Cellulose-pectin composite hydrogels: Intermolecular interactions and material properties depend on order of assembly

•Cellulose-pectin-calcium gels were produced varying order of assembly and pectin DE.•Cellulose-pectin interactions occurred only when pectin was present during cellulose synthesis.•Order of polysaccharide assembly impacted hydrogels microstructure and mechanical properties.•The contribution to mech...

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Published inCarbohydrate polymers Vol. 162; pp. 71 - 81
Main Authors Lopez-Sanchez, Patricia, Martinez-Sanz, Marta, Bonilla, Mauricio R., Wang, Dongjie, Gilbert, Elliot P., Stokes, Jason. R., Gidley, Michael. J.
Format Journal Article
LanguageEnglish
Published England Elsevier Ltd 15.04.2017
Subjects
Cellulose
Mechanics
Pectin
SANS
SAXS
XRD
Mechanics
Pectin
XRD
SANS
Cellulose
SAXS
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Abstract •Cellulose-pectin-calcium gels were produced varying order of assembly and pectin DE.•Cellulose-pectin interactions occurred only when pectin was present during cellulose synthesis.•Order of polysaccharide assembly impacted hydrogels microstructure and mechanical properties.•The contribution to mechanical and diffusion properties depended on pectin DE.•These results highlight the multiple roles that pectin might have in cell wall mechanics. Plant cell walls have a unique combination of strength and flexibility however, further investigations are required to understand how those properties arise from the assembly of the relevant biopolymers. Recent studies indicate that Ca2+-pectates can act as load-bearing components in cell walls. To investigate this proposed role of pectins, bioinspired wall models were synthesised based on bacterial cellulose containing pectin-calcium gels by varying the order of assembly of cellulose/pectin networks, pectin degree of methylesterification and calcium concentration. Hydrogels in which pectin-calcium assembly occurred prior to cellulose synthesis showed evidence for direct cellulose/pectin interactions from small-angle scattering (SAXS and SANS), had the densest networks and the lowest normal stress. The strength of the pectin-calcium gel affected cellulose structure, crystallinity and material properties. The results highlight the importance of the order of assembly on the properties of cellulose composite networks and support the role of pectin in the mechanics of cell walls.
AbstractList Plant cell walls have a unique combination of strength and flexibility however, further investigations are required to understand how those properties arise from the assembly of the relevant biopolymers. Recent studies indicate that Ca2+-pectates can act as load-bearing components in cell walls. To investigate this proposed role of pectins, bioinspired wall models were synthesised based on bacterial cellulose containing pectin-calcium gels by varying the order of assembly of cellulose/pectin networks, pectin degree of methylesterification and calcium concentration. Hydrogels in which pectin-calcium assembly occurred prior to cellulose synthesis showed evidence for direct cellulose/pectin interactions from small-angle scattering (SAXS and SANS), had the densest networks and the lowest normal stress. The strength of the pectin-calcium gel affected cellulose structure, crystallinity and material properties. The results highlight the importance of the order of assembly on the properties of cellulose composite networks and support the role of pectin in the mechanics of cell walls.
•Cellulose-pectin-calcium gels were produced varying order of assembly and pectin DE.•Cellulose-pectin interactions occurred only when pectin was present during cellulose synthesis.•Order of polysaccharide assembly impacted hydrogels microstructure and mechanical properties.•The contribution to mechanical and diffusion properties depended on pectin DE.•These results highlight the multiple roles that pectin might have in cell wall mechanics. Plant cell walls have a unique combination of strength and flexibility however, further investigations are required to understand how those properties arise from the assembly of the relevant biopolymers. Recent studies indicate that Ca2+-pectates can act as load-bearing components in cell walls. To investigate this proposed role of pectins, bioinspired wall models were synthesised based on bacterial cellulose containing pectin-calcium gels by varying the order of assembly of cellulose/pectin networks, pectin degree of methylesterification and calcium concentration. Hydrogels in which pectin-calcium assembly occurred prior to cellulose synthesis showed evidence for direct cellulose/pectin interactions from small-angle scattering (SAXS and SANS), had the densest networks and the lowest normal stress. The strength of the pectin-calcium gel affected cellulose structure, crystallinity and material properties. The results highlight the importance of the order of assembly on the properties of cellulose composite networks and support the role of pectin in the mechanics of cell walls.
Plant cell walls have a unique combination of strength and flexibility however, further investigations are required to understand how those properties arise from the assembly of the relevant biopolymers. Recent studies indicate that Ca -pectates can act as load-bearing components in cell walls. To investigate this proposed role of pectins, bioinspired wall models were synthesised based on bacterial cellulose containing pectin-calcium gels by varying the order of assembly of cellulose/pectin networks, pectin degree of methylesterification and calcium concentration. Hydrogels in which pectin-calcium assembly occurred prior to cellulose synthesis showed evidence for direct cellulose/pectin interactions from small-angle scattering (SAXS and SANS), had the densest networks and the lowest normal stress. The strength of the pectin-calcium gel affected cellulose structure, crystallinity and material properties. The results highlight the importance of the order of assembly on the properties of cellulose composite networks and support the role of pectin in the mechanics of cell walls.
Author Lopez-Sanchez, Patricia
Wang, Dongjie
Gidley, Michael. J.
Bonilla, Mauricio R.
Stokes, Jason. R.
Martinez-Sanz, Marta
Gilbert, Elliot P.
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  organization: ARC Centre of Excellence in Plant Cell Walls, Centre for Nutrition and Food Sciences, Queensland Alliance for Agriculture and Food Innovation, The University of Queensland, Brisbane, 4072, Australia
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Keywords Mechanics
Pectin
XRD
SANS
Cellulose
SAXS
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Snippet •Cellulose-pectin-calcium gels were produced varying order of assembly and pectin DE.•Cellulose-pectin interactions occurred only when pectin was present...
Plant cell walls have a unique combination of strength and flexibility however, further investigations are required to understand how those properties arise...
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StartPage 71
SubjectTerms Cellulose
Mechanics
Pectin
SANS
SAXS
XRD
Title Cellulose-pectin composite hydrogels: Intermolecular interactions and material properties depend on order of assembly
URI https://dx.doi.org/10.1016/j.carbpol.2017.01.049
https://www.ncbi.nlm.nih.gov/pubmed/28224897
https://search.proquest.com/docview/1870985416
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