1) Glycolysis - doesn't need O2 / and erobic
Aerobic anaerobic
(energy investment * 31 ATP A 2 ATP &
NADH reduces
pyruvate to lactate changed to make
glucose
0-0 0 - -
0 0 0
- -
Inexosel
Reactants Products
* starts in * start
+end 2x
pyruvate ·
Lactate -
goes to liver ·
stored as
glycogen in liver- muscle
3 XATP A 2 ATP
2ABP + pi
2ATP (net] cytoplasm
ends in
in
Cytoplasm Narae 1 + ) faster
~
oxidised to
~ +
NAD+ pyruvate again to enter link run
*
glucose
2x Mitochondria -
pyruvate *
only glycolysis
pi - 0 - o -
00 - 0 -
o -
pi 2 NAD
*
+
2 NABH
to be
regenerated
* SO, + H20 Blactic acid/ethano + 10 2
Ri -0 0 0- - v0 0 0 pi- -
-
-S <Oz made
TP (energy harvesting
· vol
TP 12 x triose R =
O2 used
Phosphatel
vol 3 ATP
NAB
+
NAB
+
aerobic = 1
A ATP
anaerobics /
↳ NABH LipidS NADH FADHz are oxidised in Oxidative
phosphorylation
pil ↳ NADH
+
= 0 . 7
Oxidised Proteins
.
= 0 9
2xADp +
.
+
2 x ADP + 2xpi 3 Chain to create
gradient , and -to move
through etc
- substrate level ( 2 x ATP
2
ATP1 Phosphorylation :
provides to
pump It out to intermembranal space
2 W
energy
7a - Respiration
S
pyruvate pyruvate
if O2 is present products
Only 36 made is ATP needed to move
products through memo .
,
enter Mitochondria
reduced in 36
eukaryates. 38-2
: =
N
2) link reaction CH120 + 602 - 6(a + GH20
X
matrix ,aerobic step Oxidised
Reactants Products used to fix 2C into the Krees then COA leaves
Cysle
-
,
4) Oxidative phosphorylation
2x
pyruvate
-
2xAcetyl(oA
+
loxidised ( PCI H
coastO-Ox
0-0-CoA must be done 2x per glucose . "
/
+
H and I Final products : AcezylCoA
⑳
2 2 NADH [O2 H
&
from 3rd C used to + 2 + 2
&
-ene
(intermembrane Spacel
by decarboxylase reduce NADT to NABH
G
and to make SO2
drogenase G NAB H 2 &
+
NAD
+2
X 10
Matrix
&
↓
-
3) Kreds from membrane inner
cycle
matrix to Inner
membrane Pi
& ADP + electrochemical gradient
-
-
ze + 20 +
COA 10w [H +
] /final e-
acceptor (
AcetylconAcetyl
&
[Oz t
C6
+
↑ NAD
+
ATP
syntnase
(2s) /Citric Asid)
H
Desarboxylase
↳ NADH Reactants Produces H
H
*
high [H +
]
10 from Kreds
/ 10 NABH ·
10 NADT
Dehydrogenase & ·
2 from 2 FABH2 2 FABT
Cu CE glys.
(ADD + Pil ATP
Reactants products
↑
2 from link] 3) - 31
COA
2xAsetyl
&
4[02
O2
&
0 H2O
NADH
NAB +
-
> SO2 6NAB +
2 FAD +
&
&
O NADH
2 FABH2
↳
"
g
final e-e /202 2H
+
25 - H20
~ NAD
+ +
FABHz +
FAD +
2 ADP + pi · 2 ATP and It asseptor to
regenerate coenzymes and
NADH
ATP ABP
continue
# glycolysis
Di
↳ substrate level phosphorylation
Aerobic anaerobic
(energy investment * 31 ATP A 2 ATP &
NADH reduces
pyruvate to lactate changed to make
glucose
0-0 0 - -
0 0 0
- -
Inexosel
Reactants Products
* starts in * start
+end 2x
pyruvate ·
Lactate -
goes to liver ·
stored as
glycogen in liver- muscle
3 XATP A 2 ATP
2ABP + pi
2ATP (net] cytoplasm
ends in
in
Cytoplasm Narae 1 + ) faster
~
oxidised to
~ +
NAD+ pyruvate again to enter link run
*
glucose
2x Mitochondria -
pyruvate *
only glycolysis
pi - 0 - o -
00 - 0 -
o -
pi 2 NAD
*
+
2 NABH
to be
regenerated
* SO, + H20 Blactic acid/ethano + 10 2
Ri -0 0 0- - v0 0 0 pi- -
-
-S <Oz made
TP (energy harvesting
· vol
TP 12 x triose R =
O2 used
Phosphatel
vol 3 ATP
NAB
+
NAB
+
aerobic = 1
A ATP
anaerobics /
↳ NABH LipidS NADH FADHz are oxidised in Oxidative
phosphorylation
pil ↳ NADH
+
= 0 . 7
Oxidised Proteins
.
= 0 9
2xADp +
.
+
2 x ADP + 2xpi 3 Chain to create
gradient , and -to move
through etc
- substrate level ( 2 x ATP
2
ATP1 Phosphorylation :
provides to
pump It out to intermembranal space
2 W
energy
7a - Respiration
S
pyruvate pyruvate
if O2 is present products
Only 36 made is ATP needed to move
products through memo .
,
enter Mitochondria
reduced in 36
eukaryates. 38-2
: =
N
2) link reaction CH120 + 602 - 6(a + GH20
X
matrix ,aerobic step Oxidised
Reactants Products used to fix 2C into the Krees then COA leaves
Cysle
-
,
4) Oxidative phosphorylation
2x
pyruvate
-
2xAcetyl(oA
+
loxidised ( PCI H
coastO-Ox
0-0-CoA must be done 2x per glucose . "
/
+
H and I Final products : AcezylCoA
⑳
2 2 NADH [O2 H
&
from 3rd C used to + 2 + 2
&
-ene
(intermembrane Spacel
by decarboxylase reduce NADT to NABH
G
and to make SO2
drogenase G NAB H 2 &
+
NAD
+2
X 10
Matrix
&
↓
-
3) Kreds from membrane inner
cycle
matrix to Inner
membrane Pi
& ADP + electrochemical gradient
-
-
ze + 20 +
COA 10w [H +
] /final e-
acceptor (
AcetylconAcetyl
&
[Oz t
C6
+
↑ NAD
+
ATP
syntnase
(2s) /Citric Asid)
H
Desarboxylase
↳ NADH Reactants Produces H
H
*
high [H +
]
10 from Kreds
/ 10 NABH ·
10 NADT
Dehydrogenase & ·
2 from 2 FABH2 2 FABT
Cu CE glys.
(ADD + Pil ATP
Reactants products
↑
2 from link] 3) - 31
COA
2xAsetyl
&
4[02
O2
&
0 H2O
NADH
NAB +
-
> SO2 6NAB +
2 FAD +
&
&
O NADH
2 FABH2
↳
"
g
final e-e /202 2H
+
25 - H20
~ NAD
+ +
FABHz +
FAD +
2 ADP + pi · 2 ATP and It asseptor to
regenerate coenzymes and
NADH
ATP ABP
continue
# glycolysis
Di
↳ substrate level phosphorylation
