Accurate Determination of Reference Materials and Natural Isolates by Means of Quantitative <sup>1</sup>H NMR Spectroscopy

Frank, Oliver; Kreißl, Johanna; Daschner, Andreas; Hofmann, Thomas

doi:10.1021/jf405529b

Cited by 131 publications

(247 citation statements)

References 33 publications

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“…The synthetic peptides subsequently quantified (Table 5 and Figure S11 to S14) showed that compound 13 contained of 21 % of analysed sample, compound 14 contained 34 % of the peptide while 15 and 16 contained 19 % and 33 % of the total solid of the analysed samples respectively. Given the high purity of compounds 13-16 we suggest that the low percentage of compound per total mass of powder can be attributed to significant retention of water during the freeze-drying process, which is supported by a large water peak (~ 3.3 ppm) in the NMR spectra ( Figure S11-14) similar to the finding of Frank et al 72 analytical data presented shows that the actual quantity compounds were under estimated in the preparation of the stock solution. …”

Section: Peptide Quantification By Nmrsupporting

confidence: 74%

Accurate quantification of modified cyclic peptides without the need for authentic standards

et al. 2016

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There is a growing interest in the use of cyclic peptides as therapeutics, but their efficient production is often the bottleneck in taking them forward in the development pipeline. We have recently developed a method to synthesise azole-containing cyclic peptides using enzymes derived from different cyanobactin biosynthetic pathways. Accurate quantification is crucial for calculation of the reaction yield and for the downstream biological testing of the products. In this study, we demonstrate the development and validation of two methods to accurately quantify these compounds in the reaction mixture and after purification. The first method involves the use of a HPLC coupled in parallel to an ESMS and an ICPMS, hence correlating the calculated sulfur content to the amount of cyclic peptide. The second method is an NMR ERETIC method for quantifying the solution concentration of cyclic peptides. These methods make the quantification of new compounds much easier as there is no need for the use of authentic standards when they are not available.

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Section: Peptide Quantification By Nmrsupporting

confidence: 74%

Accurate quantification of modified cyclic peptides without the need for authentic standards

et al. 2016

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“…Nuclear magnetic resonance (NMR) spectroscopy is a powerful tool for the purpose of quantitative analysis because of the direct proportionality of signal intensity to the number of resonating nuclei and has found many applications in analytical chemistry [1][2][3][4][5]. Usually quantification is provided using a signal from a chemical reference standard added to the sample (internal referencing).…”

Section: Introductionmentioning

confidence: 99%

Determination of the purity of pharmaceutical reference materials by 1 H NMR using the standardless PULCON methodology

Monakhova

Kohl-Himmelseher

Kuballa

et al. 2014

Journal of Pharmaceutical and Biomedical Analysis

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“…Therefore, nowadays, determination of the exact concentration of the isotopically labled internal standards can best be achieved by means of quantitative NMR spectroscopy (q NMR) [31].…”

Section: Analytical Techniques Used To Characterize Stress Induced Mementioning

confidence: 99%

Functional Metabolomics – a Useful Tool to Characterize Stress-Induced Metabolome Alterations Opening New Avenues Towards Tailoring Food Crop Quality

Dawid¹,

Hille²

2018

Preprint

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The breeding of stress-tolerant cultivated plants that would allow for a reduction in harvest losses and undesirable decrease in quality attributes requires a new quality of knowledge on molecular markers associated with relevant agronomic traits, on quantitative metabolic responses of plants on stress challenges, and on the mechanisms controlling the biosynthesis of these molecules. By combining metabolomics with genomics, transcriptomics and proteomics datasets a more comprehensive knowledge of the composition of crop plants used for food or animal feed is possible. In order to optimize crop trait developments, to enhance crop yields and quality, as well as to guarantee nutritional and health factors, that provides the possibility to create functional food or feedstuffs, the knowledge about the plants' metabolome is crucial. Next to classical metabolomics studies, this review focusses on several metabolomics based working techniques, such as sensomics, lipidomics, hormonomics and phytometabolomics, which were used to characterize metabolome alterations during abiotic and biotic stress, to find resistant food crops with a preferred quality or at least to produce functional food crops are highlighted.Keywords: Plant stress, abiotic stress, biotic stress, metabolomics, phytometabolomics, sensomics, phytohormonics, LC-MS/MS, NMR, targeted metabolomics, untargeted metabolomics, functional food. Importance of metabolomics for agricultural researchIn their environment plants are often exposed to an enormous number of biotic and abiotic stress factors, such as pathogen and insect infestation as well as extreme temperatures, drought, salinity, pollutants, heavy metals or nutritional deficiencies, that lead to harvest or quality losses, such as the formation of a pronounced bitter off-flavor, and sometimes causes toxicological problems as well as huge global economic losses [1]. The breeding of stress-tolerant cultivated plants that would allow for a reduction in harvest losses and undesirable decrease in quality attributes requires a new quality of knowledge on molecular markers associated with relevant agronomic traits, on quantitative metabolic responses of plants on stress challenges, and on the mechanisms controlling the biosynthesis of these molecules. Thereby, the knowledge of the biologically active metabolites, especially, secondary metabolites as well as metabolic networks of primary and secondary metabolites that were affected upon plant stress conditions are inalienable. For a long time, primary and also secondary metabolites were simply considered as one of the end-products of gene expression and protein activity. Nowadays, it is increasingly accepted that lowmolecular weight molecules modulate macromolecular processes through, e. g. feedback inhibitionand by signaling phytohormons [8]. Therefore, Dixon et al. [8] conclude that, metabolomic studies are "intended to provide an integrated view of the functional status of an organism".Although for a single plant like Arabidosis thaliana no more than ...

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Accurate Determination of Reference Materials and Natural Isolates by Means of Quantitative ¹H NMR Spectroscopy

Cited by 131 publications

References 33 publications

Accurate quantification of modified cyclic peptides without the need for authentic standards

Accurate quantification of modified cyclic peptides without the need for authentic standards

Determination of the purity of pharmaceutical reference materials by 1 H NMR using the standardless PULCON methodology

Functional Metabolomics – a Useful Tool to Characterize Stress-Induced Metabolome Alterations Opening New Avenues Towards Tailoring Food Crop Quality

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Accurate Determination of Reference Materials and Natural Isolates by Means of Quantitative 1H NMR Spectroscopy

Cited by 131 publications

References 33 publications

Accurate quantification of modified cyclic peptides without the need for authentic standards

Accurate quantification of modified cyclic peptides without the need for authentic standards

Determination of the purity of pharmaceutical reference materials by 1 H NMR using the standardless PULCON methodology

Functional Metabolomics &ndash; a Useful Tool to Characterize Stress-Induced Metabolome Alterations Opening New Avenues Towards Tailoring Food Crop Quality

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Accurate Determination of Reference Materials and Natural Isolates by Means of Quantitative ¹H NMR Spectroscopy

Functional Metabolomics – a Useful Tool to Characterize Stress-Induced Metabolome Alterations Opening New Avenues Towards Tailoring Food Crop Quality