Kenneth S. Webb scite author profile

The results from an intercomparison of accurate mass measurement of a small molecule (molecular weight 475 Da) across a broad range of mass spectrometers are reported. The intercomparison was designed to evaluate the relative capabilities and the optimum methodology of the diverse range of mass spectrometers currently used to record accurate mass measurements. The data will be used as a basis for developing guidance on accurate mass measurement. The need for guidance has resulted from the continued growth in the use of accurate mass measurements for assignment of elemental formula in the chemical and biochemical industries. This has been fuelled by a number of factors and includes the rapid pace of instrument development, which has enabled accurate mass measurements to be made in a less costly, yet robust fashion. The data from the intercomparison will allow us to compare those protocols that produced excellent accuracy and precision with those that produced poorer accuracy and/or precision for each type of mass spectrometer. The key points for best practice will then be established from this comparison for each type of mass spectrometer and accurate mass measurement technique. A compound was sent to the participating laboratories (in the UK, Europe, and USA), the identity of which was not revealed. Each laboratory was asked to record a minimum of five repeat mass measurements of the molecular species using their local protocols and their preferred ionization technique or techniques. To the best of our knowledge there were no interfering (unresolved) ions that originated from the sample. A questionnaire was also completed with the experimental work. The information from the questionnaires was used to evaluate the protocols used to record the measurements. Forty-five laboratories have reported their results. To summarize the performance of mass spectrometers in the intercomparison, magnetic sector field mass spectrometers used in peak matching mode and FTMS reported the highest mean mass measurement accuracy (88 and 83%, respectively, achieved Յ1 ppm). Magnetic sector field mass spectrometers used in voltage scanning produced 60% of the mean mass measurements with accuracy Յ1 ppm. Magnetic sector field mass spectrometers used in magnet scanning modes, quadrupole-TOF and TOF instruments generally achieved mean mass measurement accuracy between 5 and 10 ppm. The two low resolution triple quadrupoles used in the inter-comparison produced mean mass measurement accuracy of Ͻ2 ppm. The precision of the data from each instrument and experiment type is an important consideration when evaluating their relative capabilities. Using both the precision and accuracy, it will be possible to define the uncertainty associated with the elemental formulae derived from accurate mass measurements. Therefore, a thorough statistical evaluation of the data is underway and will be presented in a subsequent publication. A ccurate mass measurement of small molecules is used to determine elemental formulae. The better the accuracy the less ...

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Reproducible product‐ion tandem mass spectra on various liquid chromatography/mass spectrometry instruments for the development of spectral libraries

Bristow¹,

Webb²,

Lubben

et al. 2004

Rapid Comm Mass Spectrometry

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The results of the comparison of product-ion tandem mass (MS/MS) spectra recorded on three ion trap mass spectrometers, a triple quadrupole mass spectrometer and a Fourier transform ion cyclotron resonance mass spectrometer are reported. The spectra were recorded in accordance with a simple experimental protocol, which involved the collision-induced dissociation (CID) attenuation of the abundance of the [M+H]+ ion to between 10 and 50% of its original abundance. The degree of similarity between the spectra from four of the mass spectrometers was calculated off-line by comparing the five most abundant ions from the spectrum on each instrument. A percentage fit value (20% for each ion that matches) was calculated by comparing each spectrum against the spectra recorded for the same compound on each instrument. The percentage of the inter-library pairwise comparisons (total = 434) that matched to > or = 60% ranged from 64-89%, depending on the instrument pair. A blind trial was also undertaken using five unknown compounds resulting in 1670 pairwise comparisons with the library entries. The blind trial produced no false positives and correct identifications in all cases. The results of the study have established the basis for the construction of a transferable product-ion MS/MS library.

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Quantitation of Oligonucleotides by Phosphodiesterase Digestion Followed by Isotope Dilution Mass Spectrometry: Proof of Concept

O’Connor¹,

Dawson²,

Woolford³

et al. 2002

Anal. Chem.

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The importance of DNA as a regulatory analyte is well-known. Recent years have seen an increased interest in the quantitation of this analyte. Accurate quantitative measurements have been hampered by the lack of well-characterized standards and pure materials for this large-molecular-weight analyte. Outlined here is an approach for the accurate and reproducible quantitation of an oligonucleotide that is solely reliant on the availability of pure, well-characterized deoxynucleotides and not a sequence-specific pure DNA standard. The proposed procedure is intended to provide an accurate and definitive method for the quantitation of DNA for reference measurements as an improved alternative to the more conventional UV absorbance-based methods. For proof of concept, a gravimetrically prepared oligonucleotide solution was enzymatically digested to its constituent monomer-deoxynucleotide monophosphates (dNMPs), of which there are four different types. Qualitative mass spectrometry was used to confirm the 100% successful completion of the enzymatic digestion step. The dNMPs were then separated by liquid chromatography (LC) before being detected by electrospray ionization (ESI) mass spectrometry (MS). The method of quantitation was based on isotope dilution mass spectrometry (IDMS) analysis of the four different monomer units. The concentrations of the four dNMP residues were then summed to obtain the original concentration of the oligonucleotide. The concentrations determined by liquid chromatography/mass spectrometry (LC/MS) and also by liquid chromatography-tandem mass spectrometry (LC/MS/MS) differed by <2.5 and 1%, respectively, from the gravimetrically assigned value. These differences were well within the uncertainty of the gravimetrically assigned value. This highly accurate method, suitable for the definitive quantitation of oligonucleotides, should be ideal for characterizing primary calibration standards and certified reference materials that can then be used to underpin the more conventional quantitative techniques of UV and fluorescence spectroscopy.

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Evaluation of protocols for reproducible electrospray in‐source collisionally induced dissociation on various liquid chromatography/mass spectrometry instruments and the development of spectral libraries

Bristow¹,

Nichols

Webb³

et al. 2002

Rapid Comm Mass Spectrometry

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Mass spectral libraries provide a tool for identifying unknown compounds using both molecular weight and fragmentation information. Mass spectrometers with electrospray ionisation (ESI) and atmospheric chemical ionisation (ApCI) sources have the capability to produce data of this type using in-source collisionally induced dissociation (CID), and in-source CID libraries can be created. Due to the variation in electrospray source design from different instrument manufacturers, the production of reproducible in-source CID spectra that can be used in libraries for all instrument types is not a trivial task. To date, the evaluation of the production of in-source CID libraries has tended to focus on similar instruments from one manufacturer. The studies have also tended to focus on specific compound classes, with a limited molecular weight range.This report describes the findings from the investigation of protocols for the creation of mass spectral libraries using ESI in-source CID on six instruments from four different manufacturers. The overall goal was to create a spectral library for the identification of unknowns. The library could then be applied across all manufacturers' electrospray instruments. Two different experimental protocols were attempted. The first used a tuning compound to establish standard ESI source conditions, with fixed fragmentation potentials. The second involved the attenuation of the [M + H](+) ion to a known degree. A diverse range of compounds (pharmaceutical, photographic, pesticides) was tested to establish the reproducibility of the spectra on the six instruments. Both protocols produced spectra on the various instruments that in many cases were very similar. In other examples, the spectra differed not only in their relative ion abundances, but also in terms of the spectral content. Important observations regarding the effect of ion source design are also reported. The degree of spectral reproducibility was calculated off-line by comparing the five most abundant ions (20% for each ion that matches) from each spectrum on each instrument. This approach was adopted, as we do not possess a software package that met our requirements for spectral comparison. Match factors (% fit) were calculated by comparing each spectrum against the spectra recorded for the same compound and then for all other compounds, on each instrument. The % fit values derived by the off-line approach gave a clear view of the spectral reproducibility from instrument to instrument and also discriminated the spectra of the various compounds from each other. The applicability of this approach was tested using a blind trial in which several compounds were presented as unknowns, their in-source CID spectra recorded and the five-ion approach used for identification.

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Poor reproducibility of in-source collisional atmospheric pressure ionization mass spectra of toxicologically relevant drugs

Bogusz

Maier

Krüger

et al. 1999

Journal of Chromatography A

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Kenneth S. Webb

Intercomparison study on accurate mass measurement of small molecules in mass spectrometry

Reproducible product‐ion tandem mass spectra on various liquid chromatography/mass spectrometry instruments for the development of spectral libraries

Quantitation of Oligonucleotides by Phosphodiesterase Digestion Followed by Isotope Dilution Mass Spectrometry: Proof of Concept

Evaluation of protocols for reproducible electrospray in‐source collisionally induced dissociation on various liquid chromatography/mass spectrometry instruments and the development of spectral libraries

Poor reproducibility of in-source collisional atmospheric pressure ionization mass spectra of toxicologically relevant drugs

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