W3: Isomerization

von Janina S.

Explain the two possible chemical routes for isomerization between aldoses and ketoses! Name one example each for an aldose-ketose isomerase using this mechanism! Name experimental strategies to distinguish between the two alternative mechanisms for a given isomerase! Which enzymatic reaction steps are particularly difficult to catalyze?

Enolization: phosphoglucose isomerase, triosephosphate isomerase

in tritium exchange experiments, T+ concentrations in the medium increase

Hydride shift: xylose isomerase

in tritium exchange experiments, T+ is not present in the medium

Difficult to catalyze in enolization: abstraction of H+ by glutamate (unlikely; has a much lower pKa than C-H)

Name three different enzymatic reaction mechanisms used by racemases! Name one example each and name commonalities and differences between the three mechanisms?

PLP-dependent racemases: alanine racemase

conversion of L-/D-amino acids

requires organic cofactor
forms Schiff-base

Two-base iso-mechanism: Proline racemase

conversion of D-/L-proline

quite similar to mandalate racemase but without metal ion

Metal-catalized enolization and two-base iso-mechanism: mandalate racemase

contains Mg2+ to lower the pKa of the mandalate alpha-atom
active site has lysine and histidine residues, one of which is always protonated to neutralize CO2-
assumption: Glu forms LBHB with mandalate to stabilize the enolate

Commonalities:

all catalize racemization reactions, most of amino acids
mandelate racemase and PLP work by stabilizing the negatively charged intermediate, but in different ways (mesomery vs. metal)
mandelate-DH and proline DH both use two-base iso-mechanism

Radical isomerases: Name the two radical initiators cofactors including the mechanism of radical formation! Name one enzyme for each cofactor!

General reaction: