Metabolism of gibberellin A29 in seeds of Pisum sativum cv. Progress No. 9; Use of [2H] and [3H]GAs,and the identification of a new GA catabolite

The metabolism of GA₂₉ in maturing seeds of Pisum sativum cv. Progress No. 9 was further investigated, and the utility of ²H-labelled GAs in conjuction with GC-MS is illustrated. Using [2-²H₁]GA₂₉ as an internal standard, endogenous GA₂₉ was shown to reach a maximal level (ca. 10 g/seed) 27 days from anthesis, and to decline to ca. 1.6 g/seed in mature seeds. In a time-course feed the metabolism of [2-²H₁] [2-³H₁]GA₂₉ applied to 27 day old seeds, and of endogenous GA₂₉, was compared from the ¹H:²H ratios in the recovered GA₂₉. Although both [2-²H₁] [2-³H₁]GA₂₉ and endogenous GA₂₉ were metabolised to the same limited extent to a putative conjugate, in the main metabolic process endogenous GA₂₉ was preferentially converted to an untraceable (i.e. unlabelled) metabolite. In contrast, endogenous GA₂₉ and [1,3-²H₂] [1,3-³H₂]GA₂₉, derived from [1,3-²H₂] [1,3-³H₂]GA₂₀ in a time-course feed, were metabolised in an identical manner. In the latter case isotope loss precluded identification of the metabolite. The structure (8) has been assigned to a GA catabolite present in maturing seeds and seedlings of pea. The isotope data are consistent with this compound being the hitherto untraced metabolite of GA₂₉ in pea.Abbreviations GA_n gibberellin A_n - GC gas chromatography - GC-MS combined gas chromatography-mass spectrometry - GC-RC combined gas chromatography-radio counting - M⁺ molecular ion - Me methyl ester - R_T retention time - SICM selected ion current monitoring - TLC thin layer chromatography - TMS trimethylsilyl ether