A. A. Baitov scite author profile

The feasibility of the labeling procedure involving thermal activation (TA) of tritium was examined with the substrates that are commonly labeled by solid-phase catalytic hydrogenation (SCH) with tritium. Comparative characteristics of SCH and TA as procedures for tritium labeling of sugars and diazines were obtained. These two methods ensure comparable rates of tritium incorporation into purine and pyrimidine bases. The SCH allows preparation of tritium-labeled compounds with the maximum possible molar radioactivity. The molar radioactivity of the same compounds labeled using TA did not exceed 37 TBq mol !1 , because only a small fraction of the substrate could react with atomic tritium. Longer reaction times and increased amounts of tritium taken into the reaction resulted in stronger degradation of the substrates. On the assumption that the reactive tritium atoms penetrate into the target to a depth of 0.5 nm, the actual specific radioactivity of the labeled compound in the zone accessible for atomic tritium reaches 0.232 PBq mol !1 . Ways are suggested to increase the molar radioactivity of compounds labeled using thermal activation of tritium.

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Solid-phase catalytic reactions of tritium with carbohydrates: 3. Mechanism of isomerization of epimeric pentoses in the course of solid-phase catalytic hydrogenation with tritium

Baitov

Sidorov

Myasoedov

2007

Radiochemistry

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Solid-phase catalytic reactions of tritium with carbohydrates: 2. Influence of the support surface area on the solid-phase catalytic hydrogenation of biologically active compounds with tritium

2007

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Study of the reactions of carbohydrates with tritium under solid‐state catalytic hydrogenation condition

Baitov

Sidorov

Myasoedov

2007

Labelled Comp Radiopharmac

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A. A. Baitov

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A Comparative Study of the Reactions of Thermally Activated Tritium with Sugars and Diazines and of Solid-Phase Catalytic Hydrogenation of These Compounds with Tritium

Solid-phase catalytic reactions of tritium with carbohydrates: 3. Mechanism of isomerization of epimeric pentoses in the course of solid-phase catalytic hydrogenation with tritium

Solid-phase catalytic reactions of tritium with carbohydrates: 2. Influence of the support surface area on the solid-phase catalytic hydrogenation of biologically active compounds with tritium

Study of the reactions of carbohydrates with tritium under solid‐state catalytic hydrogenation condition

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