TY  - JOUR
A1  - Huschek, Gerd
A1  - Bönick, Josephine
A1  - Merkel, Dietrich
A1  - Huschek, Doreen
A1  - Rawel, Harshadrai Manilal
T1  - Authentication of leguminous-based products by targeted biomarkers using high resolution time of flight mass spectrometry
JF  - LWT - food science and technology : an official journal of the Swiss Society of Food Science and Technology (SGLWT/SOSSTA) and the International Union of Food Science and Technology (IUFoST)
N2  - A growing number of health-conscious individuals supplements their diet with protein-rich plant-based products to reduce their meat consumption. Analytical methods are needed to authenticate these new vegetarian products not only for the correct labelling of ingredients according to European legislation but also to discourage food fraud. This paper presents new biomarkers for a targeted proteomics LC-MS/MS work-flow that can simultaneously prove the presence/absence of garden pea, a protein-rich legume, meat and honey and quantify their content in processed vegan food. We show a novel rapid strategy to identify biomarkers for species authentication and the steps for the multi-parameter LC-MS/MS method validation and quantification. A high resolution triple time of flight mass spectrometer (HRMS) with SWATH Acquisition was used for the rapid discovery of all measurable trypsin-digested proteins in the individual ingredients. From these proteins, species-selective biomarkers were identified with BLAST and Skyline. Vicilin and convicilin (UniProt: D3VND9, Q9M3X6) allow pea authentication with regard to other legume species. Myostatin (UniProt: 018831) is a single biomarker for all meat types. For honey, we identified three selective proteins (UniProt: C6K481, C6K482, Q3L6329). The final LC-MS/MS method can identity and quantify these markers simultaneously. Quantification occurs via external matrix calibration.
KW  - Vegan
KW  - Food authentication
KW  - Legume
KW  - Honey
KW  - Meat peptide biomarker
KW  - MS quantification of leguminous additives
KW  - Food labelling
Y1  - 2018
U6  - https://doi.org/10.1016/j.lwt.2017.12.034
SN  - 0023-6438
SN  - 1096-1127
VL  - 90
SP  - 164
EP  - 171
PB  - Elsevier
CY  - Amsterdam
ER  - 
TY  - GEN
A1  - Baldermann, Susanne
A1  - Homann, Thomas
A1  - Neugart, Susanne
A1  - Chmielewski, Frank M.
A1  - Götz, Klaus-Peter
A1  - Gödeke, Kristin
A1  - Huschek, Gerd
A1  - Morlock, Gertrud E.
A1  - Rawel, Harshadrai Manilal
T1  - Selected Plant Metabolites Involved in Oxidation-Reduction Processes during Bud Dormancy and Ontogenetic Development in Sweet Cherry Buds (Prunus avium L.)
T2  - Molecules
N2  - Many biochemical processes are involved in regulating the consecutive transition of different phases of dormancy in sweet cherry buds. An evaluation based on a metabolic approach has, as yet, only been partly addressed. The aim of this work, therefore, was to determine which plant metabolites could serve as biomarkers for the different transitions in sweet cherry buds. The focus here was on those metabolites involved in oxidation-reduction processes during bud dormancy, as determined by targeted and untargeted mass spectrometry-based methods. The metabolites addressed included phenolic compounds, ascorbate/dehydroascorbate, reducing sugars, carotenoids and chlorophylls. The results demonstrate that the content of phenolic compounds decrease until the end of endodormancy. After a long period of constancy until the end of ecodormancy, a final phase of further decrease followed up to the phenophase open cluster. The main phenolic compounds were caffeoylquinic acids, coumaroylquinic acids and catechins, as well as quercetin and kaempferol derivatives. The data also support the protective role of ascorbate and glutathione in the para- and endodormancy phases. Consistent trends in the content of reducing sugars can be elucidated for the different phenophases of dormancy, too. The untargeted approach with principle component analysis (PCA) clearly differentiates the different timings of dormancy giving further valuable information.
T3  - Zweitveröffentlichungen der Universität Potsdam : Mathematisch-Naturwissenschaftliche Reihe - 467 
KW  - dormancy
KW  - redox-metabolites
KW  - phenolics
KW  - ascorbate
KW  - anti-oxidative capacity
KW  - Prunus avium L.
KW  - flower buds
Y1  - 2018
U6  - http://nbn-resolving.de/urn/resolver.pl?urn:nbn:de:kobv:517-opus4-417442
ER  - 
TY  - JOUR
A1  - Baldermann, Susanne
A1  - Homann, Thomas
A1  - Neugart, Susanne
A1  - Chmielewski, Frank M.
A1  - Götz, Klaus-Peter
A1  - Gödeke, Kristin
A1  - Huschek, Gerd
A1  - Morlock, Gertrud E.
A1  - Rawel, Harshadrai Manilal
T1  - Selected Plant Metabolites Involved in Oxidation-Reduction Processes during Bud Dormancy and Ontogenetic Development in Sweet Cherry Buds (Prunus avium L.)
JF  - Molecules
N2  - Many biochemical processes are involved in regulating the consecutive transition of different phases of dormancy in sweet cherry buds. An evaluation based on a metabolic approach has, as yet, only been partly addressed. The aim of this work, therefore, was to determine which plant metabolites could serve as biomarkers for the different transitions in sweet cherry buds. The focus here was on those metabolites involved in oxidation-reduction processes during bud dormancy, as determined by targeted and untargeted mass spectrometry-based methods. The metabolites addressed included phenolic compounds, ascorbate/dehydroascorbate, reducing sugars, carotenoids and chlorophylls. The results demonstrate that the content of phenolic compounds decrease until the end of endodormancy. After a long period of constancy until the end of ecodormancy, a final phase of further decrease followed up to the phenophase open cluster. The main phenolic compounds were caffeoylquinic acids, coumaroylquinic acids and catechins, as well as quercetin and kaempferol derivatives. The data also support the protective role of ascorbate and glutathione in the para- and endodormancy phases. Consistent trends in the content of reducing sugars can be elucidated for the different phenophases of dormancy, too. The untargeted approach with principle component analysis (PCA) clearly differentiates the different timings of dormancy giving further valuable information.
KW  - dormancy
KW  - redox-metabolites
KW  - phenolics
KW  - ascorbate
KW  - anti-oxidative capacity
KW  - Prunus avium L.
KW  - flower buds
Y1  - 2018
U6  - https://doi.org/10.3390/molecules23051197
SN  - 1420-3049
VL  - 23
IS  - 5
SP  - 1
EP  - 19
PB  - Molecular Diversity Preservation International
CY  - Basel
ER  -