Abstract
The synthesis and translocation of the diamine cadaverine during soybean (Glycine max L. Meer cv. Sakai) germination were studied using 15N-labelled lysine (the cadaverine precursor) and 15N-labelled cadaverine, both under light/dark (12 h/12 h) and total dark germinating conditions. 15N-cadaverine and non-labelled polyamines were simultaneously detected using ionspray ionization-mass spectrometry. Both 15N-cadaverine and 15N-lysine were taken up by soybean. 15N-lysine was transported to the shoot and root and converted into 15N-cadaverine, whereas relatively little 15N-cadaverine was formed from 15N-lysine in the cotyledon. The acropetal translocation of 15N-cadaverine from the cotyledon to the shoot seemed to predominate over basipetal transport to the root. Although no other 15N-derivatised polyamines were found, supplying exogenous 15N-lysine seemed to indirectly affect the metabolism of 14N putrescine, spermidine and spermine, while no significant effect was detected after supplying 15N-cadaverine.
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