Extraction of Protein-Enriched Fractions from Sunflower and Hemp Seeds: Composition and Colloidal Stability of Less Refined Fractions as a Function of Initial pH

Simone Bleibach Alpiger; Sandra Beyer Gregersen; Amanda May Ellermann; Tenna Ji Jing Dissing; Milena Corredig

doi:10.1016/j.fufo.2025.100541

Extraction of Protein-Enriched Fractions from Sunflower and Hemp Seeds: Composition and Colloidal Stability of Less Refined Fractions as a Function of Initial pH

Simone Bleibach Alpiger^*, Sandra Beyer Gregersen, Amanda May Ellermann, Tenna Ji Jing Dissing, Milena Corredig^*

^*Corresponding author for this work

Department of Food Science - Food Technology

Research output: Contribution to journal/Conference contribution in journal/Contribution to newspaper › Journal article › Research › peer-review

Abstract

Simultaneous extraction of oil and protein from oilseeds using aqueous extraction yields protein concentrates with less refined compositions. This work evaluated the effect of initial extraction pH on the composition, yield, and physicochemical properties of colloidal components extracted from hemp and sunflower seeds. Understanding these differences is crucial for implementation of these novel practices as a sustainable alternative to the current practices. Results showed no general trend in protein yield and purity as a function of pH for the two seeds. For sunflower seeds, the highest protein recovery (52 %) and purity (55 % dm) were achieved under alkaline conditions. In contrast, hemp seeds showed 30 % protein recovery and 42 % purity, with only yields depending on extraction pH. For both oilseeds, extraction pH influenced the colloidal assemblies of oleosomes and proteins, as shown by light scattering and confocal microscopy. These variations were attributed to compositional differences between the two seeds, leading to different interactions among the soluble carbohydrates, proteins, and oleosomes. These findings demonstrate that improving fractionation efficiency between proteins and oleosomes requires a better understanding of biomacromolecule interactions and their resulting functional colloidal structures, before full adoption of these new, less refined ingredients in food formulations.

Original language	English
Article number	100541
Journal	Future Foods
Volume	11
ISSN	2666-8335
DOIs	https://doi.org/10.1016/j.fufo.2025.100541
Publication status	Published - Jun 2025

Keywords

Hemp protein
Oleosomes
pH, Wet milling
Sunflower protein

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title = "Extraction of Protein-Enriched Fractions from Sunflower and Hemp Seeds: Composition and Colloidal Stability of Less Refined Fractions as a Function of Initial pH",

abstract = "Simultaneous extraction of oil and protein from oilseeds using aqueous extraction yields protein concentrates with less refined compositions. This work evaluated the effect of initial extraction pH on the composition, yield, and physicochemical properties of colloidal components extracted from hemp and sunflower seeds. Understanding these differences is crucial for implementation of these novel practices as a sustainable alternative to the current practices. Results showed no general trend in protein yield and purity as a function of pH for the two seeds. For sunflower seeds, the highest protein recovery (52 %) and purity (55 % dm) were achieved under alkaline conditions. In contrast, hemp seeds showed 30 % protein recovery and 42 % purity, with only yields depending on extraction pH. For both oilseeds, extraction pH influenced the colloidal assemblies of oleosomes and proteins, as shown by light scattering and confocal microscopy. These variations were attributed to compositional differences between the two seeds, leading to different interactions among the soluble carbohydrates, proteins, and oleosomes. These findings demonstrate that improving fractionation efficiency between proteins and oleosomes requires a better understanding of biomacromolecule interactions and their resulting functional colloidal structures, before full adoption of these new, less refined ingredients in food formulations.",

keywords = "Hemp protein, Oleosomes, pH, Wet milling, Sunflower protein",

author = "Alpiger, {Simone Bleibach} and Gregersen, {Sandra Beyer} and Ellermann, {Amanda May} and Dissing, {Tenna Ji Jing} and Milena Corredig",

year = "2025",

month = jun,

doi = "10.1016/j.fufo.2025.100541",

language = "English",

volume = "11",

journal = "Future Foods",

issn = "2666-8335",

publisher = "Elsevier B.V.",

}

Extraction of Protein-Enriched Fractions from Sunflower and Hemp Seeds: Composition and Colloidal Stability of Less Refined Fractions as a Function of Initial pH. / Alpiger, Simone Bleibach ; Gregersen, Sandra Beyer; Ellermann, Amanda May et al.
In: Future Foods, Vol. 11, 100541, 06.2025.

Research output: Contribution to journal/Conference contribution in journal/Contribution to newspaper › Journal article › Research › peer-review

TY - JOUR

T1 - Extraction of Protein-Enriched Fractions from Sunflower and Hemp Seeds

T2 - Composition and Colloidal Stability of Less Refined Fractions as a Function of Initial pH

AU - Alpiger, Simone Bleibach

AU - Gregersen, Sandra Beyer

AU - Ellermann, Amanda May

AU - Dissing, Tenna Ji Jing

AU - Corredig, Milena

PY - 2025/6

Y1 - 2025/6

N2 - Simultaneous extraction of oil and protein from oilseeds using aqueous extraction yields protein concentrates with less refined compositions. This work evaluated the effect of initial extraction pH on the composition, yield, and physicochemical properties of colloidal components extracted from hemp and sunflower seeds. Understanding these differences is crucial for implementation of these novel practices as a sustainable alternative to the current practices. Results showed no general trend in protein yield and purity as a function of pH for the two seeds. For sunflower seeds, the highest protein recovery (52 %) and purity (55 % dm) were achieved under alkaline conditions. In contrast, hemp seeds showed 30 % protein recovery and 42 % purity, with only yields depending on extraction pH. For both oilseeds, extraction pH influenced the colloidal assemblies of oleosomes and proteins, as shown by light scattering and confocal microscopy. These variations were attributed to compositional differences between the two seeds, leading to different interactions among the soluble carbohydrates, proteins, and oleosomes. These findings demonstrate that improving fractionation efficiency between proteins and oleosomes requires a better understanding of biomacromolecule interactions and their resulting functional colloidal structures, before full adoption of these new, less refined ingredients in food formulations.

AB - Simultaneous extraction of oil and protein from oilseeds using aqueous extraction yields protein concentrates with less refined compositions. This work evaluated the effect of initial extraction pH on the composition, yield, and physicochemical properties of colloidal components extracted from hemp and sunflower seeds. Understanding these differences is crucial for implementation of these novel practices as a sustainable alternative to the current practices. Results showed no general trend in protein yield and purity as a function of pH for the two seeds. For sunflower seeds, the highest protein recovery (52 %) and purity (55 % dm) were achieved under alkaline conditions. In contrast, hemp seeds showed 30 % protein recovery and 42 % purity, with only yields depending on extraction pH. For both oilseeds, extraction pH influenced the colloidal assemblies of oleosomes and proteins, as shown by light scattering and confocal microscopy. These variations were attributed to compositional differences between the two seeds, leading to different interactions among the soluble carbohydrates, proteins, and oleosomes. These findings demonstrate that improving fractionation efficiency between proteins and oleosomes requires a better understanding of biomacromolecule interactions and their resulting functional colloidal structures, before full adoption of these new, less refined ingredients in food formulations.

KW - Hemp protein

KW - Oleosomes

KW - pH, Wet milling

KW - Sunflower protein

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Extraction of Protein-Enriched Fractions from Sunflower and Hemp Seeds: Composition and Colloidal Stability of Less Refined Fractions as a Function of Initial pH

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