Solid-Phase Method for Tritium Labeling of Biologically Active Compounds

## Abstract The solid‐phase method for hydrogenolysis, hydrogenation and isotope exchange reactions is described. Its potential for tritium labelling of organic compounds including lipids, nucleotides, amino acids, peptides and pharmaceuticals is demonstrated. The influence of the reaction conditio

## Abstract Modern theories about the processes that take place inside solvent‐free catalyst systems are considered and the various factors that have an effect on the successful introduction of tritium into organic compounds are summarized. Obtaining labelled compounds using solvent‐free catalyst s

nent polyanionic structural component of plant cell Oligogalacturonides (oligomers of a-1,4-D-galacturo-walls (8). Homogalacturonan is cleaved by plant and nic acid) with degrees of polymerization (DP) between microbial enzymes such as a-1,4-endopolygalacturo-8 and 16 were labeled with biotin using

## Abstract Tritiated hydrocarbons may be prepared by Kolbe electrolysis of carboxylic acids which have been labelled by catalytic exchange in tritiated water.