Warren B. Potts scite author profile

Reversed-phase gradient UPLC-ESI-MS, in both positive and negative ionization modes, has been applied to the analysis of untreated bile obtained from bile-cannulated rats and dogs. The use of UPLC provided a high-resolution system that enabled global metabolite profiles of bile from the two species to be obtained that were suitable for metabolomic and metabonomic applications. When these metabolite profiles were analyzed using unsupervised multivariate statistical methods, based on principle components analysis (PCA), they were correctly classified by species of origin. Conventional approaches to characterizing sample components via, for example, mass and retention time compared to authentic standards resulted in the identification of a range of bile acids. In addition, the value of using an "MSE" approach to simplify the problem of classifying and identifying the metabolites present in the sample (as e.g., sulfates or taurine conjugates) was demonstrated.

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RNase H Cleavage of tRNAProMediated by M-MuLV and HIV-1 Reverse Transcriptases

Smith¹,

Potts²,

Smith³

et al. 1997

Virology

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RNA-DNA hybrid model substrates which mimic an intermediate of Moloney murine leukemia virus (M-MuLV) reverse transcription at the stage where the tRNAPro is removed were constructed. This substrate was used to assay the ability of M-MuLV reverse transcriptase (RT) to cleave the RNA portion of the substrate. The cleavage specificities of the cognate M-MuLV RT and the heterologous enzyme from the human immunodeficiency virus type-1 (HIV-1) were compared. M-MuLV and HIV-1 RT recognize and cleave the RNA at distinct positions. The site of the initial RNase H cleavage in vitro was determined using 3' end nearest neighbor analysis of the initial cleavage product. M-MuLV RT/RNase H removed the model tRNAPro between the terminal ribo-A and ribo-C, resulting in a terminal ribo-A attached to the viral DNA, whereas HIV-1 RT/RNase H was shown to cleave at the RNA-DNA junction. Analysis of the DNA over time indicated that the ribo-A is subsequently removed by M-MuLV RT. In vivo analysis from double-LTR circle junctions illustrated that 16 of the 23 clones isolated possessed the predicted junction if complete removal of the tRNA primer were to occur. The predicted junction for complete removal of the tRNA primer was CATT-AATG. One aberrant circle junction was isolated which could result from the use of an alternative primer. In contrast with HIV, no M-MuLV circle junctions were isolated which indicated processing of a single-LTR terminus by integrase. Analysis from in vivo and in vitro studies indicate that the M-MuLV tRNAPro primer is completely removed after plus-strand strong-stop synthesis.

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Addressing the analytical throughput challenges in ADME screening using rapid ultra‐performance liquid chromatography/tandem mass spectrometry methodologies

Plumb

Potts

Rainville

et al. 2008

Rapid Comm Mass Spectrometry

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High-throughput ADME screening for compound drug development properties has become an essential part of the modern drug discovery process, allowing more informed decisions to be made on the best compounds to take forward in the discovery/development process. This however is a time-consuming process requiring multiple tests to be performed, demanding a significant amount of liquid chromatography/mass spectrometry (LC/MS) instrument time. This article focuses on the use of sub-2 microm porous particle LC coupled to tandem quadrupole MS/MS mass spectrometry for the rapid screening of ADME properties. Using this approach analysis times from 30 s to 1 min were achievable allowing analysis times to be cut by 80%. The use of the small particles coupled to high flow rates allowed for sufficient resolution, even with very short analysis time, to resolve the analytes of interest from similar compounds that would interfere with the assay. The use of dedicated, intelligent, software packages allowed for the user-free generation of MS/MS conditions and the processing of the data.

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High‐temperature ultra‐performance liquid chromatography coupled to hybrid quadrupole time‐of‐flight mass spectrometry applied to ibuprofen metabolites in human urine

Plumb

Rainville

Potts

et al. 2007

Rapid Comm Mass Spectrometry

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The application of sub-2 microm porous particle liquid chromatography (LC) operated at elevated temperatures, coupled with time-of-flight mass spectrometry (MS), to the separation and identification of metabolites of ibuprofen present in human urine following oral administrations is illustrated. The LC/MS system generated a high-resolution analytical separation that, with an analysis time of 20 min, provided a peak capacity in the order of ca. 350. Using this system a total of nine glucuronides of the drug and its metabolites were detected, including a number of isomeric acyl glucuronides of ibuprofen itself, a side-chain-oxidized carboxylic acid acyl glucuronide and a number of acyl glucuronides of various hydroxylated metabolites. The identities of the metabolites were confirmed by their accurate mass values and the presence of the common fragment ions from ibuprofen.

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Warren B. Potts

Application of Ultra Performance Liquid Chromatography−Mass Spectrometry to Profiling Rat and Dog Bile

RNase H Cleavage of tRNAProMediated by M-MuLV and HIV-1 Reverse Transcriptases

Addressing the analytical throughput challenges in ADME screening using rapid ultra‐performance liquid chromatography/tandem mass spectrometry methodologies

High‐temperature ultra‐performance liquid chromatography coupled to hybrid quadrupole time‐of‐flight mass spectrometry applied to ibuprofen metabolites in human urine

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