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Alcohol Dehydrogenase

PDB ID 1htb

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1htb, resolution 2.40Å ()
Ligands: , , ,
Gene: HUMAN BETA3 CDNA (Homo sapiens)
Activity: Alcohol dehydrogenase, with EC number 1.1.1.1
Resources: FirstGlance, OCA, PDBsum, RCSB
Coordinates: save as pdb, mmCIF, xml



OverviewOverview

Alcohol dehydrogenase (PDB id 1htb), ADH, is an enzyme that catalyzes the 4th step in the metabolism of fructose before glycolysis. In the 4th step, glyceraldehyde is converted to the glycolytic intermediate DHAP by the NADH-dependent reduction to glycerol, which is catalyzed by alcohol dehydrogenase.[1] ADH catalyzes the oxidation of primary and secondary alcohols to their corresponding aldehydes and ketones through a mechanism that involves the removal of hydrogen. The alcohol dehydrogenase reaction is a bisubstrate reaction, where ADH catalyzed the transfer of a hydride ion from ethanol to NAD+. In metabolic reactions within the human liver, glyceraldehyde is reduced to glycerol through a mechanism in which NADH is reduced to NAD+, and this whole process is catalyzed by alcohol dehydrogenase.


StructureStructure

The initial scene () shows an overview of the molecule, allowing for a general look at the tertiary structure of alcohol dehydrogenase (it is complexed with Cl, Pyz, NAD, and Zn). A second scene () shows a close view of the ligand within each subunit. Labels have been placed on NAD, CL, and Zn to clearly establish the structure.


site of alcohol dehydrogenase has three important residues, Phe 93, Leu 57, and Leu 116. These three residues work together to bind the alcohol substrate. .[2]


Zn plays an important role in the catalysis. It funtions by electrostatically stabilizing the oxygen in alcohol during ADH's catalysis, which causes the alcohol to be more acidic. At the , Zinc coordinates with Cys 146, Cys 174, and His 67.[3]


Alcohol dehydrogenase exists as a dimer with a zinc molecule complexed in each of the subunits. It has a SCOP catagory of an alpha and beta protein. It does contain at the N-terminal a domain that is all beta; however, the C-Terminal domain is alpha and beta, so the catagory is alpha and beta. The C-Terminal core has 3 layers of alpha/beta/alpha and parallel beta sheets of 6 strands.[4]


Reaction and MechanismReaction and Mechanism

In the oxidation mechanism, ADH is momentarily associated with nicontinamide adenine dinucleotide (NAD+), which functions as a cosubstrate. In its reaction, alcohol dehydrogenase uses zinc and NAD to facilitate the reaction. The function of zinc is to position the –OH group on the ethanol in a conformation that allows for the oxidation to occur. NAD then acts as a cosubstrate and performs the oxidation.

[5] The of alcohol dehydrogenase reaction is as follows: CH3CH2OH + NAD+ -> CH3COH (acetaldehyde) + NADH + H+ (Note: The reaction is actually reversible although the arrow does not show it) [6] The step-wise reduction mechanism for ADH is shown on the left.


The Mechanism for alcohol dehydrogenase follows an Ordered bisubstrate mechanism.[7] In the mechanism, the NAD+ and alcohol bind to the enzyme, so that the enzyme is now attached to the two subtrates. While attached, the hydrogen is formally transferred from the alcohol to NAD, resulting in the products NADH and a ketone or aldehyde. The two products are then released, and the enzyme has catalyzed the reaction.


KineticsKinetics

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RegulationRegulation

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ReferencesReferences

  1. Voet, et. al. Fundamentals of Biochemistry: 3rd Edition. Hoboken: Wiley & Sons, Inc, 2008.
  2. Protein: Alcohol Dehydrogenase. The College of Saint Benedict and Saint John's University. 1 March 2010 < http://www.users.csbsju.edu/~hjakubow/classes/rasmolchime/99ch331proj/alcoholdehydro/index.htm>
  3. Protein: Alcohol Dehydrogenase. The College of Saint Benedict and Saint John's University. 1 March 2010 < http://www.users.csbsju.edu/~hjakubow/classes/rasmolchime/99ch331proj/alcoholdehydro/index.htm>
  4. Protein: Alcohol dehydrogenase from Human (Homo sapiens), different isozymes. SCOP. 2009. 1 March 2010 < http://scop.berkeley.edu/data/scop.b.d.c.b.b.c.html>
  5. Protein: Alcohol Dehydrogenase. The College of Saint Benedict and Saint John's University. 1 March 2010 < http://www.users.csbsju.edu/~hjakubow/classes/rasmolchime/99ch331proj/alcoholdehydro/index.htm>
  6. Voet, et. al. Fundamentals of Biochemistry: 3rd Edition. Hoboken: Wiley & Sons, Inc, 2008.
  7. Voet, et. al. Fundamentals of Biochemistry: 3rd Edition. Hoboken: Wiley & Sons, Inc, 2008.

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David Birrer
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