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Plant Physiol ; 170(1): 123-35, 2016 Jan.
Article in English | MEDLINE | ID: mdl-26556795

ABSTRACT

A cellulose synthesis complex with a "rosette" shape is responsible for synthesis of cellulose chains and their assembly into microfibrils within the cell walls of land plants and their charophyte algal progenitors. The number of cellulose synthase proteins in this large multisubunit transmembrane protein complex and the number of cellulose chains in a microfibril have been debated for many years. This work reports a low resolution structure of the catalytic domain of CESA1 from Arabidopsis (Arabidopsis thaliana; AtCESA1CatD) determined by small-angle scattering techniques and provides the first experimental evidence for the self-assembly of CESA into a stable trimer in solution. The catalytic domain was overexpressed in Escherichia coli, and using a two-step procedure, it was possible to isolate monomeric and trimeric forms of AtCESA1CatD. The conformation of monomeric and trimeric AtCESA1CatD proteins were studied using small-angle neutron scattering and small-angle x-ray scattering. A series of AtCESA1CatD trimer computational models were compared with the small-angle x-ray scattering trimer profile to explore the possible arrangement of the monomers in the trimers. Several candidate trimers were identified with monomers oriented such that the newly synthesized cellulose chains project toward the cell membrane. In these models, the class-specific region is found at the periphery of the complex, and the plant-conserved region forms the base of the trimer. This study strongly supports the "hexamer of trimers" model for the rosette cellulose synthesis complex that synthesizes an 18-chain cellulose microfibril as its fundamental product.


Subject(s)
Arabidopsis Proteins/chemistry , Arabidopsis Proteins/metabolism , Arabidopsis/metabolism , Cellulose/biosynthesis , Glucosyltransferases/chemistry , Glucosyltransferases/metabolism , Arabidopsis/genetics , Arabidopsis Proteins/genetics , Catalytic Domain , Cellulose/metabolism , Escherichia coli/genetics , Glucosyltransferases/genetics , Microscopy, Electron, Transmission , Models, Molecular , Multiprotein Complexes/genetics , Multiprotein Complexes/metabolism , Protein Multimerization , Protein Structure, Secondary , Recombinant Proteins/genetics , Recombinant Proteins/isolation & purification , Scattering, Small Angle , X-Ray Diffraction
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