A primary amine, ethylamine, was isolated, purified and identified by 1H-NMR from perchloric acid-extracts of maize embryogenic callus, where it occurred in high amount (2 mmol:g fresh weight, an amount ten-fold higher than that of other well-known amines such as polyamines) while only a faint trace was found in maize plant organs. Ethylamine amount was measured in different phases of callus proliferation and differentiation (somatic embryogenesis). Results indicated that ethylamine mostly accumulates in the proliferation phase. It decreased to very low concentration in cells that have acquired a new competence for differentiation or are already differentiated, except for in the developing somatic embryo phase. Undifferentiated callus appears to be an ethylamine hyper-accumulator.
Ethylamine in maize callus: isolation, identification and first approach to the physiological role of its hyperproduction
Zacchini M;
2000
Abstract
A primary amine, ethylamine, was isolated, purified and identified by 1H-NMR from perchloric acid-extracts of maize embryogenic callus, where it occurred in high amount (2 mmol:g fresh weight, an amount ten-fold higher than that of other well-known amines such as polyamines) while only a faint trace was found in maize plant organs. Ethylamine amount was measured in different phases of callus proliferation and differentiation (somatic embryogenesis). Results indicated that ethylamine mostly accumulates in the proliferation phase. It decreased to very low concentration in cells that have acquired a new competence for differentiation or are already differentiated, except for in the developing somatic embryo phase. Undifferentiated callus appears to be an ethylamine hyper-accumulator.I documenti in IRIS sono protetti da copyright e tutti i diritti sono riservati, salvo diversa indicazione.
