Extraction and purification of seaweed protein from Ulva sp.: Challenges to overcome

Nikolaj Juel; Louise Juul; Hartono Tanambell; Trine Kastrup Dalsgaard

doi:10.1016/j.lwt.2024.115944

Extraction and purification of seaweed protein from Ulva sp. Challenges to overcome

Nikolaj Juel, Louise Juul, Hartono Tanambell, Trine Kastrup Dalsgaard^*

^*Corresponding author for this work

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

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Abstract

Ulva sp. has gained attention as a promising and sustainable protein source, due to its high essential amino acid content. This study investigated traditional extraction methods using a double screw press followed by acid or heat precipitation. Furthermore, the screw pressing was combined by a novel purification method that combines mild heat treatment with microfiltration for removal of chlorophyll, to produce white Ulva protein. The double screw press followed by acid precipitation or heat denaturation showed low total protein yields, with 14% of the biomass protein extracted, of which half was soluble. The highest total protein yield (5.5%) was achieved with acid precipitation at pH 2, while heat denaturation at 90 °C resulted in a total protein yield of 4.1%. Acid precipitation proved to be effective with ∼ 81% precipitation of solubilized protein compared to ∼ 43% for heat denaturation. While microfiltration effectively retained chlorophyll in the retentate, the recovery of protein in the permeate remained challenging. SDS-PAGE analysis of proteins in different microfiltration-fractions showed that larger protein complexes (>250 kDa) were unable to transmit through the membranes, resulting in a maximum recovery of 24.9% of the feed-protein in the permeate. Further refinement of Ulva fractionation protocols is imperative for improvement.

Original language	English
Article number	115944
Journal	LWT - Food Science and Technology
Volume	198
ISSN	0023-6438
DOIs	https://doi.org/10.1016/j.lwt.2024.115944
Publication status	Published - Apr 2024

Keywords

Filtration
Protein
Sea lettuce
Ulva

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10.1016/j.lwt.2024.115944Licence: CC BY

Juel et al. (2024)Final published version, 2.79 MBLicence: CC BY

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title = "Extraction and purification of seaweed protein from Ulva sp.: Challenges to overcome",

abstract = "Ulva sp. has gained attention as a promising and sustainable protein source, due to its high essential amino acid content. This study investigated traditional extraction methods using a double screw press followed by acid or heat precipitation. Furthermore, the screw pressing was combined by a novel purification method that combines mild heat treatment with microfiltration for removal of chlorophyll, to produce white Ulva protein. The double screw press followed by acid precipitation or heat denaturation showed low total protein yields, with 14% of the biomass protein extracted, of which half was soluble. The highest total protein yield (5.5%) was achieved with acid precipitation at pH 2, while heat denaturation at 90 °C resulted in a total protein yield of 4.1%. Acid precipitation proved to be effective with ∼ 81% precipitation of solubilized protein compared to ∼ 43% for heat denaturation. While microfiltration effectively retained chlorophyll in the retentate, the recovery of protein in the permeate remained challenging. SDS-PAGE analysis of proteins in different microfiltration-fractions showed that larger protein complexes (>250 kDa) were unable to transmit through the membranes, resulting in a maximum recovery of 24.9% of the feed-protein in the permeate. Further refinement of Ulva fractionation protocols is imperative for improvement.",

keywords = "Filtration, Protein, Sea lettuce, Ulva",

author = "Nikolaj Juel and Louise Juul and Hartono Tanambell and Dalsgaard, {Trine Kastrup}",

note = "Publisher Copyright: {\textcopyright} 2024 The Authors",

year = "2024",

month = apr,

doi = "10.1016/j.lwt.2024.115944",

language = "English",

volume = "198",

journal = "LWT - Food Science and Technology",

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TY - JOUR

T1 - Extraction and purification of seaweed protein from Ulva sp.

T2 - Challenges to overcome

AU - Juel, Nikolaj

AU - Juul, Louise

AU - Tanambell, Hartono

AU - Dalsgaard, Trine Kastrup

PY - 2024/4

Y1 - 2024/4

N2 - Ulva sp. has gained attention as a promising and sustainable protein source, due to its high essential amino acid content. This study investigated traditional extraction methods using a double screw press followed by acid or heat precipitation. Furthermore, the screw pressing was combined by a novel purification method that combines mild heat treatment with microfiltration for removal of chlorophyll, to produce white Ulva protein. The double screw press followed by acid precipitation or heat denaturation showed low total protein yields, with 14% of the biomass protein extracted, of which half was soluble. The highest total protein yield (5.5%) was achieved with acid precipitation at pH 2, while heat denaturation at 90 °C resulted in a total protein yield of 4.1%. Acid precipitation proved to be effective with ∼ 81% precipitation of solubilized protein compared to ∼ 43% for heat denaturation. While microfiltration effectively retained chlorophyll in the retentate, the recovery of protein in the permeate remained challenging. SDS-PAGE analysis of proteins in different microfiltration-fractions showed that larger protein complexes (>250 kDa) were unable to transmit through the membranes, resulting in a maximum recovery of 24.9% of the feed-protein in the permeate. Further refinement of Ulva fractionation protocols is imperative for improvement.

AB - Ulva sp. has gained attention as a promising and sustainable protein source, due to its high essential amino acid content. This study investigated traditional extraction methods using a double screw press followed by acid or heat precipitation. Furthermore, the screw pressing was combined by a novel purification method that combines mild heat treatment with microfiltration for removal of chlorophyll, to produce white Ulva protein. The double screw press followed by acid precipitation or heat denaturation showed low total protein yields, with 14% of the biomass protein extracted, of which half was soluble. The highest total protein yield (5.5%) was achieved with acid precipitation at pH 2, while heat denaturation at 90 °C resulted in a total protein yield of 4.1%. Acid precipitation proved to be effective with ∼ 81% precipitation of solubilized protein compared to ∼ 43% for heat denaturation. While microfiltration effectively retained chlorophyll in the retentate, the recovery of protein in the permeate remained challenging. SDS-PAGE analysis of proteins in different microfiltration-fractions showed that larger protein complexes (>250 kDa) were unable to transmit through the membranes, resulting in a maximum recovery of 24.9% of the feed-protein in the permeate. Further refinement of Ulva fractionation protocols is imperative for improvement.

KW - Filtration

KW - Protein

KW - Sea lettuce

KW - Ulva

U2 - 10.1016/j.lwt.2024.115944

DO - 10.1016/j.lwt.2024.115944

M3 - Journal article

AN - SCOPUS:85188698000

SN - 0023-6438

VL - 198

JO - LWT - Food Science and Technology

JF - LWT - Food Science and Technology

M1 - 115944

ER -

Extraction and purification of seaweed protein from Ulva sp. Challenges to overcome

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Keywords

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