Synthesis of trans-[11-3H]-retinoic acid and its 5,6-epoxide

## Abstract __Trans__‐ionylidineacetaldehyde‐1‐^3^H (**3**) was obtained by reduction of unlabeled aldehyde (**1**) with lithium borotritide, followed by reoxidation of the tritio alcohol (**2**). Condensation of aldehyde (**3**) with triethyl 3‐methyl‐4‐phosphonocrotonate (**7**), followed by sapo

## SYNTHESIS OF 13-e-(ll-3H)-RETINOIC ACID The b i o l o g i c a l a c t i v i t y of 1 3 -e -r e t i n o i c a c i d i n p r e v e n t i o n of e p i t h e l i a l cancer i n animals h a s r e c e n t l y been demonstrated [l]. I n c o n n e c t i o n w i t h a m e t a b o l i c s t u d i e s pro

## Abstract Trans‐[13,14‐^14^C~2~]‐Retinoic acid has been synthesized by condensation of β‐ionylideneacetaldehyde and ^14^C‐labeled methyl senecioate in the presence of potassium amide in ether. A convenient synthesis of the key intermediate, methyl (diethoxyphosphinyl)‐[2‐^14^C]acetate, is also de

Starting with tritiated all-trans-retinyl acetate the preparation of tritiated retinol is described.

## Abstract [1′,3′,4′‐^3^H~3~]4‐(5′,6′,7′,8′‐Tetrahydro‐5′,5′,8′,8′‐tetramethyl‐2′‐anthracenyl)benzoic acid (specific activity 64 Ci/mmole) was synthesized by bromination of ethyl 4‐(5′,6′,7′,8′‐tetrahydro‐5′,5′,8′,8′‐tetramethyl‐2′‐antracenyl)benzoate, followed by reductive debromination by tritiu