The enzymatic conversion of cis-(14C)phytofluene, trans-(14C)phytofluene, and trans-zeta-(14C)carotene to more unsaturated acyclic, monocyclic, and dicyclic carotenes by a cell-free preparation of red tomato fruits

This paper reports the conversion of cis-¹⁴C]phytofluene to trans-¹⁴C|phytofluene and the conversion of the latter compound to trans-ζ-¹⁴C]carotene by a soluble enzyme system obtained from the plastids of red tomato fruits. Each of these radioactive compounds was also converted to labeled neurosporene, lycopenc, α-carotene, and β-carotene by the same enzyme system. The incorporation of each substrate into more unsaturated carotenes was carried out under nitrogen at pH 7.5–8.2 (borate buffer), at 25 °C in the dark.Proof of the formation of the above carotenes from each of the three radioactive substrates was demonstrated by cochromatography with authentic nonradioactive carotenes on an alumina chromatographic column. A close correspondence between radioactivity and light absorbance for each carotene was observed. Confirmation of these conversions was achieved by cochromatography with authentic samples on thinlayer plates. Final proof for the formation of the acyclic and cyclic carotenes from the above radioactive substrates was obtained by gas-liquid chromatography of the hydrogenated products. Coincidence between mass and radioactivity was observed.Maximum conversion of cis- and trans-phytofluenes to more unsaturated carotenes by the red tomato fruit enzyme system appears to be dependent upon the presence of NADP⁺, FAD, and Tween 80. The formation of the carotenes is also increased in the presence of Mg²⁺ or Mn²⁺ ions.