or FADH2
occurs through a chain of electron acceptors and donors
arranged in a specific sequence.
Electron transport chain is located in inner mitochondrial membrane in Eukaryotes (mammals).
ETS (Respiratory chain) consists of four components
1. FP (flavoprotein) or FMN
2. Fe-S Protein
3. Co-Q
4. Cytochromes.
Cytochromes are cyt.-b, cyt.-C1 & cyt. C, cyt.-a & cyt a3 (cyt a & a3 - Cu containing)
Two electron acceptors coenzyme Q or ubiquinone and cytochrome C
can be easily separated from
respiratory chain, therefore they are called mobile carriers. CoQ
functions for electon transport between
complex I and III and cyt.C transports electrons between complex
III and IV.
Hydrogen is transferred from NADH2 to FMN and NAD is
obtained back from NADH2. FMN forms
FMNH2.
Two protons and electrons are released from FMNH2.
Two protons are transported out through
membrane and two electrons are taken up by Fe-S protein.
Terminal oxidation of reduced coenzyme FADH2 also
occurs at mitochondrial ETS. FADH2 gives its
electron and hydrogen to CoQ and become FAD.
During the ETS, NADH2 gives itís 2electrons /
2H+ to FMN in respiratory chain, thus 3 ATP are
generated,
while FADH2 give its 2electrons / 2H+ to CoQ
hence only 2 ATP are formed during the process of oxidative
phosphorylation.
Thanks
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