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Hoffmann, R. A wiki for the life sciences where authorship matters. Nature Genetics (2008)

The C-terminal domain of the Rhizobium leguminosarum chitin synthase NodC is important for function and determines the orientation of the N-terminal region in the inner membrane.

The nodC genes from rhizobia encode an N-acetylglucosaminyl transferase (chitin synthase) involved in the formation of lipo-chito-oligosaccharide Nod factors that initiate root nodule morphogenesis in legume plants. NodC proteins have two hydrophobic domains, one of about 21 residues at the N-terminus and a longer one, which could consist of two or three transmembrane spans, near the C-terminus. These two hydrophobic domains flank a large hydrophilic region that shows extensive homology with other beta -glycosyl transferases. The topology NodC in the inner membrane of Rhizobium leguminosarum biovar viciae was analysed using a series of gene fusions encoding proteins in which NodC was fused to alkaline phosphatase (PhoA) lacking an N-terminal transit sequence or to beta-galactosidase (LacZ). Our data support a model in which the N-terminal hydrophobic domain spans the membrane in a Nout-Cin orientation, with the adjacent large hydrophilic domain being exposed to the cytoplasm. This orientation appears to depend upon the presence of the hydrophobic region near the C-terminus. We propose that this hydrophobic region contains three transmembrane spans, such that the C-terminus of NodC is located in the periplasm. A short region of about 40 amino acids, encompassing the last transmembrane span, is essential for the function of NodC. Our model for NodC topology suggests that most of NodC, including the region showing most similarity to other beta-glycosyl transferases, is exposed to the cytoplasm, where it is likely that polymerization of N-acetyl glucoasamine occurs. Such a model is incompatible with previous reports suggesting that NodC spans both inner and other membranes.[1]


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