Proteins from plant-based biomass: effects of post-harvest conditions on protein retention and quality : Part II Yellow pea

Proteins from plant-based biomass: effects of post-harvest conditions on protein retention and quality : Part II Yellow pea

Wageningen University & Research is looking for ways to increase the availability and diversity of proteins. Plant proteins are an attractive alternative to animal proteins. It is important to optimize the recovery methods of proteins from plant based biomass sources. This includes the need to study the effects of post-harvest conditions on the yield and quality of extracted proteins.There is also an increasing interest in pea as protein source. Therefore, the effects of post-harvest conditions were studied on protein yield and quality in dried yellow peas. The peas were stored under two different temperatures (12 and 40 °C) combined with three relative humidity (RH) levels (range 26 to 86% RH) during four different storage periods (1, 2, 4 and 6 weeks). This led to differences in moisture content after 6 weeks, ranging from 4.8% at high temperature in combination with low RH till 17.6% at low temperature in combination with high RH. Analyses were done on protein content, protein composition, glycation, hexanal and saponins.Glycation of pea proteins is relevant for the possible improvement of techno-functional properties,such as solubility and interfacial properties. Hexanal and saponins are relevant components in peas which may cause or indicate off-taste in extracted pea protein. The main results of this study are as follows:• Overall, there was no clear effect of storage condition (temperature, RH) and storage period on protein content, as shown by BCA assays.• Storage conditions and storage period did not affect protein quality in terms of protein composition, as shown by SDS page.• We found no evidence of an effect of storage on the off-flavour compound hexanal.• The relative levels of saponins were measured, but besides potentially small changes at40°C/85%RH, the storage conditions tested did not seem to have an influence on saponin content and composition.• We found differences in glycation between samples. However, the results were not consistent. Nevertheless, it is an interesting finding that glycation can be affected in some way.The described results and conclusions are valid for yellow peas (whole seeds) under the testedcircumstances.The research was performed independently by researchers from Wageningen Food & Biobased Research, funded by the Ministry of Agriculture, Nature and Food Safety by DFI- R&D budget, within the strategic WUR-KB theme of Healthy and Safe Food.

Saved in:
Bibliographic Details
Main Authors: de Wild, Hans, Mensink, Manon, Mocking, Helene, Nijenhuis, Mariska, El Harchioui, Najim, van Kekem, Kees, de Jong, Catrienus, Roland, Wibke, Woltering, Ernst, Hogeveen, Esther
Format: External research report biblioteca
Language:English
Published: Wageningen Food & Biobased Research
Subjects:Life Science,
Online Access:https://research.wur.nl/en/publications/proteins-from-plant-based-biomass-effects-of-post-harvest-conditi-2
Tags: Add Tag
No Tags, Be the first to tag this record!
id dig-wur-nl-wurpubs-607124
record_format koha
spelling dig-wur-nl-wurpubs-6071242024-12-03 de Wild, Hans Mensink, Manon Mocking, Helene Nijenhuis, Mariska El Harchioui, Najim van Kekem, Kees de Jong, Catrienus Roland, Wibke Woltering, Ernst Hogeveen, Esther External research report Proteins from plant-based biomass: effects of post-harvest conditions on protein retention and quality : Part II Yellow pea 2021 Wageningen University & Research is looking for ways to increase the availability and diversity of proteins. Plant proteins are an attractive alternative to animal proteins. It is important to optimize the recovery methods of proteins from plant based biomass sources. This includes the need to study the effects of post-harvest conditions on the yield and quality of extracted proteins.There is also an increasing interest in pea as protein source. Therefore, the effects of post-harvest conditions were studied on protein yield and quality in dried yellow peas. The peas were stored under two different temperatures (12 and 40 °C) combined with three relative humidity (RH) levels (range 26 to 86% RH) during four different storage periods (1, 2, 4 and 6 weeks). This led to differences in moisture content after 6 weeks, ranging from 4.8% at high temperature in combination with low RH till 17.6% at low temperature in combination with high RH. Analyses were done on protein content, protein composition, glycation, hexanal and saponins.Glycation of pea proteins is relevant for the possible improvement of techno-functional properties,such as solubility and interfacial properties. Hexanal and saponins are relevant components in peas which may cause or indicate off-taste in extracted pea protein. The main results of this study are as follows:• Overall, there was no clear effect of storage condition (temperature, RH) and storage period on protein content, as shown by BCA assays.• Storage conditions and storage period did not affect protein quality in terms of protein composition, as shown by SDS page.• We found no evidence of an effect of storage on the off-flavour compound hexanal.• The relative levels of saponins were measured, but besides potentially small changes at40°C/85%RH, the storage conditions tested did not seem to have an influence on saponin content and composition.• We found differences in glycation between samples. However, the results were not consistent. Nevertheless, it is an interesting finding that glycation can be affected in some way.The described results and conclusions are valid for yellow peas (whole seeds) under the testedcircumstances.The research was performed independently by researchers from Wageningen Food & Biobased Research, funded by the Ministry of Agriculture, Nature and Food Safety by DFI- R&D budget, within the strategic WUR-KB theme of Healthy and Safe Food. en Wageningen Food & Biobased Research application/pdf https://research.wur.nl/en/publications/proteins-from-plant-based-biomass-effects-of-post-harvest-conditi-2 10.18174/550756 https://edepot.wur.nl/550756 Life Science (c) publisher Wageningen University & Research
institution WUR NL
collection DSpace
country Países bajos
countrycode NL
component Bibliográfico
access En linea
databasecode dig-wur-nl
tag biblioteca
region Europa del Oeste
libraryname WUR Library Netherlands
language English
topic Life Science
Life Science
spellingShingle Life Science
Life Science
de Wild, Hans
Mensink, Manon
Mocking, Helene
Nijenhuis, Mariska
El Harchioui, Najim
van Kekem, Kees
de Jong, Catrienus
Roland, Wibke
Woltering, Ernst
Hogeveen, Esther
Proteins from plant-based biomass: effects of post-harvest conditions on protein retention and quality : Part II Yellow pea
description Wageningen University & Research is looking for ways to increase the availability and diversity of proteins. Plant proteins are an attractive alternative to animal proteins. It is important to optimize the recovery methods of proteins from plant based biomass sources. This includes the need to study the effects of post-harvest conditions on the yield and quality of extracted proteins.There is also an increasing interest in pea as protein source. Therefore, the effects of post-harvest conditions were studied on protein yield and quality in dried yellow peas. The peas were stored under two different temperatures (12 and 40 °C) combined with three relative humidity (RH) levels (range 26 to 86% RH) during four different storage periods (1, 2, 4 and 6 weeks). This led to differences in moisture content after 6 weeks, ranging from 4.8% at high temperature in combination with low RH till 17.6% at low temperature in combination with high RH. Analyses were done on protein content, protein composition, glycation, hexanal and saponins.Glycation of pea proteins is relevant for the possible improvement of techno-functional properties,such as solubility and interfacial properties. Hexanal and saponins are relevant components in peas which may cause or indicate off-taste in extracted pea protein. The main results of this study are as follows:• Overall, there was no clear effect of storage condition (temperature, RH) and storage period on protein content, as shown by BCA assays.• Storage conditions and storage period did not affect protein quality in terms of protein composition, as shown by SDS page.• We found no evidence of an effect of storage on the off-flavour compound hexanal.• The relative levels of saponins were measured, but besides potentially small changes at40°C/85%RH, the storage conditions tested did not seem to have an influence on saponin content and composition.• We found differences in glycation between samples. However, the results were not consistent. Nevertheless, it is an interesting finding that glycation can be affected in some way.The described results and conclusions are valid for yellow peas (whole seeds) under the testedcircumstances.The research was performed independently by researchers from Wageningen Food & Biobased Research, funded by the Ministry of Agriculture, Nature and Food Safety by DFI- R&D budget, within the strategic WUR-KB theme of Healthy and Safe Food.
format External research report
topic_facet Life Science
author de Wild, Hans
Mensink, Manon
Mocking, Helene
Nijenhuis, Mariska
El Harchioui, Najim
van Kekem, Kees
de Jong, Catrienus
Roland, Wibke
Woltering, Ernst
Hogeveen, Esther
author_facet de Wild, Hans
Mensink, Manon
Mocking, Helene
Nijenhuis, Mariska
El Harchioui, Najim
van Kekem, Kees
de Jong, Catrienus
Roland, Wibke
Woltering, Ernst
Hogeveen, Esther
author_sort de Wild, Hans
title Proteins from plant-based biomass: effects of post-harvest conditions on protein retention and quality : Part II Yellow pea
title_short Proteins from plant-based biomass: effects of post-harvest conditions on protein retention and quality : Part II Yellow pea
title_full Proteins from plant-based biomass: effects of post-harvest conditions on protein retention and quality : Part II Yellow pea
title_fullStr Proteins from plant-based biomass: effects of post-harvest conditions on protein retention and quality : Part II Yellow pea
title_full_unstemmed Proteins from plant-based biomass: effects of post-harvest conditions on protein retention and quality : Part II Yellow pea
title_sort proteins from plant-based biomass: effects of post-harvest conditions on protein retention and quality : part ii yellow pea
publisher Wageningen Food & Biobased Research
url https://research.wur.nl/en/publications/proteins-from-plant-based-biomass-effects-of-post-harvest-conditi-2
work_keys_str_mv AT dewildhans proteinsfromplantbasedbiomasseffectsofpostharvestconditionsonproteinretentionandqualitypartiiyellowpea
AT mensinkmanon proteinsfromplantbasedbiomasseffectsofpostharvestconditionsonproteinretentionandqualitypartiiyellowpea
AT mockinghelene proteinsfromplantbasedbiomasseffectsofpostharvestconditionsonproteinretentionandqualitypartiiyellowpea
AT nijenhuismariska proteinsfromplantbasedbiomasseffectsofpostharvestconditionsonproteinretentionandqualitypartiiyellowpea
AT elharchiouinajim proteinsfromplantbasedbiomasseffectsofpostharvestconditionsonproteinretentionandqualitypartiiyellowpea
AT vankekemkees proteinsfromplantbasedbiomasseffectsofpostharvestconditionsonproteinretentionandqualitypartiiyellowpea
AT dejongcatrienus proteinsfromplantbasedbiomasseffectsofpostharvestconditionsonproteinretentionandqualitypartiiyellowpea
AT rolandwibke proteinsfromplantbasedbiomasseffectsofpostharvestconditionsonproteinretentionandqualitypartiiyellowpea
AT wolteringernst proteinsfromplantbasedbiomasseffectsofpostharvestconditionsonproteinretentionandqualitypartiiyellowpea
AT hogeveenesther proteinsfromplantbasedbiomasseffectsofpostharvestconditionsonproteinretentionandqualitypartiiyellowpea
_version_ 1819143278412431360

Similar Items