Preparation OF [7, 8, 19, 20 - 3H] Naloxone of high specific activity

The preparation of the 61-specific ligand 7-benzylidenenaltrexone (BNTX), labeled with tritium at high specific activity (14.4 Ciimmol) was prepared in 33% yield and >98% purity by the aldol condensation of high specific activity [15,1 6-3H]naltrexone with benzaldehyde at high dilution.

## Abstract Mercury(II) oxide oxidation of naltrexone (1a) and naloxone (1b) gave 15,16‐didehydronaltrexone (4a) and 15,16 didehydronaloxone (4b). Subsequent reduction of 4a with tritium gas afforded naltrexone‐15,16‐^3^H~2~ having a‐specific activity of 15.3 Ci/mmole. Subsequent equilibration of 4

Isotopic exchange of hydrogen in a system of s~lvent-water-~H was used to prepare 5-Juoroorotic a ~i d -~H ( G ) which was decarboxylated and the hydrogen-3H removed from labile bonds to yield 5'-Juorouracil-6-3H. It was found in tracer experiments that a suitable solvent for the isotopic exchange o

High-specific-activity D-[3-3H]pantothenic acid (5 Ci/mmol) was prepared from commercially available beta-[3-3H]alanine employing Escherichia coli strain DV1 (panD2 pan F1). This strain is defective in beta-alanine synthesis and pantothenate uptake, and under appropriate growth conditions converted

## Abstract Biosynthesis of [7‐^3^H]16α‐hydroxy‐dehydroepiandrosterone in high specific activity has been studied. [7‐^3^H] dehydroepiandrosterone (13.9 C/mM) in trace quantity was oxidized by __Streptomyces roseochromogenes__ (NRRLB‐1233) for 5 min at 27 °C. The radioactive products were chromatog

## Abstract Lithium borotritide reduction of α‐ionylidene‐acetaldehyde (5) followed by manganese dioxide oxidation provided the tritiated aldehyde (9) which retainad over 95% of the label. On treatment with the ylide derived from ethyl 4‐chloro‐3‐methylcrotonate, ethyl α‐retinoate‐11‐^3^H (14) was