Luke T. Tolley scite author profile

A very high pressure liquid chromatography (VHPLC) system was constructed by modifying a commercially available pump in order to achieve pressures in excess of 1,200 bar (17,500 psi). A computer-controlled low-pressure mixer was used to generate solvent gradients. Protein digests were rapidly analyzed by reversed-phase VHPLC with linear solvent gradients coupled to either a tandem mass spectrometer using electrospray ionization or a UV/visible detector. The separations were performed at pressures ranging from 790 (11,500 psi) to 930 bar (13,500 psi) in 22-cm-long capillary columns packed with C18-modified 1.5-microm nonporous silica particles. A digest of bovine serum albumin (BSA) was analyzed by the VHPLC system connected to a mass spectrometer in MS mode. An analysis of 12.5 fmol of sample gave signal-to-noise ratios of tryptic peaks greater than 10:1 in the base peak plot mass chromatogram. This system was also used to analyze a proteolytic digest of a rat liver protein excised from a 2-D gel separation of a liver tissue lysate. For this analysis, the mass spectrometer was set up to perform data-dependent scanning (automated switching from MS mode to MS/MS mode when a peak was detected) for peptide sequencing and protein identification by database searching. The results of this analysis are compared to an analysis performed on the same sample using the nanoelectrospray-MS/MS technique. Though both techniques were able to identify the unknown protein, the VHPLC method gave twice as many sequenced peptides as nanoelectrospray and improved the signal-to-noise ratio of the spectra by at least a factor of 10. Direct comparisons with nanoelectrospray for MS and MS/MS data acquisition from a BSA digest were made. These comparisons show enhancements of greater than 20-fold for VHPLC over nanoelectrospray. In addition, the VHPLC/MS/MS data acquisition was accomplished in an automated manner.

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Hand-portable liquid chromatographic instrumentation

Sharma

Tolley

et al. 2015

Journal of Chromatography A

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Portable capillary liquid chromatography for pharmaceutical and illicit drug analysis

Foster

Xie

Pham

et al. 2020

J of Separation Science

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A newly developed portable capillary liquid chromatograph was investigated for the separation of various pharmaceutical and illicit drug compounds. The system consists of two high‐pressure syringe pumps capable of delivering capillary‐scale flow rates at pressures up to 10 000 psi. Capillary liquid chromatography columns packed with sub‐2 μm particles are housed in cartridges that can be inserted into the system and easily connected through high‐pressure fluidic contact points by simply applying a specific, predetermined torque rather than using standard fittings and less precise sealing protocols. Several over‐the‐counter analgesic drug separations are demonstrated, along with a simple online measurement of tablet dissolution. Twenty illicit drug compounds were also separated across six targeted drug panels. The results described in this study demonstrate the capability of this compact liquid chromatography instrument to address several important drug‐related applications while simplifying system operation, and greatly reducing solvent usage and waste generation essential for onsite analysis.

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Expanded electrical model of a contactless conductivity detector: Development and verification

Johnston

Fadgen

Tolley

et al. 2005

Journal of Chromatography A

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Dual-wavelength light-emitting diode-based ultraviolet absorption detector for nano-flow capillary liquid chromatography

Xie

Tolley²,

Truong

et al. 2017

Journal of Chromatography A

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Luke T. Tolley

Very High Pressure Gradient LC/MS/MS

Hand-portable liquid chromatographic instrumentation

Portable capillary liquid chromatography for pharmaceutical and illicit drug analysis

Expanded electrical model of a contactless conductivity detector: Development and verification

Dual-wavelength light-emitting diode-based ultraviolet absorption detector for nano-flow capillary liquid chromatography

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