Characterization of gellan gum by capillary electrophoresis

Danielle L. Taylor; Cameron J. Ferris; Alison R. Maniego; Patrice Castignolles; Marc in het Panhuis; Marianne Gaborieau

doi:10.1071/CH12211

Characterization of gellan gum by capillary electrophoresis

Danielle L. Taylor, Cameron J. Ferris, Alison R. Maniego, Patrice Castignolles, Marc in het Panhuis, Marianne Gaborieau

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Abstract

Gellan gums were characterised for the first time using free-solution capillary electrophoresis (CE) or CE under critical conditions (CE-CC). CE-CC is a fast method that separates the polysaccharide. Gellan gums are shown to be heterogeneous in terms of their electrophoretic mobility at 55Â°C revealing: oligomer peak(s), broad peaks of polymers with a random coil conformation with different degrees of acylation (composition), aggregates, and polymers with double-helix conformation. CE-CC is complementary with the rheological analysis also performed in this work. Sonication of gellan gums is shown to decrease the viscosity of gellan gum mainly by breaking up aggregates. The effect of sonication is stronger on the high-acyl gellan gum since the latter has a far higher tendency to aggregate.

Original language	English
Pages (from-to)	1156-1164
Number of pages	9
Journal	Australian Journal of Chemistry
Volume	65
Issue number	8
DOIs	https://doi.org/10.1071/CH12211
Publication status	Published - 2012

Keywords

capillary electrophoresis
gellan gums

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10.1071/CH12211

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title = "Characterization of gellan gum by capillary electrophoresis",

abstract = "Gellan gums were characterised for the first time using free-solution capillary electrophoresis (CE) or CE under critical conditions (CE-CC). CE-CC is a fast method that separates the polysaccharide. Gellan gums are shown to be heterogeneous in terms of their electrophoretic mobility at 55{\^A}°C revealing: oligomer peak(s), broad peaks of polymers with a random coil conformation with different degrees of acylation (composition), aggregates, and polymers with double-helix conformation. CE-CC is complementary with the rheological analysis also performed in this work. Sonication of gellan gums is shown to decrease the viscosity of gellan gum mainly by breaking up aggregates. The effect of sonication is stronger on the high-acyl gellan gum since the latter has a far higher tendency to aggregate.",

keywords = "capillary electrophoresis, gellan gums",

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T1 - Characterization of gellan gum by capillary electrophoresis

AU - Taylor, Danielle L.

AU - Ferris, Cameron J.

AU - Maniego, Alison R.

AU - Castignolles, Patrice

AU - Panhuis, Marc in het

AU - Gaborieau, Marianne

PY - 2012

Y1 - 2012

N2 - Gellan gums were characterised for the first time using free-solution capillary electrophoresis (CE) or CE under critical conditions (CE-CC). CE-CC is a fast method that separates the polysaccharide. Gellan gums are shown to be heterogeneous in terms of their electrophoretic mobility at 55Â°C revealing: oligomer peak(s), broad peaks of polymers with a random coil conformation with different degrees of acylation (composition), aggregates, and polymers with double-helix conformation. CE-CC is complementary with the rheological analysis also performed in this work. Sonication of gellan gums is shown to decrease the viscosity of gellan gum mainly by breaking up aggregates. The effect of sonication is stronger on the high-acyl gellan gum since the latter has a far higher tendency to aggregate.

AB - Gellan gums were characterised for the first time using free-solution capillary electrophoresis (CE) or CE under critical conditions (CE-CC). CE-CC is a fast method that separates the polysaccharide. Gellan gums are shown to be heterogeneous in terms of their electrophoretic mobility at 55Â°C revealing: oligomer peak(s), broad peaks of polymers with a random coil conformation with different degrees of acylation (composition), aggregates, and polymers with double-helix conformation. CE-CC is complementary with the rheological analysis also performed in this work. Sonication of gellan gums is shown to decrease the viscosity of gellan gum mainly by breaking up aggregates. The effect of sonication is stronger on the high-acyl gellan gum since the latter has a far higher tendency to aggregate.

KW - capillary electrophoresis

KW - gellan gums

UR - http://handle.uws.edu.au:8081/1959.7/516103

U2 - 10.1071/CH12211

DO - 10.1071/CH12211

M3 - Article

SN - 0004-9425

VL - 65

SP - 1156

EP - 1164

JO - Australian Journal of Chemistry

JF - Australian Journal of Chemistry

IS - 8

ER -

Characterization of gellan gum by capillary electrophoresis

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