Abstract
The pyridoxal phosphate-dependent enzyme 1-aminocyclopropane-1-carboxylate synthase (ACS, EC 4.4.1.14) catalyzes the rate-limiting step in the ethylene biosynthetic pathway. ACS shares the conservation of 11 invariant residues with a family of aminotransferases that includes aspartate aminotransferase. Site-directed mutagenesis on two of these residues, Tyr-92 and Lys-278, in the tomato isoenzyme Le-ACS2 greatly reduces enzymatic activity, indicating their importance in catalysis. These mutants have been used in complementation experiments either in vivo in Escherichia coli or in an in vitro transcription/translation assay to study whether the enzyme functions as a dimer. When the Y92L mutant is coexpressed with the K278A mutant protein, there is partial restoration of enzyme activity, suggesting that the mutant proteins can dimerize and form active heterodimers. Coexpressing a double mutant with the wild-type protein reduces wild-type activity, indicating that inactive heterodimers are formed between the wild-type and the double mutant protein subunits. Furthermore, hybrid complementation shows that another tomato isoenzyme, Le-ACS4, can dimerize and that Le-ACS2 and Le-ACS4 have limited capacity for heterodimerization. The data suggest that ACS functions as a dimer with shared active sites.
Highlights
Have the highest similarity to a sub-group of aminotransferases that includes alanine, tyrosine, histidinol phosphate, phenylalanine, and aspartate (AspAT) aminotransferases and share all the 11 invariant residues in this subgroup including four conserved residues (Gly-197, Asp-222, Lys-258, Arg-386) present in all aminotransferases (Ref. 6, see Fig. 1I)
In this paper we report a series of experiments designed to probe the nature and organization of the active site(s) of the tomato ACS isoenzymes Le-ACS2 and Le-ACS4
The three-dimensional structure of ACS remains unresolved, critical active-site residues have been inferred based on sequence similarity with aminotransferases and functional analysis of mutant proteins
Summary
Restriction and DNA modifying enzymes were obtained from New England Biolabs and Boehringer Mannheim. Radionucleotides were obtained from Amersham Pharmacia Biotech. Acrylamide and SDSPAGE gel reagents were from ICN and Bio-Rad. All other chemicals were at least reagent grade and obtained from Sigma
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