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• W1716993707 abstract "The C-5 of 5-aminolaevulinate, a tetrapyrrole precursor which accumulates when inhibitory laevulinate is present, is derived from either the C-2 of glycine by the 5-aminolaevulinate-synthase-mediated Shemin pathway or the C-1 of 2-oxoglutarate by the C5 pathway. Thin-layer-radiochromatographic procedures are described for determining whether [2-14C]glycine or 2-[1-14C]oxoglutarate labelled the macrocycle of bacteriochlorophyll a, in addition to or rather than the methyl ester or phytyl ester moieties of the side-chains. The method was also used for detecting whether the same substrates label the formaldehyde (C-5) or the succinate (C-1 to C-4) fragments, obtained by periodate cleavage of 5-aminolaevulinate. These methods therefore can readily distinguish between the Shemin and C5 pathways as was demonstrated by using Rhodopseudomonas spheroides and Zea mays (maize), respectively, as examples of each pathway. Both [2-14C]glycine and, to a lesser extent 2-[1-14C]oxoglutarate labelled the macrocycle of bacteriochlorophyll a formed during adaptation of respiring R. spheroides cells to photosynthetic (anaerobic, illuminated) conditions. This and earlier evidence suggested augmentation of the Shemin pathway by a minor C5 pathway contribution. The present studies revealed only Shemin pathway activity: with laevulinate present, [2-14C]glycine formed 5-[5-14C]aminolaevulinate as proved by H14CHO production during periodate cleavage. These methods were sufficiently sensitive also to detect the incorporation of 14CO2, from degradation of either substrate, into 5-aminolaevulinate via the Shemin pathway thus labelling the succinate fragment produced with periodate: this explains bacteriochlorophyll a labelling by 2-[1-14C]oxoglutarate and proves double labelling of 5-aminolaevulinate by [2-14C]glycine. The same techniques were applied to etiolated maize leaves exposed to aerobic illuminated conditions with laevulinate and either 2-[1-14C]oxoglutarate or [2-14C]glycine as substrates. Only the C5 pathway was detected: 2-[1-14C]oxoglutarate was converted to 5-[5-14C]aminolaevulinate, which yielded H14CHO on periodate cleavage. This is not inconsistent with our earlier 13C-NMR studies [Porra, R. J., Klein, O. and Wright, P. E. (1983) Eur. J. Biochem. 130, 509–516] showing that the C5 pathway formed all the 5-aminolaevulinate for chlorophyll biosynthesis. No conversion of [2-14C]glycine to 5-[5-14C]aminolaevulinate could be detected; thus, if 5-aminolaevulinate synthase occurs in plant leaf mitochondria for mitochondrial haem formation it does so in quantities too small to be detected by these methods, or the expression of the gene for this Shemin pathway enzyme may be repressed in greening maize leaves. Absorption coefficients of the methanolysis products of bacteriophaeophytin a and of phaeophytins a and b are given for solutions in diethyl ether." @default.
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• W1716993707 date "1986-04-01" @default.
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• W1716993707 title "Labelling of chlorophylls and precursors by [2-14C]glycine and 2-[1-14C]oxoglutarate in Rhodopseudomonas spheroides and Zea mays. Resolution of the C5 and Shemin pathways of 5-aminolaevulinate biosynthesis by thin-layer radiochromatography" @default.
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• W1716993707 doi "https://doi.org/10.1111/j.1432-1033.1986.tb09555.x" @default.
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