Complexation of pectins varying in overall charge with lysozyme in aqueous buffered solutions

Yurij Antonov (Corresponding author), Miete Celus, Clare Kyomugasho, Marc Hendrickx, Paula Moldenaers, Ruth Cardinaels

Onderzoeksoutput: Bijdrage aan tijdschriftTijdschriftartikelAcademicpeer review

Uittreksel

We examined how a particular structural characteristic of pectin, namely its degree of methoxylation (DM), affects its complexation with lysozyme (lys), whereby the phase behavior of the complex system as a whole as well as the aggregation state of the complex phase are considered. Low and medium methoxylated pectins bind lys at pH 5.1 and low ionic strength (I = 0.01) forming highly concentrated gel like complex particles, whereas highly methoxylated pectins undergo liquid/liquid phase separation with lys. “Mother” pectin with DM = 95.1% does not form complexes with lys. Highly charged pectins (low DM) already form complex particles at low pectin/lys weight ratios and have a high yield of the complex phase that consists of relatively large particles. The distribution of pectin within the complex particles has an irregular character for both pectin types. However, whereas for low DM pectin the complex composition reflects that of the mixture, the complex composition with high DM pectin is less sensitive to the mixture composition. Moreover, at low DM, the maximum complexation corresponds to charge neutralization whereas at high DM maximum complexation requires a larger than stoichiometric amount of lys. The minimal I and pH value at which complexation is completely suppressed, decreases with increasing DM of pectin, indicating the presence of electrostatic interactions in all systems. However, the differences in composition of the complexes and the protein/polysaccharide charge ratio at maximal complexation indicate that the exact binding mechanism depends on the pectin DM.
TaalEngels
Pagina's268-278
Aantal pagina's11
TijdschriftFood Hydrocolloids
Volume94
DOI's
StatusGepubliceerd - 1 sep 2019

Vingerafdruk

Pectins
Muramidase
Complexation
lysozyme
pectins
aqueous solutions
Enzymes
Chemical analysis
Liquids
Phase behavior
Polysaccharides
Coulomb interactions
Ionic strength
Phase separation
Particles (particulate matter)
pectin
Large scale systems
Gels
Agglomeration
Proteins

Trefwoorden

    Citeer dit

    Antonov, Yurij ; Celus, Miete ; Kyomugasho, Clare ; Hendrickx, Marc ; Moldenaers, Paula ; Cardinaels, Ruth. / Complexation of pectins varying in overall charge with lysozyme in aqueous buffered solutions. In: Food Hydrocolloids. 2019 ; Vol. 94. blz. 268-278
    @article{893cbd8a046e4b729ac6d92d0fcb2499,
    title = "Complexation of pectins varying in overall charge with lysozyme in aqueous buffered solutions",
    abstract = "We examined how a particular structural characteristic of pectin, namely its degree of methoxylation (DM), affects its complexation with lysozyme (lys), whereby the phase behavior of the complex system as a whole as well as the aggregation state of the complex phase are considered. Low and medium methoxylated pectins bind lys at pH 5.1 and low ionic strength (I = 0.01) forming highly concentrated gel like complex particles, whereas highly methoxylated pectins undergo liquid/liquid phase separation with lys. “Mother” pectin with DM = 95.1{\%} does not form complexes with lys. Highly charged pectins (low DM) already form complex particles at low pectin/lys weight ratios and have a high yield of the complex phase that consists of relatively large particles. The distribution of pectin within the complex particles has an irregular character for both pectin types. However, whereas for low DM pectin the complex composition reflects that of the mixture, the complex composition with high DM pectin is less sensitive to the mixture composition. Moreover, at low DM, the maximum complexation corresponds to charge neutralization whereas at high DM maximum complexation requires a larger than stoichiometric amount of lys. The minimal I and pH value at which complexation is completely suppressed, decreases with increasing DM of pectin, indicating the presence of electrostatic interactions in all systems. However, the differences in composition of the complexes and the protein/polysaccharide charge ratio at maximal complexation indicate that the exact binding mechanism depends on the pectin DM.",
    keywords = "Complexation, Confocal microscopy, Lysozyme, Pectin, Structure",
    author = "Yurij Antonov and Miete Celus and Clare Kyomugasho and Marc Hendrickx and Paula Moldenaers and Ruth Cardinaels",
    year = "2019",
    month = "9",
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    doi = "10.1016/j.foodhyd.2019.02.049",
    language = "English",
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    pages = "268--278",
    journal = "Food Hydrocolloids",
    issn = "0268-005X",
    publisher = "Elsevier",

    }

    Antonov, Y, Celus, M, Kyomugasho, C, Hendrickx, M, Moldenaers, P & Cardinaels, R 2019, 'Complexation of pectins varying in overall charge with lysozyme in aqueous buffered solutions' Food Hydrocolloids, vol. 94, blz. 268-278. DOI: 10.1016/j.foodhyd.2019.02.049

    Complexation of pectins varying in overall charge with lysozyme in aqueous buffered solutions. / Antonov, Yurij (Corresponding author); Celus, Miete; Kyomugasho, Clare; Hendrickx, Marc; Moldenaers, Paula; Cardinaels, Ruth.

    In: Food Hydrocolloids, Vol. 94, 01.09.2019, blz. 268-278.

    Onderzoeksoutput: Bijdrage aan tijdschriftTijdschriftartikelAcademicpeer review

    TY - JOUR

    T1 - Complexation of pectins varying in overall charge with lysozyme in aqueous buffered solutions

    AU - Antonov,Yurij

    AU - Celus,Miete

    AU - Kyomugasho,Clare

    AU - Hendrickx,Marc

    AU - Moldenaers,Paula

    AU - Cardinaels,Ruth

    PY - 2019/9/1

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    N2 - We examined how a particular structural characteristic of pectin, namely its degree of methoxylation (DM), affects its complexation with lysozyme (lys), whereby the phase behavior of the complex system as a whole as well as the aggregation state of the complex phase are considered. Low and medium methoxylated pectins bind lys at pH 5.1 and low ionic strength (I = 0.01) forming highly concentrated gel like complex particles, whereas highly methoxylated pectins undergo liquid/liquid phase separation with lys. “Mother” pectin with DM = 95.1% does not form complexes with lys. Highly charged pectins (low DM) already form complex particles at low pectin/lys weight ratios and have a high yield of the complex phase that consists of relatively large particles. The distribution of pectin within the complex particles has an irregular character for both pectin types. However, whereas for low DM pectin the complex composition reflects that of the mixture, the complex composition with high DM pectin is less sensitive to the mixture composition. Moreover, at low DM, the maximum complexation corresponds to charge neutralization whereas at high DM maximum complexation requires a larger than stoichiometric amount of lys. The minimal I and pH value at which complexation is completely suppressed, decreases with increasing DM of pectin, indicating the presence of electrostatic interactions in all systems. However, the differences in composition of the complexes and the protein/polysaccharide charge ratio at maximal complexation indicate that the exact binding mechanism depends on the pectin DM.

    AB - We examined how a particular structural characteristic of pectin, namely its degree of methoxylation (DM), affects its complexation with lysozyme (lys), whereby the phase behavior of the complex system as a whole as well as the aggregation state of the complex phase are considered. Low and medium methoxylated pectins bind lys at pH 5.1 and low ionic strength (I = 0.01) forming highly concentrated gel like complex particles, whereas highly methoxylated pectins undergo liquid/liquid phase separation with lys. “Mother” pectin with DM = 95.1% does not form complexes with lys. Highly charged pectins (low DM) already form complex particles at low pectin/lys weight ratios and have a high yield of the complex phase that consists of relatively large particles. The distribution of pectin within the complex particles has an irregular character for both pectin types. However, whereas for low DM pectin the complex composition reflects that of the mixture, the complex composition with high DM pectin is less sensitive to the mixture composition. Moreover, at low DM, the maximum complexation corresponds to charge neutralization whereas at high DM maximum complexation requires a larger than stoichiometric amount of lys. The minimal I and pH value at which complexation is completely suppressed, decreases with increasing DM of pectin, indicating the presence of electrostatic interactions in all systems. However, the differences in composition of the complexes and the protein/polysaccharide charge ratio at maximal complexation indicate that the exact binding mechanism depends on the pectin DM.

    KW - Complexation

    KW - Confocal microscopy

    KW - Lysozyme

    KW - Pectin

    KW - Structure

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    U2 - 10.1016/j.foodhyd.2019.02.049

    DO - 10.1016/j.foodhyd.2019.02.049

    M3 - Article

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    SP - 268

    EP - 278

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    Antonov Y, Celus M, Kyomugasho C, Hendrickx M, Moldenaers P, Cardinaels R. Complexation of pectins varying in overall charge with lysozyme in aqueous buffered solutions. Food Hydrocolloids. 2019 sep 1;94:268-278. Beschikbaar vanaf, DOI: 10.1016/j.foodhyd.2019.02.049