Key comparison study on peptide purity—synthetic human C-peptide

Josephs, R D; Li, M; Song, Di; Westwood, Steven; Stoppacher, Norbert; Daireaux, Adeline; Choteau, Tiphaine; Wielgosz, Robert; Xiao, Peng; Liu, Y; Gao, Xiang; Zhang, C; Zhang, T; Mi, Wu; Quan, Clifford; Huang, Tyng-Shyan; Li, H; Flatschart, Roberto Becht; Oliveira, Rosana; Ohlendorf, Rüdiger; Henrion, André; Kinumi, T; Wong, Lilian L. L.; Liu, Q; Öztug, Merve; Vatansever, Bilgin; Ün, İlker; Gören, A C; Akgöz, Müslüm; Quaglia, Milena; Warren, J

doi:10.1088/0026-1394/54/1a/08007

Cited by 19 publications

(19 citation statements)

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“…The PAWG has decided in April 2016 to use the TFA mass fraction and corresponding combined uncertainty of 57.1 ± 1.9 mg/g obtained by the NIM by ion chromatography for the calculation of the key comparison reference value for the mass fraction of hCP. The TFA mass fraction value obtained by the NIM in CCQM-K115 has been confirmed by the NRC through qNMR in CCQM-P55.2 [20].…”

Section: / 28mentioning

confidence: 56%

“…Sorption balance measurements indicated that weighings of the CCQM-K115/P55.2 comparison material need to be performed under controlled conditions of temperature and relative humidity (RH) as the water content of the comparison material changes reversibly as a function of the RH. A full summary of the results for hCP mass fraction and of the methods used to investigate, assign and confirm the composition of the CCQM-K115/P55.2 candidate material and to demonstrate the fitness for purpose of the homogeneity, stability and reversible water adsorption/desorption of the material are given in detail in the CCQM-K115 Draft B Report [20].…”

Section: Homogeneity and Stability Studies And Sorption Measurementsmentioning

confidence: 99%

“…In addition, the BIPM and NIM, China who employed a mass balance (summation of impurities) procedure to determine the hCP content were required to report the combined mass fraction assignment and corresponding uncertainty for the sub-classes of total related peptide impurities, water, total residual organic solvent / volatile organic compounds (VOCs) and total non-volatile organics & inorganics. Details are provided in the CCQM-K115 Draft B Report [20].…”

Section: Quantities and Unitsmentioning

confidence: 99%

“…The major shortcoming is the peptide related impurities (PepImp) identification and quantification as described in detail in the CCQM-K115 Draft B Report [20]. In many cases, only a very small number of impurities have been identified/quantified resulting in an underestimation of the peptide related impurity mass fractions and consequently in an overestimation of the mass fraction value for hCP.…”

Section: / 28mentioning

confidence: 99%

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Pilot study on peptide purity—synthetic human C-peptide

Josephs

Song

et al. 2017

Metrologia

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Under the auspices of the Protein Analysis Working Group (PAWG) of the Comité Consultatif pour la Quantité de Matière (CCQM) a pilot study, CCQM-P55.2, was coordinated by the Bureau International des Poids et Mesures (BIPM) and the Chinese National Institute of Metrology (NIM). Four Metrology Institutes or Designated Institutes and the BIPM participated. Participants were required to assign the mass fraction of human C-peptide (hCP) present as the main component in the comparison sample for CCQM-P55.2. The comparison samples were prepared from synthetic human hCP purchased from a commercial supplier and used as provided without further treatment or purification. hCP was selected to be representative of the performance of a laboratory's measurement capability for the purity assignment of short (up to 5 kDa), non-cross-linked synthetic peptides/proteins. It was anticipated to provide an analytical measurement challenge representative for the value-assignment of compounds of broadly similar structural characteristics. The majority of participants used a quantitative nuclear magnetic resonance spectroscopy (qNMR) corrected for peptide impurities. Other participants provided results obtained by peptide impurity corrected amino acid analysis (PICAA) or elemental analysis (PICCHN). It was decided to assign reference values based on the KCRVs of CCQM-K115 for both the hCP mass fraction and the mass fraction of the peptide related impurities as indispensable contributor regardless of the use of PICAA, mass balance or any other approach to determine the hCP purity. This allowed participants to demonstrate the efficacy of their implementation of the approaches used to determine the hCP mass fraction. In particular it allows participants to demonstrate the efficacy of their implementation of peptide related impurity identification and quantification. The assessment of the mass fraction of peptide impurities is based on the assumption that only the most exhaustive and elaborate set of results is taken for the calculation of the reference value. The reference value for the peptide related impurity mass fractions of the material was 83.3 mg/g with a combined standard uncertainty of 1.5 mg/g. Inspection of the degree of equivalence plots for the mass fraction of peptide impurities and additional information obtained from the peptide related impurity profile indicates that in many cases only a very small number of impurities have been identified and quantified resulting in an underestimation of the peptide related impurity mass fractions. The reference value for the mass fraction of hCP for CCQM-KP55.2 is 801.8 mg/g with a corresponding combined standard uncertainty of 3.1 mg/g. Inspection of the degree of equivalence plots for CCQM-P55.2 for the mass fraction of hCP shows that three results agree with the reference value. Main text To reach the main text of this paper, click on Final Report. The final report has been peer-reviewed and approved for publication by the CCQM.

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Section: / 28mentioning

confidence: 56%

Section: Homogeneity and Stability Studies And Sorption Measurementsmentioning

confidence: 99%

Section: Quantities and Unitsmentioning

confidence: 99%

Section: / 28mentioning

confidence: 99%

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Pilot study on peptide purity—synthetic human C-peptide

Josephs

Song

et al. 2017

Metrologia

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“…Despite the high performance of this method, it requires a relatively large amount of peptide sample per analysis (typically 1-10 mg) [7], which generally cannot be recycled once in deuterated solvent containing the calibrant. This sample requirement is particularly detrimental when a large number of related peptide impurities are acquired that need purity assigned prior to use as quantitative standards for measuring these impurities by mass spectrometry in a peptide reference material [9][10][11]. The cost of these custom synthesized peptides can be very high, especially in the case of isotopically labelled peptides, even for quantities such as 10 mg.…”

Section: Introductionmentioning

confidence: 99%

Metrologically traceable quantification of trifluoroacetic acid content in peptide reference materials by¹⁹F solid-state NMR

Brinkmann

Raza

2019

Metrologia

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Although solution-state NMR is frequently used in metrologically-traceable quantification studies, this is not the case for solid-state NMR. However, solid-state NMR allows quantification of substances without the need of dissolution, providing a truly non-destructive approach, and extending metrologically-traceable quantitative NMR to sample classes that are difficult to characterize in solution. In this contribution we present a thorough and rigorous protocol for 19 F quantitative solid-state NMR employing a certified reference material as external calibrant to provide metrological traceability to absolutely quantify the content of trifluoroacetic acid (TFA) in a peptide sample, typically the major impurity in synthetic peptides. The protocol includes determining the quantitative volume of the solid-state NMR sample holder (rotor), the ERETIC (electronic reference to access in vivo concentrations) method (Akoka et al 1999 Anal. Chem. 71 2554) to compensate for variations in the sensitivity of the radio frequency resonant circuit when an external calibrant is used, and the EASY (elimination of artefacts in NMR spectroscopy) method (Jaeger and Hemmann 2014 Solid State Nucl. Magn. Reson. 57-58 22) to effectively suppress the 19 F NMR background signal from the probe head. We applied the protocol to quantify the amount of TFA in a candidate NRC certified reference material of the peptide angiotensin II. The results obtained by 19 F quantitative solid-state NMR are in excellent agreement with those obtained by quantitative NMR in solution employing an internal calibrant.

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Peptide purity assignment for antibody quantification by combining isotope dilution mass spectrometry and liquid chromatography

Lee

2022

Bulletin Korean Chem Soc

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Peptide purity assignment is necessary for quantification of antibody. Recently, isotope dilution mass spectrometry (IDMS) has been proposed as a primary method for an accurate antibody measurement with traceability. When using the IDMS method, antibodies are measured using their signature peptide as the calibration standard. Therefore, the purity assignments of their signature peptide are essential for the standardization and harmonization of the antibody measurement. In this study, SI‐traceable purity assignments of the signature peptides of an antibody were investigated by combining the IDMS and high performance liquid chromatography (HPLC) method. The final purity was calculated from the mass fraction of the total peptide determined by IDMS and the relative fraction of the target peptide determined by HPLC. The uncertainty was evaluated within the 95% confidence range. These peptides with the certified purity value can also be used for the quantification of antibodies for SARS‐CoV‐2.

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Key comparison study on peptide purity—synthetic human C-peptide

Cited by 19 publications

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Pilot study on peptide purity—synthetic human C-peptide

Pilot study on peptide purity—synthetic human C-peptide

Metrologically traceable quantification of trifluoroacetic acid content in peptide reference materials by¹⁹F solid-state NMR

Peptide purity assignment for antibody quantification by combining isotope dilution mass spectrometry and liquid chromatography

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Key comparison study on peptide purity—synthetic human C-peptide

Cited by 19 publications

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Pilot study on peptide purity—synthetic human C-peptide

Pilot study on peptide purity—synthetic human C-peptide

Metrologically traceable quantification of trifluoroacetic acid content in peptide reference materials by19F solid-state NMR

Peptide purity assignment for antibody quantification by combining isotope dilution mass spectrometry and liquid chromatography

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Product

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Metrologically traceable quantification of trifluoroacetic acid content in peptide reference materials by¹⁹F solid-state NMR