Abstract: | Excised castor bean endosperm halves incubated with CDP-[Me-14C]cholineactively incorporated this compound into membrane phosphatidylcholine.The capacity of the tissue to synthesize phosphatidyl-[14C]cholineincreased during the first 3 d of germination and subsequentlydeclined. At the onset of germination phosphatidyl-[l4C]cholinewas exclusively recovered in the ER membrane fraction. The rateof incorporation into the ER membranes increased strikinglyduring the first 24 h of germination while that into mitochondriaand glyoxysomes remained low. At later developmental stagesan increasing proportion of the newly synthesized phosphatidyl-[14C]cholinewas present in mitochondria and glyoxysomes; the rate of incorporationinto the membranes of these organelles increased while thatinto the ER membrane began to level off. The kinetics of CDP-[14C]cholineincorporation into membrane phosphatidylcholine of the majororganelle fractions of 3-d-old endosperm tissue showed thatthe ER was immediately labelled, whereas a lag period precededthe labelling of mitochondria and glyoxysomes. Assuming that the incorporation of CDP-[14C]choline into phosphatidylcholineserves as a reliable indicator of membrane synthesis, the resultsobtained suggest that a proliferation of ER membranes precedesthe formation of glyoxysomes and mitochondria in germinatingcastor bean endosperm. A comparison of developmental changesin (a) total ER and glyoxysomal phospholipid content and (b)ER and mitochondrial NADH cytochrome c reductase activity providedadditional evidence supporting this conclusion. |