Enzyme selectivity as a tool in analytical chemistry

Hamberg, Anders

January 2007

<p>Enzymes are useful tools as specific analytical reagents. Two different analysis methods were developed for use in the separate fields of protein science and organic synthesis. Both methods rely on the substrate specificity of enzymes. Enzyme catalysis and substrate specificity is described and put in context with each of the two developed methods.</p><p>In <strong>paper I </strong>a method for C-terminal peptide sequencing was developed based on conventional Carboxypeptidase Y digestion combined with matrix assisted laser desorption/ionization mass spectrometry. An alternative nucleophile was used to obtain a stable peptide ladder and improve sequence coverage.</p><p>In paper<strong> II </strong>and <strong>III</strong>, three different enzymes were used for rapid analysis of enantiomeric excess and conversion of O-acylated cyanohydrins synthesized by a defined protocol. Horse liver alcohol dehydrogenase,<em> Candida antarctica</em> lipase<strong> </strong>B<strong> </strong>and pig liver esterase were sequentially added to a solution containing the O-acylated cyanohydrin. Each enzyme caused a drop in absorbance from oxidation of NADH to NAD⁺. The conversion and enantiomeric excess of the sample could be calculated from the relative differences in absorbance.</p>

substrate specificity

competing substrates

enantiomeric excess analysis

library screening

ladder sequencing

carboxypeptidase Y

2-pyridylmethylamine

MALDI

Candia antarctica lipase B

pig liver esterase

horse liver alcohol dehydrogenase

acylated cyanohydrins

Biochemistry

Biokemi

Enzyme selectivity as a tool in analytical chemistry

Hamberg, Anders

January 2007

Enzymes are useful tools as specific analytical reagents. Two different analysis methods were developed for use in the separate fields of protein science and organic synthesis. Both methods rely on the substrate specificity of enzymes. Enzyme catalysis and substrate specificity is described and put in context with each of the two developed methods. In paper I a method for C-terminal peptide sequencing was developed based on conventional Carboxypeptidase Y digestion combined with matrix assisted laser desorption/ionization mass spectrometry. An alternative nucleophile was used to obtain a stable peptide ladder and improve sequence coverage. In paper II and III, three different enzymes were used for rapid analysis of enantiomeric excess and conversion of O-acylated cyanohydrins synthesized by a defined protocol. Horse liver alcohol dehydrogenase, Candida antarctica lipase B and pig liver esterase were sequentially added to a solution containing the O-acylated cyanohydrin. Each enzyme caused a drop in absorbance from oxidation of NADH to NAD+. The conversion and enantiomeric excess of the sample could be calculated from the relative differences in absorbance. / QC 20101108

substrate specificity

competing substrates

enantiomeric excess analysis

library screening

ladder sequencing

carboxypeptidase Y

2-pyridylmethylamine

MALDI

Candia antarctica lipase B

pig liver esterase

horse liver alcohol dehydrogenase

acylated cyanohydrins

Biochemistry and Molecular Biology

Biokemi och molekylärbiologi