Analysis of plant secondary metabolism using stable isotope‐labelled precursors

Abstract: Introduction Analysis of biochemical pathways typically involves feeding a labelled precursor to an organism, and then monitoring the metabolic fate of the label. Initial studies used radioisotopes as a label and then monitored radioactivity in the metabolic products. As analytical equipment improved and became more widely available, preference shifted the use stable ‘heavy’ isotopes like deuterium (2H)‐, carbon‐13 (13C)‐ and nitrogen‐15 (15N)‐atoms as labels. Incorporation of the labels could be monitored by … Show more

“…[77][78][79][80] The D-label provides additional information on the internal structure of molecules, 81,82 reaction mechanisms 83,84 and metabolic products. 85,86 If deuterium oxide is used for carbide hydrolysis, deuterated acetylene is released, which can be involved in many reactions transferring the two D-atoms incorporated into the acetylenic fragment (DCuCD). 87 After carbide hydrolysis with D 2 O, D-labeled Ca(OD) 2 is formed losing two valuable D-atoms (50%).…”

Calcium carbide residue – a promising hidden source of hydrogen

“…[77][78][79][80] The D-label provides additional information on the internal structure of molecules, 81,82 reaction mechanisms 83,84 and metabolic products. 85,86 If deuterium oxide is used for carbide hydrolysis, deuterated acetylene is released, which can be involved in many reactions transferring the two D-atoms incorporated into the acetylenic fragment (DCuCD). 87 After carbide hydrolysis with D 2 O, D-labeled Ca(OD) 2 is formed losing two valuable D-atoms (50%).…”

Calcium carbide residue – a promising hidden source of hydrogen

Sample Preparation for Forest Tree Metabolomics

[¹³C+D] Double Labeling with Calcium Carbide: Incorporation of Two Labels in One Step