Plant aminopropyltransferases consist of a group of enzymes that transfer aminopropyl groups derived from decarboxylated S-adenosyl-methionine (dcAdoMet or dcSAM) to propylamine acceptors to produce polyamines, ubiquitous metabolites with positive charge at physiological pH. Spermidine synthase (SPDS) uses putrescine as amino acceptor to form spermidine, whereas spermine synthase (SPMS) and thermospermine synthase (TSPMS) use spermidine as acceptor to synthesize the isomers spermine and thermospermine respectively. In previous work it was shown that both SPDS1 and SPDS2 can physically interact with SPMS although no data concerning the subcellular localization was reported. Here we study the subcellular localization of these enzymes and their protein dimer complexes with gateway-based Bimolecular Fluorescence Complementation (BiFC) binary vectors. In addition, we have characterized the molecular weight of the enzyme complexes by gel filtration chromatography with in vitro assembled recombinant enzymes and with endogenous plant protein extracts. Our data suggest that aminopropyltransferases display a dual subcellular localization both in the cytosol and nuclear enriched fractions, and they assemble preferably as dimers. The BiFC transient expression data suggest that aminopropyltransferase heterodimer complexes take place preferentially inside the nucleus.
Non-histone chromosomal proteins (NHP) were isolated from different stages of Nicotiana tabacum L. pith dedifferentiation to callus and callus redifferentiation. The NHP were separated by sodium dodecylsulfate-polyacrylamide gel electrophoresis on slab gels and analyzed by densitometry. Simultaneous histological changes are reported. In both processes, some high molecular weight protein (HMWP) bands increase drastically in an induction period, previous to cell proliferation, and decrease when cell division declines. Some low molecular weight protein bands, intense in pith tissue, decrease early when callus is forming and increase when cells differentiate. chromatin template activity is high when cells proliferate, coinciding with maximum HMWP-bands intensity.
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