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Title: Cellulose Structural Polymorphism in Plant Primary Cell Walls Investigated by High-Field 2D Solid-State NMR Spectroscopy and Density Functional Theory Calculations

Journal Article · · Biomacromolecules
 [1];  [2];  [3];  [1]
  1. Massachusetts Inst. of Technology (MIT), Cambridge, MA (United States). Dept. of Chemistry
  2. Pennsylvania State Univ., University Park, PA (United States). Dept. of Geosciences
  3. Univ. of Texas, El Paso, TX (United States). Dept. of Geological Sciences
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The native cellulose of bacterial, algal, and animal origins has been well studied structurally using X-ray and neutron diffraction and solid-state NMR spectroscopy, and is known to consist of varying proportions of two allomorphs, Iα and Iβ, which differ in hydrogen bonding, chain packing, and local conformation. In comparison, cellulose structure in plant primary cell walls is much less understood because plant cellulose has lower crystallinity and extensive interactions with matrix polysaccharides. Here we have combined two-dimensional magic-angle-spinning (MAS) solid-state nuclear magnetic resonance (solid-state NMR) spectroscopy at high magnetic fields with density functional theory (DFT) calculations to obtain detailed information about the structural polymorphism and spatial distributions of plant primary-wall cellulose. 2D 13C–13C correlation spectra of uniformly 13C-labeled cell walls of several model plants resolved seven sets of cellulose chemical shifts. Among these, five sets (denoted a–e) belong to cellulose in the interior of the microfibril while two sets (f and g) can be assigned to surface cellulose. Importantly, most of the interior cellulose 13C chemical shifts differ significantly from the 13C chemical shifts of the Iα and Iβ allomorphs, indicating that plant primary-wall cellulose has different conformations, packing, and hydrogen bonding from celluloses of other organisms. 2D 13C–13C correlation experiments with long mixing times and with water polarization transfer revealed the spatial distributions and matrix-polysaccharide interactions of these cellulose structures. Celluloses f and g are well mixed chains on the microfibril surface, celluloses a and b are interior chains that are in molecular contact with the surface chains, while cellulose c resides in the core of the microfibril, outside spin diffusion contact with the surface. Interestingly, cellulose d, whose chemical shifts differ most significantly from those of bacterial, algal, and animal cellulose, interacts with hemicellulose, is poorly hydrated, and is targeted by the protein expansin during wall loosening. To obtain information about the C6 hydroxymethyl conformation of these plant celluloses, we carried out DFT calculations of 13C chemical shifts, using the Iα and Iβ crystal structures as templates and varying the C5–C6 torsion angle. Comparison with the experimental chemical shifts suggests that all interior cellulose favor the tg conformation, but cellulose d also has a similar propensity to adopt the gt conformation. In conclusion, these results indicate that cellulose in plant primary cell walls, due to their interactions with matrix polysaccharides, and has polymorphic structures that are not a simple superposition of the Iα and Iβ allomorphs, thus distinguishing them from bacterial and animal celluloses.

Research Organization:
Energy Frontier Research Centers (EFRC) (United States). Center for Lignocellulose Structure and Formation (CLSF)
Sponsoring Organization:
USDOE Office of Science (SC), Basic Energy Sciences (BES)
Grant/Contract Number:
SC0001090
OSTI ID:
1387862
Journal Information:
Biomacromolecules, Vol. 17, Issue 6; Related Information: CLSF partners with Pennsylvania State University (lead); North Carolina State University; University of Rhode Island; Virginia Tech University; ISSN 1525-7797
Publisher:
American Chemical SocietyCopyright Statement
Country of Publication:
United States
Language:
English
Citation Metrics:
Cited by: 81 works
Citation information provided by
Web of Science

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Cited By (17)

Developmental changes in collenchyma cell-wall polysaccharides in celery (Apium graveolens L.) petioles journal February 2019
Structural factors affecting 13C NMR chemical shifts of cellulose: a computational study journal November 2017
Molecular architecture of fungal cell walls revealed by solid-state NMR journal July 2018
Electrospun Cellulose and Nanocellulose Composites as a Biomaterial book January 2017
Atomic resolution of cotton cellulose structure enabled by dynamic nuclear polarization solid-state NMR journal November 2018
An evaluation of the structures of cellulose generated by the CHARMM force field: comparisons to in planta cellulose journal April 2018
Folding of xylan onto cellulose fibrils in plant cell walls revealed by solid-state NMR journal December 2016
Investigation of the internal structure and dynamics of cellulose by 13C-NMR relaxometry and 2DPASS-MAS-NMR measurements journal August 2019
Folding of xylan onto cellulose fibrils in plant cell walls revealed by solid-state NMR text January 2016
Fast MAS 1H–13C correlation NMR for structural investigations of plant cell walls journal September 2019
Conformational analysis of xylobiose by DFT quantum mechanics journal November 2019
Molecular architecture of softwood revealed by solid-state NMR journal October 2019
Structure of native cellulose microfibrils, the starting point for nanocellulose manufacture journal December 2017
A density functional theory study on the shape of the primary cellulose microfibril in plants: effects of C6 exocyclic group conformation and H-bonding journal January 2020
The Shape of Native Plant Cellulose Microfibrils journal September 2018
Molecular architecture of softwood revealed by solid-state NMR. text January 2019
Molecular architecture of softwood revealed by solid-state NMR text January 2019

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