Peter Dawes scite author profile

Negative ion nano-liquid chromatography/mass spectrometry (nano-LC/MS) and tandem mass spectrometry (nano-LC/MS(2)), using graphitised carbon as separating medium, were explored for analysing neutral and acidic O-linked and N-linked oligosaccharide alditols. Compared to the sensitivity of capillary LC/MS (flow rate of 6 microL/min) coupled with a conventional electrospray ionisation source, the nano-LC/MS (flow rate of 0.6 microL/min) with a nanoflow ion source was shown to increase the sensitivity ten-fold with a detection limit in the low-femtomole range. The absolute signals for the [M-nH](n-) ions of the oligosaccharides were increased 100-fold, enabling accumulation of high-quality fragmentation data in MS(2) mode, in which detection of low abundant sequence ions is necessary for characterisation of highly sialylated N-linked oligosaccharides. Oligosaccharides with high numbers of sialic acid residues gave dominant fragments arising from the loss of sialic acid, and less abundant fragments from cleavage of other glycosidic bonds. Enzymatic off-line desialylation of oligosaccharides in the low-femtomole range prior to MS(2) analysis was shown to increase the quality of the spectra. Automated glycofragment mass fingerprinting using the GlycosidIQ software confirmed the oligosaccharide sequence for both neutral desialylated as well as sialylated structures. Furthermore, the use of graphitised carbon nano-LC/MS enabled the detection of four sialylated O-linked oligosaccharides on membrane proteins from ovarian tissue (5 microg of total amount of protein).

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Design and Implementation of Comprehensive Gas Chromatography with Cryogenic Modulation

Kinghorn

Marriott

Dawes

2000

J. High Resol. Chromatogr.

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Development of Needle Trap Technology for On-Site Determinations: Active and Passive Sampling

et al. 2014

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17This study presents a thorough evaluation of new prototypes of extended tip needle trap devices 18 (NT), as well as their application to in situ sampling of biological emissions and active/passive 19 on-site sampling of indoor air. A new NT prototype was constructed with a side hole above the 20 sorbent and an extended tip that fits inside the restriction of the narrow neck liner to increase 21 desorption efficiency.New prototype needles were initially packed with divinylbenzene particles 22 at SGE Analytical Science for the purpose of studying biogenic emissions of pine trees. Prior to 23 their final application, they were evaluated in terms of robustness after multiple use (n ˃ 10), as 24 well as amount extracted of volatile organic compounds (VOCs). An ANOVA test for all the 25 probes showed that at a 95 % level of confidence, there were not statistical differences observed 26 among the 9 NTs tested. In addition, the needles were also packed in laboratory with synthesized 27 highly cross linked PDMS as a frit to immobilize carboxen (Car) particles for spot sampling.

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A simplified approach to direct SPE‐MS

Candish

Gooley

Wirth³

et al. 2012

J of Separation Science

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Microextraction by packed sorbent (MEPS) has been directly hyphenated with ESI-MS for the rapid screening of opiates and codeine metabolites in urine. This study introduces a novel format of MEPS that incorporates a two-way valve in the barrel of the syringe enabling the direction of liquid flow to be manipulated. Controlled directional flow (CDF) MEPS allows sharp, concentrated sample bands to be delivered directly to the MS in small volumes and effectively eliminates the need to optimize elution. The method optimization assessed the recovery, matrix effects, and the speed of infusion, all critical variables for optimum ESI performance. Matching extraction workflows demonstrated a reduction in carryover from 65% for conventional MEPS to only 1% for CDF MEPS. The recovery (<89% for 50 μL sample), matrix effects (<42%), linearity (r(2) > 0.99), and LODs (<5 ng/mL) were determined to demonstrate method performance. The optimized approach was employed for the screening of codeine metabolites in urine. The ion trace revealed sharp sample bands corresponding to the codeine metabolites. At-line MEPS-ESI-MS allowed both sample preparation and analysis to be completed in only 5 min facilitating high throughput and alleviating the burden of method development.

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Design and Implementation of Comprehensive Gas Chromatography with Cryogenic Modulation

Kinghorn

Marriott

Dawes

2000

J. High Resol. Chromatogr.

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Peter Dawes

Negative ion graphitised carbon nano‐liquid chromatography/mass spectrometry increases sensitivity for glycoprotein oligosaccharide analysis

Design and Implementation of Comprehensive Gas Chromatography with Cryogenic Modulation

Development of Needle Trap Technology for On-Site Determinations: Active and Passive Sampling

A simplified approach to direct SPE‐MS

Design and Implementation of Comprehensive Gas Chromatography with Cryogenic Modulation

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