Below is an extract which describes the mechanism of action of aldolase during the cleavage of fructose 1, 6-bisphosphate to produce dihydroxyacetone phosphate (DHAP) and glyceraldehyde 3-phosphate (GAP). 

Fill in the missing words to complete the extract.

Listed here is the pool of words to select from: abstracts, acidic, amine, covalent, hydroxyl, lysine, nitrogen, Schiff base, tetrahedral, water. 

Ring opening of F1,6BP occurs to render a linear sugar bisphosphate molecule.
A __________ residue attacks the carbonyl carbon of F1,6BP.

As the carbonyl Oxygen gets a negative charge, a proton is abstracted from the active site _________ amino acid.

A _________ intermediate is produced.

The active site basic amino acid residue _________  a proton from the lysine.

A carbon- __________ double bond forms, producing a protonated Schiff base.

At the same time, a solvent proton combines with the released hydroxyl group from C2 to form ________ and leaves the active site.

The second active site basic amino acid residue abstracts a proton from the _________ group on C4 to form a carbonyl, breaking the bond between C3-C4.

At the same time, electrons from the ________  double bond relocate to Lys and GAP is formed and released from the active site.

A ________ enzyme-enamine intermediate remains and then goes through isomerization, amine reforms and a proton is added to C3, producing another protonated Schiff base.

A water molecule hydrolyzes the _________ , producing DHAP, and active site proton exchange with the solution restores the active site.