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Catabolism of ١lipids ‫ ﺗﻜﺴﯿﺮ اﻟﺪھﻮن‬:‫اﻟﻤﺤﺎﺿﺮة اﻟﺜﺎﻧﯿﺔ‬
β-Oxidation of Fatty Acids
‫اﻻﺳﺘﺎذ اﻟﺪﻛﺘﻮر ﻋﻮده ﻣﺰﻋﻞ ﯾﺎﺳﺮ اﻟﺰاﻣﻠﻲ‬
Steps of β- oxidation
1-activation step in cytosol( endoplasmic reticulium), by using Coenzyme ASH(
CoASH) with required energy of two phosphate groups of ATP .
ATP→ AMP + PPi
PPi→ 2 Pi
In the calculation the energy spend in this step is equal two ATP molecules.
2-β- oxidation occurs in the mitochondria matrix after the fatty acid across the
mitochondrial membrane, the steps included the following steps:
A- oxidation step under influences of fatty acylCoA dehydrogenase which is used
FAD as coenzyme,converted into FADH2 and oxidation α- carbon atom and leave
double bond.
FADH2→ FAD +2 ATP (after oxidation in respiratory chain)
B- The product of A, was hydrated with H2O under influence of elonyl-CoA
hydratase, the reaction was substitution OH group on β- carbon according Mirkonekoff role( the product was L-β-hydroxy fatty acylCoA , which have OH group can
oxidized in the anther step,(this step with out exert energy).
١
Catabolism of ٢lipids ‫ ﺗﻜﺴﯿﺮ اﻟﺪھﻮن‬:‫اﻟﻤﺤﺎﺿﺮة اﻟﺜﺎﻧﯿﺔ‬
β-Oxidation of Fatty Acids
‫اﻻﺳﺘﺎذ اﻟﺪﻛﺘﻮر ﻋﻮده ﻣﺰﻋﻞ ﯾﺎﺳﺮ اﻟﺰاﻣﻠﻲ‬
C-The OH group was oxidized by NAD+ into β- ketofatty acylCoA , in this step the
NADH + H+ produced was oxidized in respiratory chain into NAD+ with 3ATP .
D-The final step was cleavage the β-ketofatty acylCoA by thiol group from CoASH
in to fatty acylCoA + acetylCoA .
The fatty acylCoA was reoxidation by β-oxidation cycles in the mitoconderia with out
activation step,
AcetylCoA was completely oxidation in TCA cycle.
:‫ﺣﺴﺎﺑﺎت اﻟﻄﺎﻗﺔ اﻟﻤﺘﺤﺮرةﻣﻦ اﻛﺴﺪة ﺑﯿﺘﺎ‬
2ATP ‫ﺧﻄﻮة اﻟﺘﻨﺸﯿﻂ ﻓﻲ اﻟﺴﺎﯾﺘﻮﺑﻼزم ﺗﺼﺮف‬
2ATP ‫ﺧﻄﻮة اﻻﻛﺴﺪة اﻻوﻟﻰ ﺗﺤﺮر‬
3ATP ‫اﻟﺨﻄﻮة اﻟﺜﺎﻟﺜﺔ)ﺧﻄﻮة اﻻﻛﺴﺪة اﻟﺜﺎﻧﯿﺔ( ﺗﺤﺮر‬
2 \ ‫ اﻟﻤﺘﺤﺮرة ﺗﺴﺎوي ﻋﺪد ذرات اﻟﻜﺎرﺑﻮن‬AcetylCoA ‫ﻋﺪد‬
‫ ﯾﺴﺎوي ﻋﺪد‬AcetylCoA ‫ﻋﺪد اﻟﺪورات اﻟﻼزﻣﺔ ﻻﻛﺴﺪة اﻟﺤﺎﻣﺾ اﻟﺸﺤﻤﻲ ﻛﻠﯿﺎ اﻟﻰ‬
1 ‫ ﻣﻄﺮوح ﻣﻦ ﻧﺎﺗﺞ اﻟﻘﺴﻤﺔ‬2 \ ‫ذرات اﻟﻜﺎرﺑﻮن‬
-
‫اﻟﻤﻌﺎدﻟﺔ اﻟﻌﺎﻣﺔ‬
‫ اﻟﻨﺎﺗﺠﺔ ﻣﻦ اﻛﺴﺪة ﺟﺰﯾﺌﺔ اﻟﺤﺎﻣﺾ اﻟﺪھﻨﻲ‬8 AcetylCoA ‫ﻓﯿﻤﺎ ﯾﻠﻲ اﻟﻤﻌﺎدﻟﺔ اﻟﻤﻌﺒﺮة ﻋﻦ اﻻﻛﺴﺪة اﻟﺘﺎﻣﺔ ﻟﻞ‬
،‫ ﻓﻲ دورة ﻛﺮﯾﺲ‬Palmitate‫ال‬
٢
‫اﻟﻤﺤﺎﺿﺮة اﻟﺜﺎﻧﯿﺔ‪ :‬ﺗﻜﺴﯿﺮ اﻟﺪھﻮن ‪Catabolism of ٣lipids‬‬
‫‪β-Oxidation of Fatty Acids‬‬
‫اﻻﺳﺘﺎذ اﻟﺪﻛﺘﻮر ﻋﻮده ﻣﺰﻋﻞ ﯾﺎﺳﺮ اﻟﺰاﻣﻠﻲ‬
‫ﻋﺪد اﻟﺪورات ‪ ٧‬اﻟﻼزﻣﺔ ﻟﻸﻛﺴﺪة اﻟﺘﺎﻣﺔ ﻟﺤﺎﻣﺾ اﻟﺒﺎﻟﻤﺘﯿﻚ ‪18‬ذرة ﻛﺮﺑﻮن‪.‬‬
‫إذن ﻣﻘﺪار اﻟﻄﺎﻗﺔ اﻟﻨﺎﺗﺠﺔ =‪5ATP x7‬‬
‫=‪35ATP‬‬
‫ﻣﻘﺪار اﻟﻄﺎﻗﺔ اﻟﻤﺘﺒﻘﯿﺔ = ) اﻟﻄﺎﻗﺔ اﻟﻤﺼﺮوﻓﺔ ﻟﻠﺘﻨﺸﯿﻂ ﻓﻲ اﻟﺴﺎﯾﺘﻮﺑﻼزم (‪35ATP – 2ATP‬‬
‫= ‪33ATP‬‬
‫ﻋﺪد أل ‪Acetyl-CoA‬اﻟﻨﺎﺗﺠﺔ = ‪8‬‬
‫ﺑﻌﺪ اﻷﻛﺴﺪة ﻓﻲ دورة ﻛﺮﺑﺲ ﺗﻌﻄﻲ ﻛﻞ اﺳﺘﯿﻞ ﻣﺮاﻓﻖ ‪12ATP= A‬‬
‫إذن ﻣﻘﺪار اﻟﻄﺎﻗﺔ اﻟﻨﺎﺗﺠﺔ ﻣﻦ اﻷﻛﺴﺪة =‪8X12ATP‬‬
‫=‪96ATP‬‬
‫ﻣﺠﻤﻮع اﻟﻄﺎﻗﺔ ﻟﻸﻛﺴﺪة اﻟﺘﺎﻣﺔ ﻋﻠﻰ ھﯿﺌﺔ ‪33+96= ATP‬‬
‫=‪129ATP‬‬
‫اﻟﻄﺎﻗﺔ اﻟﻜﻠﯿﺔ ﻋﻠﻰ ھﯿﺌﺔ ‪129x(-7.5)= Kcal/mol‬‬
‫=‪-967.5Kcal/mol‬‬
‫‪٣‬‬
Catabolism of ٤lipids ‫ ﺗﻜﺴﯿﺮ اﻟﺪھﻮن‬:‫اﻟﻤﺤﺎﺿﺮة اﻟﺜﺎﻧﯿﺔ‬
β-Oxidation of Fatty Acids
‫اﻻﺳﺘﺎذ اﻟﺪﻛﺘﻮر ﻋﻮده ﻣﺰﻋﻞ ﯾﺎﺳﺮ اﻟﺰاﻣﻠﻲ‬
Beta Oxidation of Odd
Carbon Fatty Acids
CH 3 CH 2 CH 2 --CH2 CH 2 --CH2 CH 2 --CH2 CH 2 --CH2 CH 2 --CH2 COSCoA
5 Cycles
5 CH3COSCoA + CH3CH2COSCoA
Propionyl CoA
TCA Cycle
Mutase
HO 2CCH 2CH 2 COSCoA
Succinyl CoA
CO2 H
Epimerase
CH 3 -C-H
Vit. B12
COSCoA
L-Methylmalonyl
CoA
Propionyl CoA
Carboxylase
ATP/CO2
CO2H
H-C-CH3
COSCoA
D-Methylmalonyl
CoA
Translocase
Carnitine acyltransferase I
Carnitine acyltransferase II
٤
Catabolism of ٥lipids ‫ ﺗﻜﺴﯿﺮ اﻟﺪھﻮن‬:‫اﻟﻤﺤﺎﺿﺮة اﻟﺜﺎﻧﯿﺔ‬
β-Oxidation of Fatty Acids
‫اﻻﺳﺘﺎذ اﻟﺪﻛﺘﻮر ﻋﻮده ﻣﺰﻋﻞ ﯾﺎﺳﺮ اﻟﺰاﻣﻠﻲ‬
Ketogenesis: Formation of
Ketone Bodies
Thiolase
2 CH3COSCoA
CH3COSCoA
CH3COCH2COSCoA
Acetoacetyl CoA
HMG CoA
Synthase
Cholesterol
(in cytosol)
Several
steps
See Slide 78
(in liver:
mitochondrial matrix)
OH
HO2C-CH2-C-CH2COSCoA
CH3
Ketogenesis
-Hydroxy--methylglutaryl CoA
(HMG CoA)
Ketogenesis: Formation
of Ketone Bodies (Cont’d.)
OH
HO2C-CH2-C-CH2COSCoA
CH3
HMG CoA
HMG CoA
lyase
- CH3COSCoA
NADH + H+
CH3COCH2CO2
Acetoacetate
Dehydrogenase
- CO2
NAD+
OH
CH3CHCH2CO2
-Hydroxybutyrate
Ketone bodies are important sources
of energy, especially in starvation
٥
CH3COCH
Acetone3
(volatile)
Catabolism of ٦lipids ‫ ﺗﻜﺴﯿﺮ اﻟﺪھﻮن‬:‫اﻟﻤﺤﺎﺿﺮة اﻟﺜﺎﻧﯿﺔ‬
β-Oxidation of Fatty Acids
‫اﻻﺳﺘﺎذ اﻟﺪﻛﺘﻮر ﻋﻮده ﻣﺰﻋﻞ ﯾﺎﺳﺮ اﻟﺰاﻣﻠﻲ‬
Ketone Bodies As Energy Sources
In liver
-Hydroxybutyrate
Acetoacetate
Acetoacetate is major energy
source in cardiac muscle and
renal cortex; also in brain in
starvation and diabetes
Succinyl CoA
-Ketoacyl CoA
transferase
Not found in liver
Thiolase
2 Acetyl CoA
Acetoacetyl CoA
Succinate
Combines with
oxaloacetate
TCA Cycle
Fatty Acid Synthesis vs.
Degradation
Synthesis
Intermediates
Site
Enzymes
Redox
Coenzymes
Linked to SH in
Cytosol
Components of
NADP+ / NADPH
٦
Degradation
Linked to CoASH
Proteins
(Acyl Carrier Proteins)
Mitochondria
Separate Polypeptides
Single Peptide
NAD+ / NADH
Catabolism of ٧lipids ‫ ﺗﻜﺴﯿﺮ اﻟﺪھﻮن‬:‫اﻟﻤﺤﺎﺿﺮة اﻟﺜﺎﻧﯿﺔ‬
β-Oxidation of Fatty Acids
‫اﻻﺳﺘﺎذ اﻟﺪﻛﺘﻮر ﻋﻮده ﻣﺰﻋﻞ ﯾﺎﺳﺮ اﻟﺰاﻣﻠﻲ‬
Complete Oxidation ‫ﻣﻘﺎرﻧﺔ ﺑﯾن أﻧواع اﻟطﺎﻗﺔ اﻟﻣﺗﺣررة اﻷﻛﺳدة اﻟﺗﺎﻣﺔ‬
9Kcal/g
4Kcal/g
4Kcal/g
:‫ﻣن اﻷﻧواع اﻟﻣﺧﺗﻠﻔﺔ ﻟﻸﻏذﯾﺔ‬
Fatty acid ‫اﻷﺣﻣﺎض اﻟﺷﺣﻣﺔ‬
Carbohydrates ‫اﻟﺳﻛرﯾﺎت‬
Protein ‫اﻟﺑروﺗﯾن‬
‫اﻛﺳدة ﺑﯾﺗﺎ ﻻﺣﻣﺎض اﻟﺷﺣﻣﯾﺔ اﻻﺣﺎدﯾﺔ اﻟﻛﺎرﺑون‬
Beta Oxidation of Odd
Carbon Fatty Acids
CH 3 CH 2 CH 2 --CH2 CH 2 --CH2 CH 2 --CH2 CH 2 --CH2 CH 2 --CH2 COSCoA
5 Cycles
5 CH3COSCoA + CH3CH2COSCoA
Propionyl CoA
TCA Cycle
Mutase
HO 2CCH 2CH 2 COSCoA
Succinyl CoA
CO2 H
Epimerase
CH 3 -C-H
Vit. B12
COSCoA
L-Methylmalonyl
CoA
Propionyl CoA
Carboxylase
ATP/CO2
CO2H
H-C-CH3
COSCoA
D-Methylmalonyl
CoA
‫ ذرة ﻛﺎرﺑﻮن‬13 ‫اﻟﺤﺎﻣﺾ اﻟﺸﺤﻤﻲ اﻋﻼه ﻣﺘﻜﻮن ﻣﻦ‬
‫ﯾﺤﺘﺎج ﻟﻼﻛﺴﺪة اﻟﺘﺎﻣﺔ ﺧﻤﺴﺔ دورات‬
PropionylCoA + 5AcetylCoA ‫اﻟﻨﺎﺗﺞ اﻟﻨﮭﺎﺋﻲ‬
‫اﻟﺬي‬Carboxylase ‫ ﺗﺤﺖ ﺗﺄﺛﯿﺮ اﻧﺰﯾﻢ‬D-MethylmalonylCoA ‫ اﻟﻰ‬PropionylCoA‫ﯾﺘﺤﻮل ال‬
. ATP ‫ اﻟﻰ ﺟﺰﯾﺌﺔ طﺎﻗﺔ‬CO2 ‫ﯾﺤﺘﺎج دﻣﺞ‬PropionylCoA ‫ اﻟﻰ‬CO2 ‫ﯾﻀﯿﻒ ﻣﺠﻤﻮﻋﺔ‬
. Epimerase ‫ ﺑﻔﻌﻞ اﻧﺰﯾﻢ‬L ‫ اﻟﻰ اﻷﯾﺰوﻣﺮ‬D-MethylmalonylCoA ‫ﯾﺘﺤﻮل‬
‫ﺗﺪﺧﻞ ﻣﺠﻤﻮﻋﺔ اﻟﻤﺜﯿﻞ ﺿﻤﻦ اﻟﺴﻠﺴﻠﺔ اﻟﻤﺴﺘﻘﯿﻤﺔ ﻟﻠﻌﻤﻮدي اﻟﻔﻘﺮي اﻟﻜﺎرﺑﻮﻧﻲ ﻟﻤﺮﻛﺐ ﺑﻔﻊ ﺗﺄﺛﯿﺮ اﻧﺰﯾﻢ‬
L- ‫ وﯾﺘﺤﻮل اﻟﻤﺮﻛﺐ‬B12 ‫ )اﻟﺬي ﯾﺴﺘﺨﺪم اﻟﻤﺮاﻓﻖ اﻻﻧﺰﯾﻤﻲ ﻓﯿﺘﺎﻣﯿﻦ‬Mutase
. TCA cycle ‫ اﻟﺬي ﯾﺪﺧﻞ دورة‬SuccinylCoA ‫اﻟﻰ‬MethylmalonylCoA
٧






‫اﻟﻤﺤﺎﺿﺮة اﻟﺜﺎﻧﯿﺔ‪ :‬ﺗﻜﺴﯿﺮ اﻟﺪھﻮن ‪Catabolism of ٨lipids‬‬
‫‪β-Oxidation of Fatty Acids‬‬
‫اﻻﺳﺘﺎذ اﻟﺪﻛﺘﻮر ﻋﻮده ﻣﺰﻋﻞ ﯾﺎﺳﺮ اﻟﺰاﻣﻠﻲ‬
‫ﻛﯿﻔﯿﺔ ﻧﻘﻞ ﻣﺠﻤﻮﻋﺔ أل‪Acetyl-CoA‬اﻟﻰ اﻟﺴﺎﯾﺘﻮﺑﻼزم ﻟﻐﺮض ﺗﺨﻠﯿﻖ اﻟﺤﻮاﻣﺾ اﻟﺸﺤﻤﯿﺔ ﻓﻲ‬
‫اﻟﺴﺎﯾﺘﻮﺑﻼزم ﻻن ال ‪ AcetylCoA‬ﻻﯾﻨﺘﻘﻞ ﻣﺒﺎﺷﺮﺗﺎ ﻋﺒﺮﺟﺪار اﻟﻤﺎﯾﺘﻮﻛﻮﻧﺪرﯾﺎاﻟﻰ اﻟﺴﺎﯾﺘﻮﺑﻼزم‬
‫ﻣﻦ ﺧﻼل ھﺬا اﻟﻤﺨﻄﻂ‪:‬‬
‫‪ ‬ﯾﻌﻤﻞ اﻟﺴﺘﺮﯾﺖ ﺑﻨﻘﻞ ‪ AcetylCoA‬ﻣﻦ اﻟﻤﺎﯾﺘﻮﻛﻮﻧﺪرﯾﺎ اﻟﻰ اﻟﺴﺎﯾﺘﻮﺑﻼزم وذﻟﻚ ﻣﻦ ﺧﻼل‬
‫‪ ‬ارﻧﺒﺎط ‪ AcetylCoA‬ﻣﻊ ال‪ Oxaloacetate‬اﻟﻤﻨﺞ ﻓﻲ اﻟﻤﺎﯾﺘﻮﻛﻮﻧﺪرﯾﺎ ﻣﻜﻮﻧﺎ اﻟﺴﺘﺮﯾﺖ ﺑﺘﺎﺛﯿﺮ ﻓﻌﻞ‬
‫اﻧﺰﯾﻢ ‪.Citrate synthase‬‬
‫‪ ‬ﯾﻌﺒﺮ اﻟﺴﺘﺮﯾﺖ ﻣﻦ ﺣﺸﻮة اﻟﻤﺎﯾﺘﻮﻛﻮﻧﺪرﯾﺎ اﻟﻰ اﻟﺴﺎﯾﺘﻮﺑﻼزﻣﻌﺒﺮ اﻟﺠﺪار اﻟﻤﺎﯾﺘﻮﻛﻮﻧﺪرﯾﺎ اﻟﺨﺎرﺟﻲ‪.‬‬
‫‪ ‬ﯾﺘﺤﻠﻞ اﻟﺴﺘﺮﯾﺖ ﺑﻮﺟﻮد ‪ CoA‬اﻟﻰ‪ OAA‬و ‪ AcetylCoA‬ﺑﻔﻌﻞ اﻧﺰﯾﻢ ‪ Lyase‬اﻟﺬي ﯾﺤﺘﺎج اﻟﻰ‬
‫طﺎﻗﺔ اﺻﺮة ﻓﻮﺳﻔﯿﺖ ﻣﻦ ﺗﺤﻠﻞ ﺟﺰﯾﺌﺔ ‪. ATP‬‬
‫‪٨‬‬
Catabolism of ٩lipids ‫ ﺗﻜﺴﯿﺮ اﻟﺪھﻮن‬:‫اﻟﻤﺤﺎﺿﺮة اﻟﺜﺎﻧﯿﺔ‬
β-Oxidation of Fatty Acids
‫اﻻﺳﺘﺎذ اﻟﺪﻛﺘﻮر ﻋﻮده ﻣﺰﻋﻞ ﯾﺎﺳﺮ اﻟﺰاﻣﻠﻲ‬
‫ﺗﺨﻠﯿﻖ اﻟﺤﻮاﻣﺾ اﻟﺸﺤﻤﯿﺔ‬
Fatty Acid Biosynthesis
‫ﻣﻘﺎرﻧﺔ ﺑﯿﻦ ﺗﺨﻠﯿﻖ اﻟﺤﻮاﻣﺾ اﻟﺸﺤﻤﺔ وﺗﻜﺴﯿﺮھﺎ ﻣﻦ ﺧﻼل‬
‫ اﻟﻮﺳﻄﯿﺎت‬
‫ اﻟﻤﻮﻗﻊ‬
‫ اﻹﻧﺰﯾﻤﺎت‬
‫ اﻟﻤﺮاﻓﻘﺎت اﻹﻧﺰﯾﻤﯿﺔ ﻟﺘﻔﺎﻋﻼت اﻷﻛﺴﺪة واﻻﺧﺘﺰال‬
Fatty Acid Synthesis vs.
Degradation
Synthesis
Intermediates
Site
Enzymes
Redox
Coenzymes
Linked to SH in
Cytosol
Components of
NADP+ / NADPH
٩
Degradation
Linked to CoASH
Proteins
(Acyl Carrier Proteins)
Mitochondria
Separate Polypeptides
Single Peptide
NAD+ / NADH
Catabolism of١٠lipids ‫ ﺗﻜﺴﯿﺮ اﻟﺪھﻮن‬:‫اﻟﻤﺤﺎﺿﺮة اﻟﺜﺎﻧﯿﺔ‬
β-Oxidation of Fatty Acids
‫اﻻﺳﺘﺎذ اﻟﺪﻛﺘﻮر ﻋﻮده ﻣﺰﻋﻞ ﯾﺎﺳﺮ اﻟﺰاﻣﻠﻲ‬
Fatty Acid Biosynthesis:
Formation of Malonyl CoA
CH3COSCoA + ATP + HCO3
Acetyl CoA
Carboxylase
-
Malonyl CoA
O2CCH2COSCoA
+ ADP + Pi + H+
Committed step in fatty acid synthesis•
Reaction is irreversible•
Regulation of acetyl CoA carboxylase activity:•
by palmitoyl CoA
by citrate
by insulin
by epinephrine and glucagon
Malonyl CoA inhibits carnitine acyl transferase I •
Blocks beta oxidation •
١٠
‫اﻟﻤﺤﺎﺿﺮة اﻟﺜﺎﻧﯿﺔ‪ :‬ﺗﻜﺴﯿﺮ اﻟﺪھﻮن ‪Catabolism of١١lipids‬‬
‫‪β-Oxidation of Fatty Acids‬‬
‫اﻻﺳﺘﺎذ اﻟﺪﻛﺘﻮر ﻋﻮده ﻣﺰﻋﻞ ﯾﺎﺳﺮ اﻟﺰاﻣﻠﻲ‬
‫‪١١‬‬
‫اﻟﻤﺤﺎﺿﺮة اﻟﺜﺎﻧﯿﺔ‪ :‬ﺗﻜﺴﯿﺮ اﻟﺪھﻮن ‪Catabolism of١٢lipids‬‬
‫‪β-Oxidation of Fatty Acids‬‬
‫اﻻﺳﺘﺎذ اﻟﺪﻛﺘﻮر ﻋﻮده ﻣﺰﻋﻞ ﯾﺎﺳﺮ اﻟﺰاﻣﻠﻲ‬
‫اﻟﻤﺴﺎر اﻟﺠﺪﯾﺪ ﻟﺘﺨﻠﯿﻖ اﻟﺤﻮاﻣﺾ اﻟﺸﺤﻤﯿﺔ ‪Denovo pathway of fatty acid‬‬
‫‪biosynthesis‬‬
‫‪١٢‬‬
‫اﻟﻤﺤﺎﺿﺮة اﻟﺜﺎﻧﯿﺔ‪ :‬ﺗﻜﺴﯿﺮ اﻟﺪھﻮن ‪Catabolism of١٣lipids‬‬
‫‪β-Oxidation of Fatty Acids‬‬
‫اﻻﺳﺘﺎذ اﻟﺪﻛﺘﻮر ﻋﻮده ﻣﺰﻋﻞ ﯾﺎﺳﺮ اﻟﺰاﻣﻠﻲ‬
‫ﻣﺼﺪر أل ‪ NADPH‬اﻟﻤﺴﺘﺨﺪﻣﺔ ﻛﻤﻜﺎﻓﺌﺎت اﺧﺘﺰاﻟﯿﺔ ﻓﻲ ﺗﺨﻠﯿﻒ اﻟﺤﻮاﻣﺾ اﻟﺸﺤﻤﺔ وھﻲ‪:‬‬
‫‪ ‬ﻣﺴﺎر ال ‪Pentose phosphate pathway‬‬
‫‪١٣‬‬
‫اﻟﻤﺤﺎﺿﺮة اﻟﺜﺎﻧﯿﺔ‪ :‬ﺗﻜﺴﯿﺮ اﻟﺪھﻮن ‪Catabolism of١٤lipids‬‬
‫‪β-Oxidation of Fatty Acids‬‬
‫اﻻﺳﺘﺎذ اﻟﺪﻛﺘﻮر ﻋﻮده ﻣﺰﻋﻞ ﯾﺎﺳﺮ اﻟﺰاﻣﻠﻲ‬
‫‪ ‬ﻣﺴﺎر ال ‪ Malate‬اﻟﻰ ال ‪Pyruvate‬‬
‫ﻛﻤﺎ ﻓﻲ اﻟﻤﺨﻄﻂ اﻟﺘﺎﻟﻲ‬
‫‪Fatty Acid Biosynthesis:‬‬
‫‪Sources of NADPH‬‬
‫‪Pentose Phosphate Pathway:‬‬
‫‪OH‬‬
‫‪O‬‬
‫‪OH‬‬
‫‪OH‬‬
‫‪OP‬‬
‫‪Ribulose-5‬‬‫‪phosphate‬‬
‫‪NADPH‬‬
‫‪+ H+‬‬
‫‪O‬‬
‫‪CO2-‬‬
‫‪NADP+‬‬
‫‪OH‬‬
‫‪HO‬‬
‫‪OH‬‬
‫‪OH‬‬
‫‪OP‬‬
‫‪6-Phospho‬‬‫‪gluconate‬‬
‫‪CO2‬‬
‫‪NADPH‬‬
‫‪+ H+‬‬
‫‪OH‬‬
‫‪HO‬‬
‫‪OH‬‬
‫‪OH‬‬
‫‪OP‬‬
‫‪Glucose-6‬‬‫‪phosphate‬‬
‫‪Malic Enzyme:‬‬
‫‪NADP+‬‬
‫‪-‬‬
‫‪-‬‬
‫‪HO-CH-CO2‬‬
‫‪CH3CCO2‬‬
‫‪Pyruvate‬‬
‫‪NADPH‬‬
‫‪+ H+‬‬
‫‪NADP+‬‬
‫‪CHO‬‬
‫‪Malic‬‬
‫‪Enzyme CO2‬‬
‫‪-‬‬
‫‪CH2CO2‬‬
‫‪Malate‬‬
‫اﻟﻌﻼﻗﺔ اﻟﺪاﺧﻠﯿﺔ ﺑﯿﻦ اﻟﻜﻠﻮﻛﻮز وﺗﺨﻠﯿﻖ اﻟﺤﺎﻣﺾ اﻟﺸﺤﻤﻲ ﻣﻦ ﺧﻼل اﻟﻤﺨﻄﻂ اﻟﺘﺎﻟﻲ‬
‫‪ ‬ﻓﻲ اﻟﺴﺎﯾﺘﻮﺑﻼزم ﺗﺴﺘﺨﺪم ال ‪ NADH +H+‬اﻟﻨﺎﺗﺞ ﻣﻦ ﺗﺤﻠﻞ اﻟﻜﻠﻮﻛﻮز ‪ Glycolysis‬ﻓﻲ اﺧﺘﺰال‬
‫ال ‪) Oxaloacetate‬اﻟﻘﺎدم ﻣﻦ اﻟﻤﺎﯾﺘﻮﻛﻮﻧﺪرﯾﺎﺑﻌﺪ طﺮح ال ‪ (AcetylCoA‬اﻟﻰ ‪Malate‬‬
‫اﻟﺬي ﯾﺘﺤﻮل اﻟﻰ ‪ Pyruvate‬ﺑﻌﺪ طﺮح ‪ CO2‬ﺑﺎﺳﺘﺨﺪام ﻣﻜﺎﻓﯿﺊ اﻻﻛﺴﺪة ‪ NADP+‬اﻟﺬي ﯾﺘﺤﻮل‬
‫اﻟﻰ ‪ NADPH+H+‬اﻟﺬي ھﻮ اﻻﺧﺮ ﯾﺴﺘﺨﺪم ف‪.‬ي ﻋﻤﻠﯿﺎت اﻻﻛﺴﺪة ﻓﻲ ﻣﺮاﺣﻞ ﻟﺘﺨﻠﯿﻖ اﻟﺤﺎﻣﺾ‬
‫اﻟﺸﺤﻤﻲ ‪.‬‬
‫‪ ‬ﯾﺪﺧﻞ ال ‪ Pyruvate‬اﻟﻰ اﻟﻤﺎﯾﺘﻮﻛﻮﻧﺪرﯾﺎ ﻣﺘﺤﻮﻻ ﻓﻲ دورة ﻛﺮﺑﺲ اﻟﻰ ‪ Citrate‬اﻟﺬي ﯾﺴﺘﻄﯿﻊ ﻋﺒﻮر‬
‫ﺟﺪار اﻟﻤﺎﯾﺘﻮﻛﻮﻧﺪرﯾﺎ اﻟﻰ اﻟﺴﺎﯾﺘﻮﺑﻼزم‪.‬‬
‫‪١٤‬‬
‫اﻟﻤﺤﺎﺿﺮة اﻟﺜﺎﻧﯿﺔ‪ :‬ﺗﻜﺴﯿﺮ اﻟﺪھﻮن ‪Catabolism of١٥lipids‬‬
‫‪β-Oxidation of Fatty Acids‬‬
‫اﻻﺳﺘﺎذ اﻟﺪﻛﺘﻮر ﻋﻮده ﻣﺰﻋﻞ ﯾﺎﺳﺮ اﻟﺰاﻣﻠﻲ‬
‫‪١٥‬‬
Catabolism of١٦lipids ‫ ﺗﻜﺴﯿﺮ اﻟﺪھﻮن‬:‫اﻟﻤﺤﺎﺿﺮة اﻟﺜﺎﻧﯿﺔ‬
β-Oxidation of Fatty Acids
‫اﻻﺳﺘﺎذ اﻟﺪﻛﺘﻮر ﻋﻮده ﻣﺰﻋﻞ ﯾﺎﺳﺮ اﻟﺰاﻣﻠﻲ‬
Fatty Acid Biosynthesis:
Chain Elongation
CH3CH2CH2CO-S-ACP
-
+
O2CCH2CO-S-ACP
CH3CH2CH2COCH2CO-S-ACP
H
OH
CH2CH2CH2CHCH2CO-S-ACP
CH3CH2CH2C=CCO-S-ACP
H
Fatty Acid Biosynthesis:
Chain Elongation (Cont’d)
H
NADPH
+
+H
CH3CH2CH2C=CCO-S-ACP
CH3(CH2)3CH2CO-S-ACP
H
CH3(CH2)13CH2CO2
Palmitate
+
NADP
5 Cycles
-
CH3(CH2)13CH2CO-S-ACP
Thioesterase
١٦
Palmitoyl ACP
Catabolism of١٧lipids ‫ ﺗﻜﺴﯿﺮ اﻟﺪھﻮن‬:‫اﻟﻤﺤﺎﺿﺮة اﻟﺜﺎﻧﯿﺔ‬
β-Oxidation of Fatty Acids
‫اﻻﺳﺘﺎذ اﻟﺪﻛﺘﻮر ﻋﻮده ﻣﺰﻋﻞ ﯾﺎﺳﺮ اﻟﺰاﻣﻠﻲ‬
Fatty Acid Biosynthesis:
Fatty Acid Synthase
in Animals
Consists of a single polypeptide containing •
three distinct domains
Conducts all steps in fatty acid synthesis•
except function of acyl CoA carboxylase
Further Processing of Fatty
Acids: Elongation
CH3(CH2)13CH2COSCoA
Palmitoyl CoA
In mitochondria and
at surface of
endoplasmic reticulum
CH3COSCoA
Thiolase
CH3(CH2)13CH2COCH2COSCoA
NADH + H+
NAD+
Dehydrogenase
OH
L- Configuration
CH3(CH2)13CH2CCH2COSCoA
H
١٧
Catabolism of١٨lipids ‫ ﺗﻜﺴﯿﺮ اﻟﺪھﻮن‬:‫اﻟﻤﺤﺎﺿﺮة اﻟﺜﺎﻧﯿﺔ‬
β-Oxidation of Fatty Acids
‫اﻻﺳﺘﺎذ اﻟﺪﻛﺘﻮر ﻋﻮده ﻣﺰﻋﻞ ﯾﺎﺳﺮ اﻟﺰاﻣﻠﻲ‬
Further Processing of Fatty
Acids: Elongation (Cont’d)
OH
CH3(CH2)13CH2CCH2COSCoA
H
- H2O
Hydratase
H
CH3(CH2)13CH2C=CCOSCoA
NADPH + H+
Dehydrogenase
H
NADP+
CH3(CH2)13CH2CH2CH2COSCoA
Stearoyl CoA
Further Processing of Fatty
Acids: Unsaturation
CH3(CH2)13CH2CH2CH2COSCoA
Stearoyl CoA
O2
Stearoyl CoA
Desaturase
CH3(CH2)7C=C(CH2)7COSCoA + H2O
Oleoyl CoA
H
H
This reaction occurs in eukaryotes
Endoplasmic reticulum membrane
١٨
Catabolism of١٩lipids ‫ ﺗﻜﺴﯿﺮ اﻟﺪھﻮن‬:‫اﻟﻤﺤﺎﺿﺮة اﻟﺜﺎﻧﯿﺔ‬
β-Oxidation of Fatty Acids
‫اﻻﺳﺘﺎذ اﻟﺪﻛﺘﻮر ﻋﻮده ﻣﺰﻋﻞ ﯾﺎﺳﺮ اﻟﺰاﻣﻠﻲ‬
Cholesterol Biosynthesis:
Formation of Mevalonate
Liver is primary site of cholesterol biosynthesis
Thiolase
2 CH3COSCoA
CH3COCH2COSCoA
Acetoacetyl CoA
OH
HMGCoA
reductase
HO2C-CH2-C-CH2CH2OH
CH3
HMG CoA
Synthase
OH
HO2C-CH2-C-CH2COSCoA
CoASH NADP + NADPH
3R-Mevalonic acid
CH3COSCoA
CH3
+ H+
-Hydroxy--methylKey control step glutaryl CoA (HMG CoA)
in cholesterol
biosynthesis
Cholesterol Biosynthesis:
Processing of Mevalonate
OH
-
O2C-CH2-C-CH2CH2OH
CH3
Mevalonate
OH
2 Steps -O2C-CH2-C-CH2CH2OPOP
ATP
CH3
5-Pyrophosphomevalonate
- CO2
- H2O
CH3
Isomerase
CH3-C=CH2CH2OPOP
CH2=C-CH2CH2OPOP
Isopentenyl
Dimethylallyl
CH3
pyrophosphate
pyrophosphate
١٩
Catabolism of٢٠lipids ‫ ﺗﻜﺴﯿﺮ اﻟﺪھﻮن‬:‫اﻟﻤﺤﺎﺿﺮة اﻟﺜﺎﻧﯿﺔ‬
β-Oxidation of Fatty Acids
‫اﻻﺳﺘﺎذ اﻟﺪﻛﺘﻮر ﻋﻮده ﻣﺰﻋﻞ ﯾﺎﺳﺮ اﻟﺰاﻣﻠﻲ‬
Cholesterol Biosynthesis:
Isoprenoid Condensation
Dimethylallyl
pyrophosphate
Tail
Head to tail
Condensation
OPOP
OPOP
Tail
Head
Head
H
Tail
OPOP
Geranyl transferase
Isopentenyl
Pyrophosphate (IPP)
Geranyl
Pyrophosphate (GPP)
Isoprenes
Geranyl
transferase
Tail to tail
condensation
of 2 FPPs
Squalene
synthase
Squalene
Head
Head to tail
condensation
of IPP and
GPP
OPOP
Head
Tail
Farnesyl
Pyrophosphate (FPP)
Isoprenoids
Widely distributed in nature•
Generally contain multiple of 5 carbons:•
Monoterpene; 10 carbons•
Sesquiterpene: 15 carbons•
Diterpene: 20 carbons•
OH
OH
Menthol: a monoterpene
Lycopene: a tetraterpene
٢٠
Catabolism of٢١lipids ‫ ﺗﻜﺴﯿﺮ اﻟﺪھﻮن‬:‫اﻟﻤﺤﺎﺿﺮة اﻟﺜﺎﻧﯿﺔ‬
β-Oxidation of Fatty Acids
‫اﻻﺳﺘﺎذ اﻟﺪﻛﺘﻮر ﻋﻮده ﻣﺰﻋﻞ ﯾﺎﺳﺮ اﻟﺰاﻣﻠﻲ‬
Conversion of Squalene to Cholesterol
Squalene2,3-epoxide
Squalene
monooxygenase
O2
O
Squalene
2,3-Oxidosqualene
cyclase
H+
CH3
CH3
CH3
20 Steps
CH3
CH3
HO
HO
H3C
CH3
Cholesterol
Acyl-CoA:
cholesterol
acyltransferase
Lanosterol
CH3
RCO2
Cholesterol esters
(principal transport form in blood)
Transformations of
Cholesterol: Steroid Hormones
OH
CH3
O
O
OH
HO
CH3
O
HO
Cortisol
Cholesterol
O
Progesterone
OH
OH
OH
O
Testosterone
HO
CH 2
Estradiol
HO
OH
Vitamin D
٢١
‫اﻟﻤﺤﺎﺿﺮة اﻟﺜﺎﻧﯿﺔ‪ :‬ﺗﻜﺴﯿﺮ اﻟﺪھﻮن ‪Catabolism of٢٢lipids‬‬
‫‪β-Oxidation of Fatty Acids‬‬
‫اﻻﺳﺘﺎذ اﻟﺪﻛﺘﻮر ﻋﻮده ﻣﺰﻋﻞ ﯾﺎﺳﺮ اﻟﺰاﻣﻠﻲ‬
‫‪٢٢‬‬
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