13C labeled benzo[a]pyrenes and derivatives 3. Benzo[a]pyrene-4,5-oxide-4-13C and benzo[a]pyrene-4,5-oxide-5-13C

## Abstract The synthesis of benzo[a]pyrene‐6‐^13^C is described. Perinaphthane was converted to 6‐benzoyl‐carbonyl‐^13^C‐perinaphthane which was cyclized to 2,3‐dihydrobenzo[a]pyren‐6(1H)‐one‐6‐^13^C. Subsequent reduction of the ketone followed by dehydration and dehydrogenation gave benzo[a]pyren

A t e n step synthesls o f b e n ~o [ a ] p y r e n e -l -~3 C , -2-l3C, o r 3-13C from 2,3,7, llb-tetrahydrobenr[d,e]anthracen-3(1H)-one t s descrlbed t n whtch t h e l n l t l a l step I n v o l v e s t h e condensatlon o f t h l s ketone w l t h t h e l l t h l u m enolate o f e t h y l acetate.

## Abstract Bronchial epithelial cells are often exposed to airborne mutagens that have the potential to induce genetic changes involved in the development of lung cancer. Although lung tumors often display alterations in the expression of oncogenes and/or tumor suppressor genes, the role of specif

Aniline (IV), specifically 13C labeled in the 4-or in the 3,5-position (IVa and IVb), has been synthesized with 55% yield from I3C labeled pnitrophenol (11). The reduction of the NO2 group and the removal of the OH group was performed in one step by reduction and hydrogenolytic cleavage o f p-nitrop

## Abstract The synthesis of [1,3,5‐^13^C~3~]‐ and [2,4,6,7‐^13^C~4~]benzoic acid (5a and 5b) from [2‐^13^C]‐ and [3‐^13^C]sodium pyruvate (1a and 1b), for __in vitro__ and __in vivo__ tracer studies using ^13^C nuclear magnetic resonance (NMR) spectroscopy, is reported. After condensation of 1 to