Abstract

The rhizobial nodulation gene nodC encodes an N-acetylglucosaminyltransferase that is responsible for the synthesis of chitin oligosaccharides. These oligosaccharides are precursors for the synthesis of the lipo-chitin oligosaccharides that induce cell division and differentiation during the development of nitrogen-fixing root nodules in leguminous plants. The NodC proteins of Mesorhizobium loti and Sinorizobium meliloti yield chitinpentaose and chitintetraose as their main products, respectively. In order to localize regions in these enzymes that are responsible for this difference in product chain length, a set of six chimeric enzymes, comprising different combinations of regions of the NodC proteins from these two bacteria, was expressed in Escherichia coli. The oligosaccharides produced were analyzed using thin-layer chromatography. The major conclusion from this work is that a central 91-amino acid segment does not play any obvious role in determining the difference in the chain length of the major product. Furthermore, the characteristically predominant synthesis of chitintetraose by S. meliloti NodC is mainly dependent on a C-terminal region of maximally 164 amino acids; exchange of only this C-terminal region is sufficient to completely convert the M. loti chitinpentaose synthase into an S. meliloti-like chitintetraose synthase. The N-terminal region of 170 amino acids also plays a role in restricting the length of the major product to a tetramer. However, the role of the C-terminal region is clearly dominant, since exchanging the N-terminal region has no effect on the relative amounts of chitintetraose and -pentaose produced when the C-terminal region of S. meliloti NodC is present. The length of a predicted beta-strand around residue 300 in the C-terminal region of various NodC proteins is the only structural element that seems to be related to the length of the chitin oligosaccharides produced by these enzymes; the higher the amount of chitintetraose relative to chitinpentaose, the shorter the predicted beta-strand. This element may therefore be important for the effect of the C-terminal 164 amino acids on chitin oligosaccharide chain length.

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