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Protein-protein interactions among xyloglucan-synthesizing enzymes and formation of Golgi-localized multiprotein complexes.

Plant Cell Physiol.2015 Feb;56(2):255-67. Epub 2014 Nov 11
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摘要


Arabidopsis thaliana xyloglucan has an XXXG structure, with branches of xylosyl residues, β-D-galacosyl-(1,2)-α-d-xylosyl motifs and fucosylated β-D-galactosyl-(1,2)-α-D-xylosyl motifs. Most of the enzymes involved in xyloglucan biosynthesis in Arabidopsis have been identified, including the glucan synthase CSLC4 (cellulose synthase-like C4), three xylosyltransferases (XXT1, XXT2 and XXT5), two galactosyltransferases (MUR3 and XLT2) and the fucosyltransferase FUT1. The XXTs and CSLC4 form homo- and heterocomplexes and were proposed to co-localize in the same complex, but the organization of the other xyloglucan-synthesizing enzymes remains unclear. Here we investigate whether the glycosyltransferases MUR3, XLT2 and FUT1 interact with the XXT-CSLC4 complexes in the Arabidopsis Golgi. We used co-immunoprecipitation and bimolecular fluorescence complementation, with signal quantification by flow cytometry, to demonstrate that CSLC4 interacts with MUR3, XLT2 and FUT1. FUT1 forms homocomplexes and interacts with MUR3, XLT2, XXT2 and XXT5. XLT2 interacts with XXT2 and XXT5, but MUR3 does not. Co-immunoprecipitation assays showed that FUT1 forms a homocomplex through disulfide bonds, and formation of the heterocomplexes does not involve covalent interactions. In vitro pull-down assays indicated that interactions in the FUT1-MUR3 and FUT1-XXT2 complexes occur through the protein catalytic domains. We propose that enzymes involved in xyloglucan biosynthesis are functionally organized in multiprotein complexes localized in the Golgi.

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