F 24 ATP PHOSPHORLATIONS VIA KREBS CYCLE NADH E- DONORS · 2020-03-29 · krebs cycle f 2 fadh...

24 ATP

PHOSPHORLATIONS

VIA KREBS CYCLE

NADH

E- DONORS

F

MITOCHONDRION

CELL CYTOSOL

DOUBLE MEMBRANE

OUTER MEMBRANE

CRISTAE MEMBRANE

MATRIX

ETC

KREBS

CYCLE

F

2 FADH E-

MITOCHONDRION

CELL CYTOSOL

DOUBLE MEMBRANE

OUTER MEMBRANE

CRISTAE MEMBRANE

MATRIX

ETC

KREBS

CYCLE

2 FADH

E-

“A1”

= CHEMICAL ENERGY

= DISSIPATED HEAT ENERGY

CY-B

CY-C

CY-A

CY-A3

E-

ELECTRON TRANSPORT CHAIN

MITOCHONDRION

CRISTAE & MATRIX

2 FADHKREBS CYCLE

MITOCHONDRION CRISTAE

F

“A1”

= CHEMICAL ENERGY

= DISSIPATED HEAT ENERGY

CY-B

CY-C

CY-A

CY-A3

E-

ELECTRON TRANSPORT CHAIN

MITOCHONDRION

CRISTAE & MATRIX

2 FADH

1

MITOCHONDRION CRISTAE

KREBS CYCLE

E-LESS ENERGY THAN NADH

“A1”

= CHEMICAL ENERGY

= DISSIPATED HEAT ENERGY

CY-B

CY-C

CY-A

CY-A3

E-

ELECTRON TRANSPORT CHAIN

MITOCHONDRION

CRISTAE & MATRIX

R

1 FADH

MITOCHONDRION CRISTAE

KREBS CYCLE

E-LESS ENERGY THAN NADH

REDOX RXTS

E-

E-

“A1”

E-

= CHEMICAL ENERGY

= DISSIPATED HEAT ENERGY

CY-B

CY-C

CY-A

O

E-

CY-A3

E-

OXYGEN

ELECTRON TRANSPORT CHAIN

MITOCHONDRION

CRISTAE & MATRIX

REDOX RXT

REDOX RXT

REDOX RXT

REDOX RXT

LESS ENERGY THAN NADH E-

E-

KREBS CYCLE 1 FADH

MITOCHONDRION CRISTAE

DISSIPATED HT EGY

DISSIPATED HT EGY

DISSIPATED HT EGY

REDOX RXTS

E-

E-

“A1”

E-

= CHEMICAL ENERGY

= DISSIPATED HEAT ENERGY

CY-B

CY-C

CY-A

O

E-

CY-A3

E-

OXYGEN

ELECTRON TRANSPORT CHAIN

MITOCHONDRION

CRISTAE & MATRIX

REDOX RXT

REDOX RXT

REDOX RXT

REDOX RXT

LESS ENERGY THAN NADH E-

E-

DISSIPATES

ENERGY

P

KREBS CYCLE 1 FADH

MITOCHONDRION CRISTAE

DISSIPATED HT EGY

DISSIPATED HT EGY

DISSIPATED HT EGY

REDOX RXTS

E-

E-

“A1”

E-

= CHEMICAL ENERGY

= DISSIPATED HEAT ENERGY

CY-B

CY-C

CY-A

O

E-

CY-A3

E-

OXYGEN

ELECTRON TRANSPORT CHAIN

MITOCHONDRION

CRISTAE & MATRIX

REDOX RXT

REDOX RXT

REDOX RXT

REDOX RXT

LESS ENERGY THAN NADH E-

E-

DISSIPATES

ENERGY

PHOSPHORYLATION

2

KREBS CYCLE 1 FADH

DISSIPATED HT EGY

DISSIPATED HT EGY

DISSIPATED HT EGY

E-

“A1”

CY-B

CY-C

CY-A

O

E-

CY-A3

E-

ATP

P +ADP

P + ADPE-

E-

OXYGEN

PHOSPHORYLATION

REDOX RXT

REDOX RXT

REDOX RXT

REDOX RXT

LESS ENERGY THAN NADH E-

CHEM EGY

INPUT

CHEM EGY

INPUT

ATP

PHOSPHORYLATION

2

FKREBS CYCLE 1 FADH

E-

“A1”

CY-B

CY-C

CY-A

O

E-

CY-A3

E-

ATP

P +ADP

P + ADPE-

E-

OXYGEN

PHOSPHORYLATION

REDOX RXT

REDOX RXT

REDOX RXT

REDOX RXT

LESS ENERGY THAN NADH E-

CHEM EGY

INPUT

CHEM EGY

INPUT

ATP

PHOSPHORYLATION

2 FADH ?KREBS CYCLE

HOW MANY NET ATP

PHOSPHORLATIONS

VIA KREBS CYCLE

FADH?

QUESTION

QUESTION

#

4 ATP

PHOSPHORLATIONS

VIA KREBS CYCLE

FADH

E- DONORS

?

HOW MANY NET ATP

PHOSPHORLATIONS

VIA THE ENTIRE

KREBS CYCLE E- DONORS?

QUESTION

QUESTION

#

24 ATP

PHOSPHORLATIONS

VIA KREBS CYCLE

NADH

E- DONORS

#

4 ATP

PHOSPHORLATIONS

VIA KREBS CYCLE

FADH

E- DONORS

28 ATP

PHOSPHORLATIONS

VIA KREBS CYCLE

E- DONORS

^

ETC

ATP NET

?

!

HOW MANY NET ATP

PHOSPHORLATIONS

VIA GLYCOLYSIS

E- DONORS?

QUESTION

QUESTION

#

4 ATP

PHOSPHORLATIONS

VIA GLYCOLYSIS

E- DONORS

!

?

HOW MANY NET ATP

PHOSPHORLATIONS

VIA KREBS CYCLE

E- DONORS?

QUESTION

QUESTION

#

28 ATP

PHOSPHORLATIONS

VIA KREBS CYCLE

E- DONORS

?

HOW MANY NET ATP

PHOSPHORLATIONS

VIA THE ENTIRE ETC?

QUESTION

QUESTION

#

4 ATP

PHOSPHORLATIONS

VIA GLYCOLYSIS

E- DONORS

#

28 ATP

PHOSPHORLATIONS

VIA KREBS CYCLE

E- DONORS

#

ETC

ATP NET

32 ATP

CATABOLIC

METABOLISM

GLUCOSE

BUILDING BLOCKS

METABOLISM

G

AEROBIC

RESPIRATION

ETC

A

32 ATP

ANABOLIC

METABOLISM

GLUCOSE

BUILDING BLOCKS

METABOLISM

G

AEROBIC

RESPIRATION

CATABOLIC

METABOLISM

C

ETC

32 ATP

AEROBIC

RESPIRATION

ANABOLIC

METABOLISM

GLUCOSE

BUILDING BLOCKS

METABOLISM

G

EXERGONIC

REACTIONS

ETC

EN

CHEMICAL

ENERGY

INPUT

ANABOLIC

METABOLISM

ENDERGONIC

REACTIONS

GLUCOSE

BUILDING BLOCKS

METABOLISM

G

EXERGONIC

REACTIONS

AEROBIC

RESPIRATION

!

B

ETC

CHEMICAL

ENERGY

INPUT

ANABOLIC

METABOLISM

ENDERGONIC

REACTIONS

GLUCOSE

BUILDING BLOCKS

METABOLISM

G

BIOSYNTHESIS

METABOLISM

AEROBIC

RESPIRATION

EXERGONIC

REACTIONS

ETC

CHEMICAL

ENERGY

INPUT

ANABOLIC

METABOLISM

ENDERGONIC

REACTIONS

GLUCOSE

BUILDING BLOCKS

COMPLEX BIO-CHEM-CMPSMETABOLISM

G

BIOSYNTHESIS

METABOLISM

AEROBIC

RESPIRATION

EXERGONIC

REACTIONS

ETC

CHEMICAL

ENERGY

INPUT

CELL

GROWTH

&

MAINTENANCE

H

HOMEOSTASIS

32

MITOCHONDRION

AEROBIC

RESPIRATION

CYTOSOL

CELL

2 PYRUVATE

GLYCOLYSIS

KREBS CYCLE

MATRIX

E-

PHOSPHORYLATION PHOSPHORYLATION

E-

E-2 NADH E-

ETC

E-

E-

8 NADH

&

2 FADH

CRISTAE

GLUCOSE

2 ATP 2 ATP 32 ATP

^

ETC

PHOSPHORYLATION

C

?

MITOCHONDRION

CRISTAE

SPACE

ATP

SYNTHASE

MITOCHONDRION

MATRIX

H+

H+

H+ H+

H+ H+

H+

H+

ATP

E- E- E- E-

H+

H+

H+

H+

H+ H+

E-

OXYGEN

PHOSPHORYLATION

H+

H+ H+

H+ H+ H+ H+

ETC

CMP

ETC

CMP

ETC

CMP

ETC

CMP

= HEAT ENERGY = CHEMICAL ENERGY

= ELECTRON TRANSPORT CHAIN COMPONENT

E- DONORS

?C

MITOCHONDRION

CRISTAE

MEMBRANEP + ADP

CHEM EGY

INPUT

MITOCHONDRION

CRISTAE

SPACE

ATP

SYNTHASE

MITOCHONDRION

MATRIX

H+

H+

H+ H+

H+ H+

H+

H+

ATP

E- E- E- E-

H+

H+

H+

H+

H+ H+

E-

CHEMIOSMOTIC

PHOSPHORYLATION

MODEL

OXYGEN

PHOSPHORYLATION

H+

H+ H+

H+ H+ H+ H+

ETC

CMP

ETC

CMP

ETC

CMP

ETC

CMP

= HEAT ENERGY = CHEMICAL ENERGY

= ELECTRON TRANSPORT CHAIN COMPONENT

E- DONORS

^

MITOCHONDRION

CRISTAE

MEMBRANEP + ADP

CHEM EGY

INPUT

CHEMIOSMOTIC

PHOSPHORYLATION

MODEL

MITOCHONDRION

CRISTAE

SPACE

ATP

SYNTHASE

MITOCHONDRION

MATRIX

H+

H+

H+ H+

H+ H+

H+

H+

ATP

E- E- E- E-

H+

H+

H+

H+

H+ H+

E-

CHEMIOSMOTIC

PHOSPHORYLATION

MODEL

OXYGEN

PHOSPHORYLATION

H+

H+ H+

H+ H+ H+ H+

ETC

CMP

ETC

CMP

ETC

CMP

ETC

CMP

= HEAT ENERGY = CHEMICAL ENERGY

= ELECTRON TRANSPORT CHAIN COMPONENT

E- DONORS

! >

MITOCHONDRION

CRISTAE

MEMBRANEP + ADP

CHEM EGY

INPUT

CHEMIOSMOTIC

PHOSPHORYLATION

NOT FULLY

UNDERSTOOD

?

HAVE WE WORKED

WITH THE

CHEMIOSMOTIC

PHOSPHORYLATION

MODEL PREVIOUSLY?

QUESTION

QUESTION

PHOTOSYNTHESIS P

PHOTOSYNTHESIS

E-

CO2

LT RXT

THYLAKOID

LIGHT EGY

CHLOROPLAST

ATP

OXYGEN

SYNTHESIS

PHOTOATMOSPHERE

ATMOSPHERE

PHOTOLYSIS

CHEM EGY

INPUT

DK RXT

STROMA

GLUCOSE

WATERN

E-WATER

PHOTOLYSIS

PS-I

RXT-CENTER

CHL-A P700

PS-II

ANTENNA

MOLECULES

CHL A+B

XANTHOPHYLLS

CAROTENES

PS-I

ANTENNA

MOLECULES

CHL A+B

XANTHOPHYLLS

CAROTENES

LIGHT

ENERGY

“Q”

PS-II

RXT-CENTER

CHL-A P680

“Q2”

E- TRANSPORT CHAIN / ETC # 1

OXYGEN

ETC # 2

NON-CYCLIC P-P

E-

E-

E-

E-

E- E-

NADPH

ATP

CHEM EGY

INPUT

C

“Q2”

CYCLIC P-P

PS-I

ANTENNA

MOLECULES

CHL A+B

XANTHOPHYLLS

CAROTENES

LIGHT

ENERGY

ETC # 3

PS-I

RXT-CENTER

CHL-A P700

LIGHT

ENERGY

E-

E-

E-

ATP

?

CHEM EGY

INPUT

E- = RECYCLED

<

ATP

SYNTHASE

H+

H+

H+ H+

H+ H+

H+

H+

ATP

E- E- E-

H+

H+

H+

H+

H+ H+

E-

PHOSPHORYLATION

H+

H+ H+

H+ H+ H+ H+

ETC

CMP

ETC

CMP

ETC

CMP

ETC

CMP

= HEAT ENERGY = CHEMICAL ENERGY

CHLOROPLAST

THYLAKOID

SPACE

PS-I

PS-II / PS-I

= ELECTRON TRANSPORT CHAIN COMPONENT

?

CHLOROPLAST

STROMA

E-

CHEM EGY

INPUT

P + ADP

CHLOROPLAST

THYLAKOID

MEMBRANE

C

ATP

SYNTHASE

H+

H+

H+ H+

H+ H+

H+

H+

ATP

E- E- E-

H+

H+

H+

H+

H+ H+

E-

CHEMIOSMOTIC

PHOSPHORYLATION

MODEL

PHOSPHORYLATION

H+

H+ H+

H+ H+ H+ H+

ETC

CMP

ETC

CMP

ETC

CMP

ETC

CMP

= HEAT ENERGY = CHEMICAL ENERGY

CHLOROPLAST

THYLAKOID

SPACE

PS-I

PS-II / PS-I

= ELECTRON TRANSPORT CHAIN COMPONENT

CHLOROPLAST

STROMA

E-

CHEM EGY

INPUT

P + ADP

CHLOROPLAST

THYLAKOID

MEMBRANE

PHOTOSYNTHESIS

CHLOROPLAST

STROMADOUBLE MEMBRANE

GRANUM

VESICLES

THYLAKOID MEMBRANE

MITOCHONDRION

CRISTAE

SPACE

ATP

SYNTHASE

MITOCHONDRION

MATRIX

H+

H+

H+ H+

H+ H+

H+

H+

ATP

E- E- E- E-

H+

H+

H+

H+

H+ H+

E-

CHEMIOSMOTIC

PHOSPHORYLATION

MODEL

OXYGEN

PHOSPHORYLATION

H+

H+ H+

H+ H+ H+ H+

ETC

CMP

ETC

CMP

ETC

CMP

ETC

CMP

= HEAT ENERGY = CHEMICAL ENERGY

= ELECTRON TRANSPORT CHAIN COMPONENT

E- DONORS

^

MITOCHONDRION

CRISTAE

MEMBRANEP + ADP

CHEM EGY

INPUT

M

CHEMIOSMOTIC

PHOSPHORYLATION

MITOCHONDRION

L

MITOCHONDRION

CELL CYTOSOL

DOUBLE MEMBRANE

OUTER MEMBRANE

CRISTAE MEMBRANE

MATRIX

ETC

ETC

FMN

REDOX RXTS

E-

E-

E-

E-

“A1”

E-

= CHEMICAL ENERGY

= DISSIPATED HEAT ENERGY

CoQ

CY-B

CY-C

CY-A

O

E-

CY-A3

MITOCHONDRION CRISTAE

ELECTRON TRANSPORT CHAIN

OXYGEN

MITOCHONDRION

CRISTAE & MATRIX

REDOX RXT

REDOX RXT

REDOX RXT

REDOX RXT

REDOX RXT

REDOX RXT

DISSIPATED HT EGY

DISSIPATED HT EGY

DISSIPATED HT EGY

DISSIPATED HT EGY

DISSIPATED HT EGY

ETC

ATP

SYNTHASE

H+ H+ H+ H+

MITOCHONDRION

CRISTAE

SPACE

MITOCHONDRION

MATRIX

?ETC

CMP

ETC

CMP

ETC

CMP

ETC

CMP

= HEAT ENERGY = CHEMICAL ENERGY

= ELECTRON TRANSPORT CHAIN COMPONENT

MITOCHONDRION

CRISTAE & MATRIX

CHEMIOSMOTIC

PHOSPHORYLATION

MODEL

ETC

E

+

CYTOCHROME COMPLEX

MITOCHONDRION

CRISTAE

MEMBRANE

ATP

SYNTHASE

H+ H+ H+ H+

MITOCHONDRION

CRISTAE

SPACE

MITOCHONDRION

MATRIX

?ETC

CMP

ETC

CMP

ETC

CMP

ETC

CMP

= HEAT ENERGY = CHEMICAL ENERGY

= ELECTRON TRANSPORT CHAIN COMPONENT

MITOCHONDRION

CRISTAE & MATRIX

E- DONORS

E-

CHEMIOSMOTIC

PHOSPHORYLATION

MODEL

ETC

N

CYTOCHROME COMPLEX

MITOCHONDRION

CRISTAE

MEMBRANE

ATP

SYNTHASE

H+ H+ H+ H+

E-

ETC

ETC

CMP

ETC

CMP

ETC

CMP

ETC

CMP

= HEAT ENERGY = CHEMICAL ENERGY

= ELECTRON TRANSPORT CHAIN COMPONENT

MITOCHONDRION

CRISTAE

SPACE

NADH

MITOCHONDRION

MATRIX MITOCHONDRION

CRISTAE & MATRIX

?

CHEMIOSMOTIC

PHOSPHORYLATION

MODEL

F

CYTOCHROME COMPLEX

MITOCHONDRION

CRISTAE

MEMBRANE

ATP

SYNTHASE

H+ H+ H+ H+

MITOCHONDRION

CRISTAE

SPACE

MITOCHONDRION

MATRIX

?ETC

CMP

ETC

CMP

ETC

CMP

ETC

CMP

FADH

= HEAT ENERGY = CHEMICAL ENERGY

= ELECTRON TRANSPORT CHAIN COMPONENT

E-

MITOCHONDRION

CRISTAE & MATRIX

CHEMIOSMOTIC

PHOSPHORYLATION

MODEL

ETC

N

CYTOCHROME COMPLEX

MITOCHONDRION

CRISTAE

MEMBRANE

>

ATP

SYNTHASE

H+ H+ H+ H+

E-

ETC

ETC

CMP

ETC

CMP

ETC

CMP

ETC

CMP

= HEAT ENERGY = CHEMICAL ENERGY

= ELECTRON TRANSPORT CHAIN COMPONENT

MITOCHONDRION

CRISTAE

SPACE

NADH

MITOCHONDRION

MATRIX MITOCHONDRION

CRISTAE & MATRIX

?

CHEMIOSMOTIC

PHOSPHORYLATION

MODEL

R

CYTOCHROME COMPLEX

MITOCHONDRION

CRISTAE

MEMBRANE

ATP

SYNTHASE

H+ H+ H+ H+

E-

REDOX RXTS

ETC

CMP

ETC

CMP

ETC

CMP

ETC

CMP

= HEAT ENERGY = CHEMICAL ENERGY

= ELECTRON TRANSPORT CHAIN COMPONENT

MITOCHONDRION

CRISTAE

SPACE

NADH

MITOCHONDRION

MATRIX MITOCHONDRION

CRISTAE & MATRIX

?

CHEMIOSMOTIC

PHOSPHORYLATION

MODEL

CYTOCHROME COMPLEX

MITOCHONDRION

CRISTAE

MEMBRANE

ATP

SYNTHASE

H+ H+ H+

E-

H+

ETC

CMP

ETC

CMP

ETC

CMP

= HEAT ENERGY = CHEMICAL ENERGY

= ELECTRON TRANSPORT CHAIN COMPONENT

MITOCHONDRION

CRISTAE

SPACE

NADH

MITOCHONDRION

MATRIX MITOCHONDRION

CRISTAE & MATRIX

?

CHEMIOSMOTIC

PHOSPHORYLATION

MODEL

MITOCHONDRION

CRISTAE

MEMBRANE

ATP

SYNTHASE

H+ H+ H+

E-

ETC

CMP

ETC

CMP

ETC

CMP

H+

= HEAT ENERGY = CHEMICAL ENERGY

= ELECTRON TRANSPORT CHAIN COMPONENT

MITOCHONDRION

CRISTAE

SPACE

NADH

MITOCHONDRION

MATRIX MITOCHONDRION

CRISTAE & MATRIX

?

CHEMIOSMOTIC

PHOSPHORYLATION

MODEL

H+

MITOCHONDRION

CRISTAE

MEMBRANE

ATP

SYNTHASE

H+ H+ H+

E-

H+

ETC

CMP

ETC

CMP

ETC

CMP

= HEAT ENERGY = CHEMICAL ENERGY

= ELECTRON TRANSPORT CHAIN COMPONENT

MITOCHONDRION

CRISTAE

SPACE

NADH

MITOCHONDRION

MATRIX MITOCHONDRION

CRISTAE & MATRIX

?

CHEMIOSMOTIC

PHOSPHORYLATION

MODEL

ETC

CMP

R

MITOCHONDRION

CRISTAE

MEMBRANE

ATP

SYNTHASE

H+ H+ H+

E-

H+

ETC

CMP

ETC

CMP

ETC

CMP

= HEAT ENERGY = CHEMICAL ENERGY

= ELECTRON TRANSPORT CHAIN COMPONENT

REDOX RXT

MITOCHONDRION

CRISTAE

SPACE

NADH

MITOCHONDRION

MATRIX MITOCHONDRION

CRISTAE & MATRIX

?

CHEMIOSMOTIC

PHOSPHORYLATION

MODEL

ETC

CMP

E-

MITOCHONDRION

CRISTAE

MEMBRANE

ATP

SYNTHASE

H+

H+ H+ H+

ETC

CMP

ETC

CMP

ETC

CMP

ETC

CMP

= HEAT ENERGY = CHEMICAL ENERGY

E-

= ELECTRON TRANSPORT CHAIN COMPONENT

MITOCHONDRION

CRISTAE

SPACE

NADH

MITOCHONDRION

MATRIX MITOCHONDRION

CRISTAE & MATRIX

?

CHEMIOSMOTIC

PHOSPHORYLATION

MODEL

MITOCHONDRION

CRISTAE

MEMBRANE

ATP

SYNTHASE

H+

H+ H+ H+

ETC

CMP

ETC

CMP

ETC

CMP

= HEAT ENERGY = CHEMICAL ENERGY

E-

= ELECTRON TRANSPORT CHAIN COMPONENT

MITOCHONDRION

CRISTAE

SPACE

NADH

MITOCHONDRION

MATRIX MITOCHONDRION

CRISTAE & MATRIX

?

CHEMIOSMOTIC

PHOSPHORYLATION

MODEL

MITOCHONDRION

CRISTAE

MEMBRANE

ATP

SYNTHASE

H+

H+ H+

ETC

CMP

ETC

CMP

ETC

CMP

H+

= HEAT ENERGY = CHEMICAL ENERGY

E-

= ELECTRON TRANSPORT CHAIN COMPONENT

MITOCHONDRION

CRISTAE

SPACE

NADH

MITOCHONDRION

MATRIX MITOCHONDRION

CRISTAE & MATRIX

?

CHEMIOSMOTIC

PHOSPHORYLATION

MODEL

H+

MITOCHONDRION

CRISTAE

MEMBRANE

ATP

SYNTHASE

H+ H+

H+ H+

ETC

CMP

ETC

CMP

ETC

CMP

= HEAT ENERGY = CHEMICAL ENERGY

E-

= ELECTRON TRANSPORT CHAIN COMPONENT

MITOCHONDRION

CRISTAE

SPACE

NADH

MITOCHONDRION

CRISTAE & MATRIX

?

MITOCHONDRION

MATRIX

CHEMIOSMOTIC

PHOSPHORYLATION

MODEL

R

ETC

CMP

MITOCHONDRION

CRISTAE

MEMBRANE

ATP

SYNTHASE

H+ H+

H+ H+

ETC

CMP

ETC

CMP

ETC

CMP

= HEAT ENERGY = CHEMICAL ENERGY

E-

= ELECTRON TRANSPORT CHAIN COMPONENT

REDOX RXT

MITOCHONDRION

CRISTAE

SPACE

NADH

MITOCHONDRION

MATRIX MITOCHONDRION

CRISTAE & MATRIX

?

CHEMIOSMOTIC

PHOSPHORYLATION

MODEL

ETC

CMP

E-

MITOCHONDRION

CRISTAE

MEMBRANE

ATP

SYNTHASE

H+ H+

H+ H+

ETC

CMP

ETC

CMP

ETC

CMP

ETC

CMP

= HEAT ENERGY = CHEMICAL ENERGY

E-

= ELECTRON TRANSPORT CHAIN COMPONENT

MITOCHONDRION

CRISTAE

SPACE

NADH

MITOCHONDRION

MATRIX MITOCHONDRION

CRISTAE & MATRIX

?

CHEMIOSMOTIC

PHOSPHORYLATION

MODEL

MITOCHONDRION

CRISTAE

MEMBRANE

ATP

SYNTHASE

H+ H+

H+ H+

ETC

CMP

ETC

CMP

ETC

CMP

= HEAT ENERGY = CHEMICAL ENERGY

E-

= ELECTRON TRANSPORT CHAIN COMPONENT

MITOCHONDRION

CRISTAE

SPACE

NADH

MITOCHONDRION

CRISTAE & MATRIX

?

MITOCHONDRION

MATRIX

CHEMIOSMOTIC

PHOSPHORYLATION

MODEL

MITOCHONDRION

CRISTAE

MEMBRANE

ATP

SYNTHASE

H+ H+

H+

ETC

CMP

ETC

CMP

ETC

CMP

H+

= HEAT ENERGY = CHEMICAL ENERGY

E-

= ELECTRON TRANSPORT CHAIN COMPONENT

MITOCHONDRION

CRISTAE

SPACE

NADH

MITOCHONDRION

CRISTAE & MATRIX

?

MITOCHONDRION

MATRIX

CHEMIOSMOTIC

PHOSPHORYLATION

MODEL

H+

MITOCHONDRION

CRISTAE

MEMBRANE

ATP

SYNTHASE

H+ H+

H+

H+

ETC

CMP

ETC

CMP

ETC

CMP

= HEAT ENERGY = CHEMICAL ENERGY

E-

= ELECTRON TRANSPORT CHAIN COMPONENT

MITOCHONDRION

CRISTAE

SPACE

NADH

MITOCHONDRION

MATRIX MITOCHONDRION

CRISTAE & MATRIX

?

CHEMIOSMOTIC

PHOSPHORYLATION

MODEL

R

ETC

CMP

MITOCHONDRION

CRISTAE

MEMBRANE

ATP

SYNTHASE

H+ H+

H+

H+

ETC

CMP

ETC

CMP

ETC

CMP

= HEAT ENERGY = CHEMICAL ENERGY

E-

= ELECTRON TRANSPORT CHAIN COMPONENT

REDOX RXT

MITOCHONDRION

CRISTAE

SPACE

NADH

MITOCHONDRION

MATRIX MITOCHONDRION

CRISTAE & MATRIX

?

CHEMIOSMOTIC

PHOSPHORYLATION

MODEL

ETC

CMP

E-

MITOCHONDRION

CRISTAE

MEMBRANE

ATP

SYNTHASE

H+ H+

H+

H+

ETC

CMP

ETC

CMP

ETC

CMP

ETC

CMP

= HEAT ENERGY = CHEMICAL ENERGY

E-

= ELECTRON TRANSPORT CHAIN COMPONENT

MITOCHONDRION

CRISTAE

SPACE

NADH

MITOCHONDRION

MATRIX MITOCHONDRION

CRISTAE & MATRIX

?

CHEMIOSMOTIC

PHOSPHORYLATION

MODEL

MITOCHONDRION

CRISTAE

MEMBRANE

ATP

SYNTHASE

H+ H+

H+

H+

ETC

CMP

ETC

CMP

ETC

CMP

= HEAT ENERGY = CHEMICAL ENERGY

E-

= ELECTRON TRANSPORT CHAIN COMPONENT

MITOCHONDRION

CRISTAE

SPACE

NADH

MITOCHONDRION

MATRIX MITOCHONDRION

CRISTAE & MATRIX

?

CHEMIOSMOTIC

PHOSPHORYLATION

MODEL

MITOCHONDRION

CRISTAE

MEMBRANE

ATP

SYNTHASE

H+ H+ H+

ETC

CMP

ETC

CMP

ETC

CMP

H+

= HEAT ENERGY = CHEMICAL ENERGY

E-

= ELECTRON TRANSPORT CHAIN COMPONENT

MITOCHONDRION

CRISTAE

SPACE

NADH

MITOCHONDRION

MATRIX MITOCHONDRION

CRISTAE & MATRIX

?

CHEMIOSMOTIC

PHOSPHORYLATION

MODEL

H+

MITOCHONDRION

CRISTAE

MEMBRANE

ATP

SYNTHASE

ETC

CMP

ETC

CMP

ETC

CMP

= HEAT ENERGY = CHEMICAL ENERGY

E-

H+ H+ H+ H+

= ELECTRON TRANSPORT CHAIN COMPONENT

MITOCHONDRION

CRISTAE

SPACE

NADH

MITOCHONDRION

MATRIX MITOCHONDRION

CRISTAE & MATRIX

?

CHEMIOSMOTIC

PHOSPHORYLATION

MODEL

R

ETC

CMP

MITOCHONDRION

CRISTAE

MEMBRANE

ATP

SYNTHASE

H+ H+ H+ H+

ETC

CMP

ETC

CMP

ETC

CMP

= HEAT ENERGY = CHEMICAL ENERGY

E-

= ELECTRON TRANSPORT CHAIN COMPONENT

MITOCHONDRION

CRISTAE

SPACE

NADH

MITOCHONDRION

MATRIX MITOCHONDRION

CRISTAE & MATRIX

?

CHEMIOSMOTIC

PHOSPHORYLATION

MODEL

REDOX RXT

ETC

CMP

E-

MITOCHONDRION

CRISTAE

MEMBRANE

ATP

SYNTHASE

H+ H+ H+ H+

E-

ETC

CMP

ETC

CMP

ETC

CMP

ETC

CMP

= HEAT ENERGY = CHEMICAL ENERGY

= ELECTRON TRANSPORT CHAIN COMPONENT

MITOCHONDRION

CRISTAE

SPACE

NADH

MITOCHONDRION

MATRIX MITOCHONDRION

CRISTAE & MATRIX

?

CHEMIOSMOTIC

PHOSPHORYLATION

MODEL

N

O

MITOCHONDRION

CRISTAE

MEMBRANE

?

FMN

REDOX RXTS

E-

E-

E-

E-

“A1”

E-

= CHEMICAL ENERGY

= DISSIPATED HEAT ENERGY

CoQ

CY-B

CY-C

CY-A

O

E-

CY-A3

E- PHOSPHORYLATIONNADH

OXYGEN

MITOCHONDRION

CRISTAE & MATRIX

GLYCOLYSIS

KREBS CYCLE

MITOCHONDRION

CRISTAE & MATRIX

O

F

DISSIPATED HT EGY

DISSIPATED HT EGY

DISSIPATED HT EGY

DISSIPATED HT EGY

DISSIPATED HT EGY

+

ATP

SYNTHASE

H+ H+ H+ H+

E-

ETC

CMP

ETC

CMP

ETC

CMP

ETC

CMP

= HEAT ENERGY = CHEMICAL ENERGY

= ELECTRON TRANSPORT CHAIN COMPONENT

MITOCHONDRION

CRISTAE

SPACE

FADH

MITOCHONDRION

MATRIX MITOCHONDRION

CRISTAE & MATRIX

?

CHEMIOSMOTIC

PHOSPHORYLATION

MODEL

F

O

MITOCHONDRION

CRISTAE

MEMBRANE

?

REDOX RXTS

E-

E-

“A1”

E-

= CHEMICAL ENERGY

= DISSIPATED HEAT ENERGY

CY-B

CY-C

CY-A

O

E-

CY-A3

E-

OXYGEN

MITOCHONDRION

CRISTAE & MATRIX

MITOCHONDRION

CRISTAE & MATRIX

PHOSPHORYLATIONKREBS CYCLE FADH

REDOX RXT

REDOX RXT

REDOX RXT

REDOX RXT

LESS ENERGY THAN NADH

DISSIPATED HT EGY

DISSIPATED HT EGY

DISSIPATED HT EGY

?

ATP

SYNTHASE

H+ H+ H+ H+

E-

ETC

CMP

ETC

CMP

ETC

CMP

ETC

CMP

= HEAT ENERGY = CHEMICAL ENERGY

= ELECTRON TRANSPORT CHAIN COMPONENT

REDOX RXTS

MITOCHONDRION

CRISTAE

SPACE

MITOCHONDRION

MATRIX MITOCHONDRION

CRISTAE & MATRIX

?

CHEMIOSMOTIC

PHOSPHORYLATION

MODEL

O

NADH / FADH

E- DONORS

MITOCHONDRION

CRISTAE

MEMBRANE

ATP

SYNTHASE

H+ H+ H+ H+

E-

ETC

CMP

ETC

CMP

ETC

CMP

ETC

CMP

= HEAT ENERGY = CHEMICAL ENERGY

= ELECTRON TRANSPORT CHAIN COMPONENT

REDOX RXTS

MITOCHONDRION

CRISTAE

SPACE

MITOCHONDRION

MATRIX MITOCHONDRION

CRISTAE & MATRIX

OXYGEN

CHEMIOSMOTIC

PHOSPHORYLATION

MODEL

>

NADH / FADH

E- DONORS

MITOCHONDRION

CRISTAE

MEMBRANE

O

ATP

SYNTHASE

H+ H+ H+ H+

E-

ETC

CMP

ETC

CMP

ETC

CMP

ETC

CMP

= HEAT ENERGY = CHEMICAL ENERGY

= ELECTRON TRANSPORT CHAIN COMPONENT

REDOX RXTS

MITOCHONDRION

CRISTAE

SPACE

MITOCHONDRION

MATRIX MITOCHONDRION

CRISTAE & MATRIX

OXYGEN

OXIDATIVE

CHEMIOSMOTIC

PHOSPHORYLATION

S

MITOCHONDRION

CRISTAE

MEMBRANE

E- DONORS

NADH / FADH

MITOCHONDRION

CHEMIOSMOTIC

PHOSPHORYLATION

SUMMARY

CRISTAEOUTER MEMBRANE

MATRIX

MITOCHONDRION

CRISTAE SPACE

CYTOSOL

ETC

ATP SYNTHASE

NADH

H+

H+

H+

H+

= CHEMICAL ENERGY

E-

CRISTAEOUTER MEMBRANE

MITOCHONDRION

CRISTAE SPACE

CYTOSOL

E-

ETC

MATRIXATP SYNTHASE

NADH

= CHEMICAL ENERGY

H+

H+

H+

H+

E-

CRISTAEOUTER MEMBRANE

MITOCHONDRION

CRISTAE SPACE

CYTOSOL

E-

ETC

MATRIXATP SYNTHASE

NADH

= CHEMICAL ENERGY

H+

H+

H+

H+

E-

CRISTAEOUTER MEMBRANE

MITOCHONDRION

CRISTAE SPACE

CYTOSOL

E- H+ETC

MATRIXATP SYNTHASE

NADH

= CHEMICAL ENERGY

H+

H+

H+

E-

REDOX REACTIONS

CRISTAEOUTER MEMBRANE

MITOCHONDRION

CRISTAE SPACE

CYTOSOL

E-

H+

H+

ETC

MATRIXATP SYNTHASE

NADH

= CHEMICAL ENERGY

H+

H+

E-

REDOX REACTIONS

H+

CRISTAEOUTER MEMBRANE

MITOCHONDRION

CRISTAE SPACE

CYTOSOL

E-

H+

H+

ETC

MATRIXATP SYNTHASE

NADH

= CHEMICAL ENERGY

H+ REDOX REACTIONS

E-

H+

H+

CRISTAEOUTER MEMBRANE

MITOCHONDRION

CRISTAE SPACE

CYTOSOL

H+

H+

ETC

MATRIXATP SYNTHASE

NADH

= CHEMICAL ENERGY

^H+

REDOX REACTIONS

ATP

SYNTHASE

H+ H+ H+

MITOCHONDRION

CRISTAE

SPACE

MITOCHONDRION

MATRIX

NADH

H+

ETC

CMP

ETC

CMP

ETC

CMP

ETC

CMP

= HEAT ENERGY = CHEMICAL ENERGY

OXYGEN

= ELECTRON TRANSPORT CHAIN COMPONENT

MITOCHONDRION

CRISTAE & MATRIX

A

MITOCHONDRION

CRISTAE & MATRIX

MITOCHONDRION

CRISTAE

MEMBRANE

ATP

SYNTHASE

MITOCHONDRION

CRISTAE

SPACE

MITOCHONDRION

MATRIX

NADH

ETC

CMP

ETC

CMP

ETC

CMP

ETC

CMP

= HEAT ENERGY = CHEMICAL ENERGY

OXYGEN

H+

H+

H+

H+

H+

H+

H+

= ELECTRON TRANSPORT CHAIN COMPONENT

H+

MITOCHONDRION

CRISTAE & MATRIX

H+ ACCUMULATE

BEHIND

ATP-SYNTHASE

P

MITOCHONDRION

CRISTAE

MEMBRANE

ATP

SYNTHASE

MITOCHONDRION

CRISTAE

SPACE

MITOCHONDRION

MATRIX

NADH

ETC

CMP

ETC

CMP

ETC

CMP

ETC

CMP

= HEAT ENERGY = CHEMICAL ENERGY

OXYGEN

H+

H+

H+

H+

H+

H+

H+

H+ POTENTIAL CHEM EGY

= ELECTRON TRANSPORT CHAIN COMPONENT

MITOCHONDRION

CRISTAE & MATRIX

H+ ACCUMULATE

BEHIND

ATP-SYNTHASE

MITOCHONDRION

CRISTAE

MEMBRANE

ATP

SYNTHASE

MITOCHONDRION

CRISTAE

SPACE

MITOCHONDRION

MATRIX

NADH

ETC

CMP

ETC

CMP

ETC

CMP

ETC

CMP

= HEAT ENERGY = CHEMICAL ENERGY

OXYGEN

H+

H+

H+

H+

H+

H+

H+

H+ POTENTIAL CHEM EGY

= ELECTRON TRANSPORT CHAIN COMPONENT

MITOCHONDRION

CRISTAE & MATRIX

ANALOGY

WATER & DAM

MITOCHONDRION

CRISTAE

MEMBRANE

ANALOGY

WATER & DAM

?

WATER = H+?H

WATER = H+D