Murphy Cell Respiration Student Notes PDF

Summary

These are student notes on cell respiration. The document covers various aspects of the process, including the Krebs cycle, electron transport chain, and fermentation. Diagrams and equations are also included.

Full Transcript

Adenine Ribose Phosphate
 ATP ADP
Ribose Ribose
Adenine Adenine
Triphosphate
Diphosphate
Phosphate Phosphate
removed added to ADP
Energy is stored in
the ATP molecule
Energy is released
for cell work
 Mitochondria.
Site of respiration. C6H12O6 + O2 Sun
ALL living things.

Chloroplast.
ATP
Site of photosynthesis. CO2 + H20
Green plants only. Heat
Glucose 2 ATP
May enter mitochondria
for Krebs cycle

2 molecules
2 ADP
of PGAL

2 NADH 2 NAD+

May stay in cytoplasm
(fermentation)

2 molecules of
pyruvic acid
Used in
4 ADP
ETC

4 ATP
 Glucose
Takes place
(Organic
cytoplasm
Compounds)

Aerobic
respiration Oxygen absent
(Krebs and ETC)

Anaerobic
ATP (Fermentation)

Takes place
mitochondria ATP

Oxygen present

Glycolysis
Pyruvic acid
 Electron Glycolysis
Krebs Anaerobic Cytoplasm Electrons
Transport Glucose to
Cycle carried in NADH
Chain pyruvic acid Aerobic Mitochondria and FADH2

Electrons
carried in 2 ATP 34 ATP 2 ATP
NADH
2 molecules of Used in
acetyl-CoA ETC

Used in
2 Pyruvic acid
Krebs cycle
Coenzyme A
(CoA) joins the
2-C molecule

2 NADH 2 acetate

2 CO2 2 NAD+
Citric Acid Oxaloacetic
6-C acid 4-C

4-Carbon 4-Carbon
compound compound

5-Carbon
FAD FADH2
compound

CoA CO2 CO2

NAD+ NAD+ NAD+

NADH NADH NADH

ADP + P ATP
 Mitochondria Matrix of Mitochondria 10 NADH O2
ADP + P
Cristae 2 FADH2 H 2O ATP
Krebs
Inner cycle NAD+
membrane
space FAD
ETC

Outer membrane e-

ATP H+
Synthase

e-
Ethyl alcohol Glucose Glycolysis Pyruvic acid

2 ATP If no O2 is
CO2
available
Lactic Acid Glucose Glycolysis Pyruvic acid

2 ATP If no O2 is
available
C6H12O6 + O2 → CO2 + H2O + 38 ATP CO2 and H2O Mitochondria Energy capture

Energy release CO2 and H2O C6H12O6 and O2 CO2 + H2O + sun → C6H12O6 + O2

Chloroplasts C6H12O6 and O2