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The  Krebs  Cycle  

•   Living  organism  obtain                              
energy  from  respira9on  

ü  There  are  2  types  of  respira9on  

a) External  respira9on  
 -­‐  involves  exchange  of  O2  and  CO2  at  respiratory  surface
...
 
 -­‐  involve  the  break  down  of  complex  organic  molecules,      
     such  as  glucose  into  simpler  molecules  with  the  release      
     of  energy  in  the  form  of  ATP  molecules
...
   
 -­‐  anaerobic  respira9on  occurs  if  O2  absent
...
 
ü  1  glucose  molecule  produces  2  pyruvate  molecules,  so,  2  
acetyl  CoA  molecules  are  formed
...
   

• 

Step  1:  Condensa
...
 Thermodynamically,  the  equilibrium  
is  in  favour  of  the  products
...
 Citrate  is  a  
tricarboxylic  acid,  and  the  Krebs  cycle  is  also  known  as  the  tricarboxylic  
acid  (or  TCA)  cycle    
 

Step  2
...
on  of  Citrate    
•  As  we  will  see  later  on  in  the  Krebs  cycle,  there  will  be  a  
decarboxyla+on  reac9on
...
 However,  the  exergonic  character  of  the  next  
reac9on  in  the  cycle  helps  shiY  the  equilibrium  of  this  reac9on  towards  the  
right
...
 Each  can  
adopt  either  the  L-­‐  or  D-­‐  rotamer,  thus  there  are  4  possible  isomers  of  this  
molecule    

•  Aconitase  only  produces  the  single  form  of  Isocitrate  (D-­‐Isocitrate)
...
on  of  CO2  by  an  NAD+  
linked  enzyme    
•  The  Krebs  cycle  contains  two  oxida9ve  decarboxyla9on  steps;  this  
is  the  first  one    
•  The  reac9on  is  catalyzed  by  the  enzyme  Isocitrate  dehydrogenase    
 

   

•  The  reac9on  involves  dehydrogena9on  to  Oxalosuccinate,  an  
unstable  intermediate  which  spontaneously  decarboxylates  to  give  
α-­‐Ketoglutarate    
•  The  reac9on  is  exergonic
...
 Thus,  this  step  is  referred  
to  as  an  oxida/ve  decarboxyla/on  step    

Step  4:  A  Second  Oxida
...
on  Step    
•  This  step  is  performed  by  a  mul9-­‐enzyme  complex,  the  α-­‐Ketoglutarate  
Dehydrogena+on  Complex    

 
 
 
 
•  The  mul9-­‐step  reac9on  performed  by  the  α-­‐Ketoglutarate  Dehydra+on  
Complex  is  analogous  to  the  Pyruvate  Dehydrogenase  Complex,  i
...
 an  α-­‐
keto  acid  undergoes  oxida9ve  decarboxyla9on  with  forma9on  of  an  acyl-­‐
CoA    
•  Overall,  this  oxida9ve  decarboxyla9on  step  is  more  exergonic  than  the  
first  oxida9ve  decarboxyla9on  step    

Summary  of  Krebs  cycle  reac
...
on    
•  Succinyl-­‐CoA  is  a  high  poten9al  energy  molecule
...
 In  animals,  GDP  is  
the  substrate  in  the  reac9on  with  forma9on  of  GTP  (which  is  then  used  to  
form  ATP  by  Nucleoside  Diphosphokinase)    

Step  6:  Flavin-­‐Dependent  
Dehydrogena
...
   
•  Both  Succinate  and  Oxaloacetate  are  4-­‐carbon  compounds    
•  The  first  step  in  the  conversion  is  the  dehydrogena9on  of  Succinate  to  
yield  Fumarate    

•  In  this  reac9on  a  C-­‐C  bond  is  being  oxidized  to  produce  a  C=C  bond
...
   
•  The  redox  coenzyme  for  this  reac9on  is  therefore  FAD,  rather  than  NAD+  
(FAD  is  a  more  powerful  oxidizing  agent  compared  to  NAD+)    
•  FAD  is  covalently  bound  to  the  Succinate  Dehydrogenase  molecule  (via  a  
his9dine  residue)    
•  The  FADH2  has  to  be  oxidized  for  the  enzyme  ac9vity  to  be  restored
...
   
•  Succinate  Dehydrogenase  is  +ghtly  bound  to  the  mitochondrial  inner  
membrane    
•  Succinate  Dehydrogenase  is  stereo-­‐specific:  the  trans-­‐  isomer  (Fumarate)  is  
produced  and  not  the  cis-­‐  isomer  (Maleate)    
 

Step  7:  Hydra
...
 Furthermore,  the  enzyme  can  not  use  D-­‐
Malate  as  a  substrate  in  the  reverse  reac+on    

  
Step  8:  A  Dehydrogena
...
on  that  will  
Regenerate  Oxaloacetate    
• 

L-­‐Malate  (Malate)  is  dehydrogenated  to  produce  Oxaloacetate  by  the  enzyme  Malate  Dehydrogenase    
 

• 

This  is  a  highly  endergonic  reac9on  and  so  the  equilibrium  strongly  favours  the  reactants  over  the  
products
...
e
...
 
•  Since  every  molecule  of  glucose  produces  2  units  of  
acetyls,  so  1  molecule  of  glucose  will  produce  2  ATP  
molecules,  4  CO2  molecules,  6  NADH  molecules,  and  2  
FADH2  molecules
...
 
•  This  cycle  produces  valuable  intermediate  compounds  
that  can  be  used  to  synthesize  substances  such  as  amino  
acids,  glycerol,  chlorophyll  and  facy  acids

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