Cellulose, the most
abundant biopolymer, is a central source for
renewable energy and functionalized materials.
In vitro
synthesis of cellulose microfibrils (CMFs) has become possible using
purified cellulose synthase (CESA) isoforms from
Physcomitrium
patens
and hybrid aspen. The exact nature of these
in vitro
fibrils remains unknown. Here, we characterize
in vitro
-synthesized fibers made by CESAs present in membrane
fractions of
P. patens
over-expressing
CESA5 by cryo-electron tomography and dynamic nuclear polarization
(DNP) solid-state NMR. DNP enabled measuring two-dimensional
13
C–
13
C correlation spectra without isotope-labeling
of the fibers. Results show structural similarity between
in vitro
fibrils and native CMF in plant cell walls. Intensity
quantifications agree with the 18-chain structural model for plant
CMF and indicate limited fibrillar bundling. The
in vitro
system thus reveals insights into cell wall synthesis and may contribute
to novel cellulosic materials. The integrated DNP and cryo-electron
tomography methods are also applicable to structural studies of other
carbohydrate-based biomaterials.
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