g l i k o l i z.. glikoliz, hücrenin sitozolunda meydana gelir. glukoz, glukoz-6-fosfata...
TRANSCRIPT
![Page 1: G l i k o l i z.. Glikoliz, hücrenin sitozolunda meydana gelir. Glukoz, glukoz-6-fosfata dönüşerek glikoliz yoluna girer. Başlangıçta, ATP’nin iki ~P](https://reader030.vdocuments.site/reader030/viewer/2022033016/56649f575503460f94c7bd50/html5/thumbnails/1.jpg)
G l i k o l i z
.
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Glikoliz , hücrenin sitozolunda meydana gelir.
Glukoz, glukoz-6-fosfata dönüşerek glikoliz yoluna girer.
Başlangıçta, ATP’nin iki ~P bağının kırılmasına bağlı olarak enerji girişi olur.
H O
OH
H
OHH
OH
CH2OPO32
H
OH
H
1
6
5
4
3 2
glucose-6-phosphate
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H O
O H
H
O HH
O H
CH 2O H
H
O H
H H O
O H
H
O HH
O H
CH 2O PO 32
H
O H
H
23
4
5
6
1 1
6
5
4
3 2
A T P A D P
M g 2+
glucose g lucose -6 -phosphate
H ex ok inase
1. Hekzokinz aşağıdaki reaksiyonu katalizler Glukoz + ATP glukoz-6-P + ADP
Reaksiyon, glukozun C6 hidroksil O’nin ATP’nin terminal P’e nukleofilik atak yapmasını içerir.
ATP ,enzime Mg++ le kompleks oluşturarak bağlanır..
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Mg++ negatif yüklü fosfat esteri ile etkileşir bu şekilde ATP’nin hekzokinaz enziminin aktif merkezi için uygun yük konformasyonunu sağlar.
N
NN
N
NH2
O
OHOH
HH
H
CH2
H
OPOPOP O
O
O O
O O
O
adenine
ribose
ATP adenosine triphosphate
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Heksokinaz la katalize edilen reaksiyon yüksek derecede spontandır..
ATP’nin fosfoanhidrid (~P) bağı kırılır.
Glukoz-6-fosfatta oluşan fosfat ester bağı düşük G’ya sahiptir
H O
O H
H
O HH
O H
CH 2O H
H
O H
H H O
O H
H
O HH
O H
CH 2O PO 32
H
O H
H
23
4
5
6
1 1
6
5
4
3 2
A T P A D P
M g 2+
glu co se g lu co se -6 -p h osp h ate
H ex ok in ase
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Bu da glukozun C6 OH’nin, ATP’nin terminal Pi yakınlaşmasını sağlar ve aktif bölgeden suyun çıkarılmasına neden olur.. Bu olay da ATP’nin hidrolizini önler ve P transferine olanak sağlar.
glucose
Hexokinase
Glukozun hekzokinaza bağlanması önemli yapısal değişime neden olur.
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2. Fosfogluko Izomeraz reaksiyonu: glukoz-6-P (aldoz) fruktoz-6-P (ketoz)
Mekanizma, asit/baz katalizini içerir, halka açılması, enediolat arametaboliti ile izomerizasyon, ve halka kapanması gözlenir. Triozfosfat Izomeraz ile katalize edilen benzer bir reaksiyon daha detalı olarak gösterilecektir.
H O
O H
H
O HH
O H
CH 2 O PO 32
H
O H
H
1
6
5
4
3 2
CH 2 O PO 32
O H
CH 2 O H
H
O H H
H HO
O6
5
4 3
2
1
g lu c o s e - 6 - p h o s p h a te f r u c to s e - 6 - p h o s p h a te P h o s p h o g lu c o s e Is o m e r a s e
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3. Phosphofructokinase catalyzes: fructose-6-P + ATP fructose-1,6-bisP + ADP
This highly spontaneous reaction has a mechanism similar to that of Hexokinase. The Phosphofructokinase reaction is the rate-limiting step of Glycolysis. The enzyme is highly regulated, as will be discussed later.
CH 2 O PO 32
O H
CH 2 O H
H
O H H
H HO
O6
5
4 3
2
1 CH 2 O PO 32
O H
CH 2 O PO 32
H
O H H
H HO
O6
5
4 3
2
1
A T P A D P
M g 2 +
f r u c t o s e - 6 - p h o s p h a t e f r u c t o s e - 1 , 6 - b i s p h o s p h a t e
P h o s p h o f r u c t o k i n a s e
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4. Aldolase catalyzes: fructose-1,6-bisphosphate dihydroxyacetone-P + glyceraldehyde-3-P
The reaction is an aldol cleavage, the reverse of an aldol condensation. Note that C atoms are renumbered in products of Aldolase.
6
5
4
3
2
1 CH 2 O PO 32
C
C
C
C
CH 2 O PO 32
O
HO H
H O H
H O H
3
2
1
CH 2 O PO 32
C
CH 2 O H
O
C
C
CH 2 O PO 32
H O
H O H+
1
2
3
f ru c to s e -1 ,6 - b is p h o s p h a te
A ld o la s e
d ih y d ro x y a c e to n e g ly c e ra ld e h y d e -3 - p h o s p h a te p h o s p h a te
T rio s e p h o s p h a te Is o m e ra s e
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A lysine residue at the active site functions in catalysis.
The keto group of fructose-1,6-bisphosphate reacts with the -amino group of the active site lysine, to form a protonated Schiff base intermediate.
Cleavage of the bond between C3 & C4 follows.
CH2OPO3
2
C
CH
C
C
CH2OPO32
NH
HO
H OH
H OH
(CH2)4 Enzyme
6
5
4
3
2
1
+
Schiff base intermediate of Aldolase reaction
H3N+ C COO
CH2
CH2
CH2
CH2
NH3
H
lysine
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5. Triose Phosphate Isomerase (TIM) catalyzes: dihydroxyacetone-P glyceraldehyde-3-P
Glycolysis continues from glyceraldehyde-3-P. TIM's Keq
favors dihydroxyacetone-P. Removal of glyceraldehyde-3-P by a subsequent spontaneous reaction allows throughput.
6
5
4
3
2
1 CH 2 O PO 32
C
C
C
C
CH 2 O PO 32
O
HO H
H O H
H O H
3
2
1
CH 2 O PO 32
C
CH 2 O H
O
C
C
CH 2 O PO 32
H O
H O H+
1
2
3
f ru c to s e -1 ,6 - b is p h o s p h a te
A ld o la s e
d ih y d ro x y a c e to n e g ly c e ra ld e h y d e -3 - p h o s p h a te p h o s p h a te
T rio s e p h o s p h a te Is o m e ra s e
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The ketose/aldose conversion involves acid/base catalysis, and is thought to proceed via an enediol intermediate, as with Phosphoglucose Isomerase.
Active site Glu and His residues are thought to extract and donate protons during catalysis.
C
C
CH 2 O PO 32
O
C
C
CH 2 O PO 32
H O
H O H
C
C
CH 2 O PO 32
H O H
O H
H
H O H H + H + H + H +
d i h y d r o x y a c e t o n e e n e d i o l g l y c e r a l d e h y d e - p h o s p h a t e i n t e r m e d i a t e 3 - p h o s p h a t e
T r i o s e p h o s p h a t e I s o m e r a s e
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C
CH 2 O PO 32
O O
C
CH 2 O PO 32
HC O
O H
p r o p o s e d e n e d i o l a t e
i n t e r m e d i a t e
p h o s p h o g l y c o l a t e t r a n s i t i o n s t a t e
a n a l o g
2-Phosphoglycolate is a transition state analog that binds tightly at the active site of Triose Phosphate Isomerase (TIM).
This inhibitor of catalysis by TIM is similar in structure to the proposed enediolate intermediate.
TIM is judged a "perfect enzyme." Reaction rate is limited only by the rate that substrate collides with the enzyme.
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TIM
Triosephosphate Isomerase structure is an barrel, or TIM barrel.
In an barrel there are 8 parallel -strands surrounded by 8 -helices.
Short loops connect alternating -strands & -helices.
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TIM
TIM barrels serve as scaffolds for active site residues in a diverse array of enzymes.
Residues of the active site are always at the same end of the barrel, on C-terminal ends of -strands & loops connecting these to -helices.
There is debate whether the many different enzymes with TIM barrel structures are evolutionarily related.
In spite of the structural similarities there is tremendous diversity in catalytic functions of these enzymes and little sequence homology.
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TIM
Explore the structure of the Triosephosphate Isomerase (TIM) homodimer, with the transition state inhibitor 2-phosphoglycolate bound to one of the TIM monomers.
Note the structure of the TIM barrel, and the loop that forms a lid that closes over the active site after binding of the substrate.
C
CH 2 O PO 32
O O
C
CH 2 O PO 32
HC O
O H
p r o p o s e d e n e d i o l a t e
i n t e r m e d i a t e
p h o s p h o g l y c o l a t e t r a n s i t i o n s t a t e
a n a l o g
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C
C
CH 2 O PO 32
H O
H O H
C
C
CH 2 O PO 32
O O PO 32
H O H+ P i
+ H +
N A D + N A D H 1
2
3
2
3
1
g l y c e r a l d e h y d e - 1 , 3 - b i s p h o s p h o - 3 - p h o s p h a t e g l y c e r a t e
G l y c e r a l d e h y d e - 3 - p h o s p h a t e D e h y d r o g e n a s e
6. Glyceraldehyde-3-phosphate Dehydrogenase catalyzes: glyceraldehyde-3-P + NAD+ + Pi 1,3-bisphosphoglycerate + NADH + H+
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C
C
CH 2 O PO 32
H O
H O H
C
C
CH 2 O PO 32
O O PO 32
H O H+ P i
+ H +
N A D + N A D H 1
2
3
2
3
1
g l y c e r a l d e h y d e - 1 , 3 - b i s p h o s p h o - 3 - p h o s p h a t e g l y c e r a t e
G l y c e r a l d e h y d e - 3 - p h o s p h a t e D e h y d r o g e n a s e
Exergonic oxidation of the aldehyde in glyceraldehyde- 3-phosphate, to a carboxylic acid, drives formation of an acyl phosphate, a "high energy" bond (~P).
This is the only step in Glycolysis in which NAD+ is reduced to NADH.
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A cysteine thiol at the active site of Glyceraldehyde-3-phosphate Dehydrogenase has a role in catalysis.
The aldehyde of glyceraldehyde-3-phosphate reacts with the cysteine thiol to form a thiohemiacetal intermediate.
H3N+ C COO
CH2
SH
H
cysteine
C
C
CH2OPO32
H O
H OH
1
2
3
glyceraldehyde-3- phosphate
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The “high energy” acyl thioester is attacked by Pi to
yield the acyl phosphate (~P) product.
CH CH2OPO32
OHEnz-Cys SH
Enz-Cys S CH CH CH2OPO32
OHOH
Enz-Cys S C CH CH2OPO32
OHO
HC
NAD +
NADH
Enz-Cys SH
Pi
C CH CH2OPO32
OHO
O3PO2
O
glyceraldehyde-3-phosphate
1,3-bisphosphoglycerate
thiohemiacetal intermediate
acyl-thioester intermediate
Oxidation to a carboxylic acid (in a ~ thioester) occurs, as NAD+ is reduced to NADH.
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Recall that NAD+ accepts 2 e plus one H+ (a hydride) in going to its reduced form.
N
R
H
CN H 2
O
N
R
CN H 2
OH H
+
2 e + H
+
N A D + N A D H
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C
C
CH 2 O PO 32
O O PO 32
H O H
C
C
CH 2 O PO 32
O O
H O H
A D P A T P
1
22
3 3
1
M g 2+
1 , 3 - b i s p h o s p h o - 3 - p h o s p h o g l y c e r a t e g l y c e r a t e
P h o s p h o g l y c e r a t e K i n a s e
7. Phosphoglycerate Kinase catalyzes: 1,3-bisphosphoglycerate + ADP 3-phosphoglycerate + ATPThis phosphate transfer is reversible (low G), since one ~P bond is cleaved & another synthesized. The enzyme undergoes substrate-induced conformational change similar to that of Hexokinase.
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C
C
CH 2 O H
O O
H O PO 32
2
3
1C
C
CH 2 O PO 32
O O
H O H2
3
1
3 - p h o s p h o g l y c e r a t e 2 - p h o s p h o g l y c e r a t e
P h o s p h o g l y c e r a t e M u t a s e
8. Phosphoglycerate Mutase catalyzes: 3-phosphoglycerate 2-phosphoglycerate
Phosphate is shifted from the OH on C3 to the OH on C2.
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C
C
CH 2 O H
O O
H O PO 32
2
3
1C
C
CH 2 O PO 32
O O
H O H2
3
1
3 - p h o s p h o g l y c e r a t e 2 - p h o s p h o g l y c e r a t e
P h o s p h o g l y c e r a t e M u t a s e
C
C
CH2OPO32
O O
H OPO32
2
3
1
2,3-bisphosphoglycerate
An active site histidine side-chain participates in Pi transfer, by donating & accepting the phosphate.
The process involves a 2,3-bisphosphate intermediate.View an animation of the Phosphoglycerate Mutase reaction.
H3N+ C COO
CH2
CHN
HC NH
CH
H
histidine
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C
C
CH 2 O H
O O
H O PO 32
2
3
1C
C
CH 2
O O
O PO 32
2
3
1
+ H 2 O
2 - p h o s p h o g l y c e r a t e p h o s p h o e n o l p y r u v a t e
E n o l a s e
9. Enolase catalyzes
2-phosphoglycerate phosphoenolpyruvate + H2O
This Mg++-dependent dehydration reaction is inhibited by fluoride.
Fluorophosphate forms a complex with Mg++ at the active site.
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10. Pyruvate Kinase catalyzes:
phosphoenolpyruvate + ADP pyruvate + ATP
This reaction is spontaneous. PEP has a larger G of phosphate hydrolysis than ATP.
Removal of Pi from PEP yields an unstable enol, which spontaneously converts to the keto form of pyruvate.
C
C
CH 3
O O
O2
3
1A D P A T PC
C
CH 2
O O
O PO 32
2
3
1 C
C
CH 2
O O
O H2
3
1
p h o s p h o e n o l p y r u v a t e e n o l p y r u v a t e p y r u v a t e
P y r u v a t e K i n a s e
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Hexokinase
Phosphofructokinase
glucose Glycolysis
ATP
ADP glucose-6-phosphate
Phosphoglucose Isomerase
fructose-6-phosphate
ATP
ADP fructose-1,6-bisphosphate
Aldolase
glyceraldehyde-3-phosphate + dihydroxyacetone-phosphate
Triosephosphate Isomerase Glycolysis continued
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Glyceraldehyde-3-phosphate Dehydrogenase
Phosphoglycerate Kinase
Enolase
Pyruvate Kinase
glyceraldehyde-3-phosphate
NAD+ + Pi
NADH + H+
1,3-bisphosphoglycerate
ADP
ATP
3-phosphoglycerate
Phosphoglycerate Mutase
2-phosphoglycerate H2O
phosphoenolpyruvate
ADP
ATP pyruvate
Glycolysis continued.
Recall that there are 2 GAP per glucose.
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Glycolysis
Balance sheet for ~P bonds of ATP:
How many ATP ~P bonds expended? ________
How many ~P bonds of ATP produced? (Remember there are two 3C fragments from glucose.) ________
Net production of ~P bonds of ATP per glucose: ________
2
4
2
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Glycolysis
Balance sheet for ~P bonds of ATP:
2 ATP expended 4 ATP produced (2 from each of two 3C fragments
from glucose) Net production of 2 ~P bonds of ATP per glucose.
Glycolysis - total pathway, omitting H+:
glucose + 2 NAD+ + 2 ADP + 2 Pi
2 pyruvate + 2 NADH + 2 ATP
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Fermentation
Anaerobes lack a respiratory chain for reoxidizing NADH. They must reoxidize NADH through some other reaction.
NAD+ is needed for Glyceraldehyde-3-P Dehydrogenase of Glycolysis.
C
C
CH 2 O PO 32
H O
H O H
C
C
CH 2 O PO 32
O O PO 32
H O H+ P i
+ H +
N A D + N A D H 1
2
3
2
3
1
g l y c e r a l d e h y d e - 1 , 3 - b i s p h o s p h o - 3 - p h o s p h a t e g l y c e r a t e
G l y c e r a l d e h y d e - 3 - p h o s p h a t e D e h y d r o g e n a s e
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C
C
CH 3
O
O
O
C
H C
CH 3
O
O H
ON A D H + H + N A D +
L a c t a t e D e h y d r o g e n a s e
p y r u v a t e l a c t a t e
Skeletal muscles function anaerobically in exercise, when aerobic metabolism cannot keep up with energy needs.
Pyruvate is converted to lactate, regenerating NAD+
needed for Glycolysis.
Glycolysis is the main source of ATP under anaerobic conditions.
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C
C
CH 3
O
O
O
C
CH 3
O HC
CH 3
OH H
H
N A D H + H + N A D +CO 2
P y r u v a t e A l c o h o l D e c a r b o x y l a s e D e h y d r o g e n a s e
p y r u v a t e a c e t a l d e h y d e e t h a n o l
Fermentation
Some anaerobic organisms metabolize pyruvate to ethanol, which is excreted as a waste product.
The Alcohol Dehydrogenase reaction regenerates NAD+, needed for continuation of Glycolysis.
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Glycolysis, omitting H+:
glucose + 2 NAD+ + 2 ADP + 2 Pi
2 pyruvate + 2 NADH + 2 ATP
Fermentation, from glucose to lactate:
glucose + 2 ADP + 2 Pi 2 lactate + 2 ATP
Anaerobes excrete the product of fermentation (e.g., lactate or ethanol). They derive only 2 ATP from glucose catabolism.
In aerobic organisms, pyruvate is instead oxidized further to CO2, via Krebs Cycle and oxidative phosphorylation, with production of additional ATP.
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Glycolysis Enzyme/ReactionGo'
kJ/molG
kJ/mol
Hexokinase -20.9 -27.2
Phosphoglucose Isomerase +2.2 -1.4
Phosphofructokinase -17.2 -25.9
Aldolase +22.8 -5.9
Triosephosphate Isomerase +7.9 negative
Glyceraldehyde-3-P Dehydrogenase& Phosphoglycerate Kinase
-16.7 -1.1
Phosphoglycerate Mutase +4.7 -0.6
Enolase -3.2 -2.4
Pyruvate Kinase -23.0 -13.9*Values in this table from D. Voet & J. G. Voet (2004) Biochemistry, 3rd Edition, John Wiley & Sons, New York, p. 613.
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Three Glycolysis enzymes catalyze spontaneous reactions: Hexokinase, Phosphofructokinase & Pyruvate Kinase.
Control of these enzymes determines the rate of the Glycolysis pathway.
Local control involves dependence of enzyme-catalyzed reactions on concentrations of pathway substrates or intermediates within a cell.
Global control involves hormone-activated production of second messengers that regulate cellular reactions for the benefit of the organism as a whole.
Local control will be discussed here. Regulation by hormone-activated cAMP signal cascade will be discussed later.
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Hexokinase is inhibited by its product glucose-6-phosphate.
Glucose-6-phosphate inhibits by competition at the active site, as well as by allosteric interactions at a separate site on the enzyme.
H O
O H
H
O HH
O H
CH 2O H
H
O H
H H O
O H
H
O HH
O H
CH 2O PO 32
H
O H
H
23
4
5
6
1 1
6
5
4
3 2
A T P A D P
M g 2+
glu co se g lu co se -6 -p h osp h ate
H ex ok in ase
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Cells trap glucose by phosphorylating it, preventing exit on glucose carriers.
Product inhibition of Hexokinase ensures that cells will not continue to accumulate glucose from the blood, if [glucose-6-phosphate] within the cell is ample.
H O
O H
H
O HH
O H
CH 2O H
H
O H
H H O
O H
H
O HH
O H
CH 2O PO 32
H
O H
H
23
4
5
6
1 1
6
5
4
3 2
A T P A D P
M g 2+
glu co se g lu co se -6 -p h osp h ate
H ex ok in ase
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Glucokinase, a variant of Hexokinase found in liver, has a high KM for glucose. It is active only at high [glucose].
Glucokinase is not subject to product inhibition by glucose-6-phosphate.
Liver will take up & phosphorylate glucose even when liver [glucose-6-phosphate] is high.
Liver Glucokinase is subject to inhibition by glucokinase regulatory protein (GKRP).
The ratio of Glucokinase to GKRP changes in different metabolic states, providing a mechanism for modulating glucose phosphorylation.
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Glucokinase, with its high KM for glucose, allows the liver to store glucose as glycogen, in the fed state when blood [glucose] is high.
Glycogen Glucose
Hexokinase or Glucokinase
Glucose-6-Pase Glucose-1-P Glucose-6-P Glucose + Pi Glycolysis Pathway
Pyruvate Glucose metabolism in liver.
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Glucose-6-phosphatase catalyzes hydrolytic release of Pi from glucose-6-P. Thus glucose is released from the liver to the blood as needed to maintain blood [glucose].
The enzymes Glucokinase & Glucose-6-phosphatase, both found in liver but not in most other body cells, allow the liver to control blood [glucose].
Glycogen Glucose
Hexokinase or Glucokinase
Glucose-6-Pase Glucose-1-P Glucose-6-P Glucose + Pi Glycolysis Pathway
Pyruvate Glucose metabolism in liver.
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Phosphofructokinase is usually the rate-limiting step of the Glycolysis pathway.
Phosphofructokinase is allosterically inhibited by ATP. At low concentration, the substrate ATP binds only at
the active site. At high concentration, ATP binds also at a low-affinity
regulatory site, promoting the tense conformation.
CH 2 O PO 32
O H
CH 2 O H
H
O H H
H HO
O6
5
4 3
2
1 CH 2 O PO 32
O H
CH 2 O PO 32
H
O H H
H HO
O6
5
4 3
2
1
A T P A D P
M g 2 +
f r u c t o s e - 6 - p h o s p h a t e f r u c t o s e - 1 , 6 - b i s p h o s p h a t e
P h o s p h o f r u c t o k i n a s e
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The tense conformation of PFK, at high [ATP], has lower affinity for the other substrate, fructose-6-P. Sigmoidal dependence of reaction rate on [fructose-6-P] is seen.
AMP, present at significant levels only when there is extensive ATP hydrolysis, antagonizes effects of high ATP.
0
10
20
30
40
50
60
0 0.5 1 1.5 2[Fructose-6-phosphate] m M
PFK
Act
ivity
high [AT P]
low [A T P]
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Inhibition of the Glycolysis enzyme Phosphofructokinase when [ATP] is high prevents breakdown of glucose in a pathway whose main role is to make ATP.
It is more useful to the cell to store glucose as glycogen when ATP is plentiful.
Glycogen Glucose
Hexokinase or Glucokinase
Glucose-6-Pase Glucose-1-P Glucose-6-P Glucose + Pi Glycolysis Pathway
Pyruvate Glucose metabolism in liver.