🏷️ LIMITED TIME OFFER: GET 20% OFF GRADE+ YEARLY SUBSCRIPTION →
Log in
HomeStudy Guides420,000CA160,000

EQN 2050 Study Guide - Midterm Guide: Butyric Acid, Glycogenesis, Gluconeogenesis

63 views3 pages
indigohound801
27 Feb 2017
School
University of Guelph
Department
Equine
Course
EQN 2050
Professor
Katrina Merkies

For unlimited access to Study Guides, a Grade+ subscription is required.

Document Summary

Pyruvate transport is moving the pyruvate from cytoplasm to the mitochondria. Of an o2 molecule: atpase will use this energy to add p to adp producing atp, oxygen joins h+ and e- to form water. After tca cyce, nadh and fadh will donate their hydrogens to the electron transport chain. Hydrogens build up in the inner mitochondrial membrane. This high pressure of hydrogens will then be used by atpase to produce. Nadh and fadh deliver theirs hydrogens at different locations therefore they have different atp yield. Oxygen is used to neutralize and make a molecule of water. Nadh from glycolysis are in the cytoplasm and produce some nadh, but how can they. Nadh coming must go into the mitochondria. Acetic acid (2 carbons: 10 atp. Propionic acid (3 carbons: 18 atp. Butyric acid (4 carbons: 27 atp. 70% of the e(cid:374)ergy co(cid:373)es fro(cid:373) fer(cid:373)e(cid:374)tatio(cid:374) of a horse"s diet. Glycolysis = anaerobic oxidation of glucose -> increase atp (very little yield)

Get access

Grade+20% off
$8 USD/m$10 USD/m
Billed $96 USD annually
Grade+
Homework Help
Study Guides
Textbook Solutions
Class Notes
Textbook Notes
Booster Class
40 Verified Answers

Related Documents

BIOL 1020 Lecture Notes - Lecture 14: Cytochrome, Cytochrome C Oxidase, Pyruvic Acid
blushseal731
BIOL 2520 Lecture Notes - Lecture 22: Citric Acid Cycle, Nephron, Acetyl-Coa
limecicada311
BIOLOGY 172 Lecture Notes - Lecture 14: Phospholipid, Cell Membrane, Chemiosmosis
purplebeaver856

Related Questions

19. Which of the following is a component of Succinate dehydrogenase in Electron transport chain?

A. Niacin

B. FMN

C. FAD

D. Coenzyme Q

E. Lipoic acid

20. In electron transport the flow of electrons:

A. is bidirectional

B. goes from a high energy state to a low energy state

C. takes place in the outer mitochondrial membrane

D. are used to pump H+ into the mitochondrial matrix

21. Which of the following statements about the electron transport chain is NOT correct

A. It is located in the inner mitochondrion membrane

B. Cytochrome c accepts electrons from complex II

C. Cytochrome c oxidase (complex IV) accepts electrons from Cytochrome c

D. Complex I is called NADH dehydrogenase

E. Coenzyme Q accepts electrons from complex I and complex II

22. In the electron transport chain, the enzyme cytochrome C oxidase:

A. Uses H2O as a substrate

B. Produces HOOH as a product

C. Cannot function if oxygen is absent

D. Accepts electrons from hydrogen ions

E. Uses ADP and Pi as substrates

1.

Why does an electron have lower potential energy in an H-O bondthan in an O=O bond?

H has a higher electronegativity than O.

O=O is not stable.

O=O contains a double bond.

The electrons are closer to the oxygen atom in the H-O bond.

None of the answers are correct.

2.

How is the energy from the electron transport chain used mostdirectly?

to form the bonds of a water molecule

to pump hydrogen ions across the mitochondrial inner membraneinto the mitochondrial intermembrane space

to join ADP with a phosphate

to decompose glucose into pyruvate

to rotate ATP synthase

3.

Which process provides the energy needed to pump protons acrossthe mitochondrial membrane during oxidative phosphorylation?

the transfer of electrons in redox reactions

the breakdown of ATP to ADP

the rotation of the ATP synthase rotor

oxidation of isocitrate

None of the answers are correct.

4.

What causes the ATP synthase rotor to spin?

the passing of electrons through ATP synthase

the movement of protons across the mitochondrial membrane

the movement of electrons across the mitochondrial membrane

the synthesis of ATP from ADP and a phosphate group

None of the answers are correct.

5.

What of the following generates the proton-motive force duringoxidative phosphorylation?

buildup of NADH molecules at protein complex I

movement of H+ ions across the mitochondrial membraneduring electron transport

rotation of the ATP synthase rotor

joining of H+ ions with oxygen to form water

None of the answers are correct.

6.

Suppose a microorganism invades a cell, causing damage to ATPsynthase. How would cellular respiration be affected?

Electrons could not be passed down the electron transportchain.

ADP could not be joined with a phosphate to form ATP.

Hydrogen ions could not be pumped into the mitochondrialintermembrane space.

The cell could not release any energy from the glucosemolecule.

Glucose could not be broken down into pyruvate.

7.

Which molecules transport electrons from the citric acid cycleto the electron transport chain?

NADH and FADH2

ATP and ADP

GTP and GDP

oxaloacetate and citric acid

None of the answers are correct.

8.

Which type of reactions control the energy release from glucoseduring the citric acid cycle?

acid-base reactions

redox reactions

random reactions

All answers are correct.

None of the answers are correct.

9.

What is the role of NAD+ in cellular respiration?

to receive electrons from the citric acid cycle and deliver themto the electron transport chain

to catalyze the synthesis of ATP from ADP

to accumulate in the mitochondrial intermembrane space tofacilitate ATP synthesis

to serve as a substrate to bind to acetyl-CoA at the beginningof the citric acid cycle

None of the answers are correct.

10.

Which molecule enters the citric acid cycle?

glucose

pyruvate

ATP

acetyl-CoA

None of the answers are correct.

1)Pyruvate is one of the products of glycolysis that can be used by aerobic organisms to extract additional energy. Explain what happens to pyruvate after glycolysis, name the multi-enzyme complex that catalyzes this reaction, and name the cycle that the product feeds into.

2)Suppose you start with 1 molecule of glucose and go through glycolysis to produce 2 molecules of pyruvate. These 2 molecules of pyruvate are then converted into acetyl CoA which then go through the TCA cycle. Theoretically, how many total ATP can be formed through this process? (Account for NADH/FADH2 produced). Show where each molecule of ATP is generated from.

3)Name the five types of membrane-bound electron carriers. All of the redox centers within the respiratory chain that accept and donate electrons are prosthetic groups except which?

4)Peroxisomes are the site of what? What properties do peroxisomes share with mitochondria?