Molecular structure of large-scale extracted ß-glucan from barley and oat: identification of a significantly changed block structure in a high ß-glucan barley mutant

Mette Skau Mikkelsen; Birthe P Møller Jespersen; Flemming Hofmann Larsen; Andreas Blennow; Søren Balling Engelsen

doi:10.1016/j.foodchem.2012.07.097

Molecular structure of large-scale extracted ß-glucan from barley and oat: identification of a significantly changed block structure in a high ß-glucan barley mutant

Mette Skau Mikkelsen, Birthe P Møller Jespersen, Flemming Hofmann Larsen, Andreas Blennow, Søren Balling Engelsen

33 Citations (Scopus)

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Abstract

Health effects of β-glucan are typically related to dose, size and viscosity without taking the specific molecular structure into account. High β-glucan mutant barley, mother barley and oat β-glucans were large-scale extracted by comparable protocols using hot water, enzyme assisted hydrolysis and ethanol precipitation leading to similar molecular masses (200-300 kDa). Multivariate data analysis on all compositional, structural and functional features demonstrated that the main variance among the samples was primarily explained by block structural differences as determined by HPSEC-PAD. In particular the barley high β-glucan mutant proved to exhibit a unique block structure with DP3 and DP4 contributions of: 78.9% and 16.7% as compared to the barley mother (72.1% and 21.4%) and oat (66.1% and 29.1%). This unique block structure was further confirmed by the ¹H NMR determination of the β-1,4 to β-1,3 linkage ratio. Low solubility of the barley samples was potentially an effect of substructures consisting of longer repetitive cellotriosyl sequences. FT-Raman and NMR spectroscopy were useful in measuring sample impurities of α-glucans and prediction of β-linkage characteristics.

Original language	English
Journal	Food Chemistry
Volume	136
Issue number	1
Pages (from-to)	130-138
Number of pages	9
ISSN	0308-8146
DOIs	https://doi.org/10.1016/j.foodchem.2012.07.097
Publication status	Published - 1 Jan 2013

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Molecular structure of large-scale extracted b-glucan from barley and oat: Identification of a significantly changed block structure in a high b-glucan barley mutantFinal published version, 676 KB

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Molecular structure of large-scale extracted ß-glucan from barley and oat : identification of a significantly changed block structure in a high ß-glucan barley mutant. / Mikkelsen, Mette Skau; Jespersen, Birthe P Møller; Larsen, Flemming Hofmann et al.

In: Food Chemistry, Vol. 136, No. 1, 01.01.2013, p. 130-138.

Research output: Contribution to journal › Journal article › Research › peer-review

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title = "Molecular structure of large-scale extracted {\ss}-glucan from barley and oat: identification of a significantly changed block structure in a high {\ss}-glucan barley mutant",

abstract = "Health effects of β-glucan are typically related to dose, size and viscosity without taking the specific molecular structure into account. High β-glucan mutant barley, mother barley and oat β-glucans were large-scale extracted by comparable protocols using hot water, enzyme assisted hydrolysis and ethanol precipitation leading to similar molecular masses (200-300 kDa). Multivariate data analysis on all compositional, structural and functional features demonstrated that the main variance among the samples was primarily explained by block structural differences as determined by HPSEC-PAD. In particular the barley high β-glucan mutant proved to exhibit a unique block structure with DP3 and DP4 contributions of: 78.9% and 16.7% as compared to the barley mother (72.1% and 21.4%) and oat (66.1% and 29.1%). This unique block structure was further confirmed by the 1H NMR determination of the β-1,4 to β-1,3 linkage ratio. Low solubility of the barley samples was potentially an effect of substructures consisting of longer repetitive cellotriosyl sequences. FT-Raman and NMR spectroscopy were useful in measuring sample impurities of α-glucans and prediction of β-linkage characteristics.",

author = "Mikkelsen, {Mette Skau} and Jespersen, {Birthe P M{\o}ller} and Larsen, {Flemming Hofmann} and Andreas Blennow and Engelsen, {S{\o}ren Balling}",

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AU - Larsen, Flemming Hofmann

AU - Blennow, Andreas

AU - Engelsen, Søren Balling

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N2 - Health effects of β-glucan are typically related to dose, size and viscosity without taking the specific molecular structure into account. High β-glucan mutant barley, mother barley and oat β-glucans were large-scale extracted by comparable protocols using hot water, enzyme assisted hydrolysis and ethanol precipitation leading to similar molecular masses (200-300 kDa). Multivariate data analysis on all compositional, structural and functional features demonstrated that the main variance among the samples was primarily explained by block structural differences as determined by HPSEC-PAD. In particular the barley high β-glucan mutant proved to exhibit a unique block structure with DP3 and DP4 contributions of: 78.9% and 16.7% as compared to the barley mother (72.1% and 21.4%) and oat (66.1% and 29.1%). This unique block structure was further confirmed by the 1H NMR determination of the β-1,4 to β-1,3 linkage ratio. Low solubility of the barley samples was potentially an effect of substructures consisting of longer repetitive cellotriosyl sequences. FT-Raman and NMR spectroscopy were useful in measuring sample impurities of α-glucans and prediction of β-linkage characteristics.

AB - Health effects of β-glucan are typically related to dose, size and viscosity without taking the specific molecular structure into account. High β-glucan mutant barley, mother barley and oat β-glucans were large-scale extracted by comparable protocols using hot water, enzyme assisted hydrolysis and ethanol precipitation leading to similar molecular masses (200-300 kDa). Multivariate data analysis on all compositional, structural and functional features demonstrated that the main variance among the samples was primarily explained by block structural differences as determined by HPSEC-PAD. In particular the barley high β-glucan mutant proved to exhibit a unique block structure with DP3 and DP4 contributions of: 78.9% and 16.7% as compared to the barley mother (72.1% and 21.4%) and oat (66.1% and 29.1%). This unique block structure was further confirmed by the 1H NMR determination of the β-1,4 to β-1,3 linkage ratio. Low solubility of the barley samples was potentially an effect of substructures consisting of longer repetitive cellotriosyl sequences. FT-Raman and NMR spectroscopy were useful in measuring sample impurities of α-glucans and prediction of β-linkage characteristics.

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Molecular structure of large-scale extracted ß-glucan from barley and oat: identification of a significantly changed block structure in a high ß-glucan barley mutant

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