Your search keyword '"Brian M. Balgley"' showing total 7 results

1. Evaluation of Archival Time on Shotgun Proteomics of Formalin-Fixed and Paraffin-Embedded Tissues

Author

Tong Guo, Cheng S. Lee, Brian M. Balgley, Xueping Fang, Fattaneh A. Tavassoli, and Kejia Zhao

Subjects

Proteomics, Genital Neoplasms, Female, Shotgun, Computational biology, Biology, Biochemistry, Article, Formaldehyde, Alveolar soft part sarcoma, Biomarkers, Tumor, medicine, Cluster Analysis, Humans, Shotgun proteomics, Biological Specimen Banks, Paraffin Embedding, General Chemistry, medicine.disease, Molecular biology, Proteome, Immunohistochemistry, Female, Sarcoma, Peptides

Abstract

There is increasing acceptance of the critical importance of correlating the morphologic features of tissue with the data obtained from various molecular analytic techniques. Access to archived formalin-fixed and paraffin-embedded (FFPE) tissue specimens via shotgun-based proteomic analyses may, therefore, open new avenues for both prospective and retrospective translational research. However, one of the remaining issues in performing comparative proteomic measurements among FFPE tissues relates to potential variability in protein composition and retrieval based on length of storage periods. Optimized protein extraction and digestion procedures for handling FFPE tissues are coupled with the capillary isotachophoresis-based proteome technology to evaluate the effects of length of storage period on archival tissue proteome analysis across 10 archived uterine mesenchymal tumor tissue blocks, including 9 uterine leiomyomas dating from 1990 to 2002 and a single case of alveolar soft part sarcoma (ASPS) from 1980. Several statistical measures, including the Pearson correlation coefficient, coefficient of variance, k-means clustering, and ANOVA, are employed to evaluate the possibility of an archival effect on individual proteins or groups of proteins within nine leiomyomas. Low abundance proteins may be more susceptible to the long-term storage as these proteins are more difficult to be retrieved and extracted as the tissue block ages in paraffin. Despite using tissue blocks stored for as many as 28 years, high confidence and comparative proteome analysis between the leiomyomas and the sarcoma is achieved. Though sharing over 1800 common proteins in a core set, a total of 80 proteins unique to the sarcoma are identified distinguishing the ASPS from the leiomyomas. Vacuolar proton translocating ATPase 116 kDa subunit isoform a3, one of the unique proteins expressed in the ASPS, is further validated by immunohistochemistry (IHC). Although IHC is highly sensitive and provides the subcellular resolution, mass spectrometry-based proteome profiling enables global identification and quantification of thousands of proteins without a priori knowledge of individual proteins being analyzed or the need of validated antibodies.

Published

2009

2. Antigen retrieval for proteomic characterization of formalin-fixed and paraffin-embedded tissues

Author

Cheng S. Lee, Ying Liu, Xueping Fang, Li Yang, Clive R. Taylor, Shan-Rong Shi, Cheng Liu, Weijie Wang, Haifeng Xu, and Brian M. Balgley

Subjects

Proteomics, Paraffin Embedding, Cluster of differentiation, Isoelectric focusing, Electrophoresis, Capillary, Shotgun, General Chemistry, Computational biology, Biology, Biochemistry, Molecular biology, chemistry.chemical_compound, Antigen retrieval, chemistry, Formaldehyde, Proteome, Immunohistochemistry, Humans, Antigens, Shotgun proteomics

Abstract

Formalin-fixed and paraffin-embedded tissues represent the vast majority of archived tissue. Access to such tissue specimens via shotgun-based proteomic analyses may open new avenues for both prospective and retrospective translational research. In this study, we evaluate the effects of fixation time on antigen retrieval for the purposes of shotgun proteomics. For the first time, we demonstrate the capability of a capillary isotachophoresis (CITP)-based proteomic platform for the shotgun proteomic analysis of proteins recovered from FFPE tissues. In comparison to our previous studies utilizing capillary isoelectric focusing, the CITP-based analysis is more robust and increases proteome coverage. In this case, results from three FFPE liver tissues yield a total of 4098 distinct Swiss-Prot identifications at a 1% false-discovery rate. To judge the accuracy of these assignments, immunohistochemistry is performed on a panel of 17 commonly assayed proteins. These proteins span a wide range of protein abundances as inferred from relative quantitation via spectral counting. Among the panel were 4 proteins identified by a single peptide hit, including three clusters of differentiation (CD) markers: CD74, CD117, and CD45. Because single peptide hits are often regarded with skepticism, it is notable that all proteins tested by IHC stained positive.

Published

2008

3. Characterization of the human salivary proteome by capillary isoelectric focusing/nanoreversed-phase liquid chromatography coupled with ESI-tandem MS

Author

Tong Guo, Paul A. Rudnick, Brian M. Balgley, Weijie Wang, Cheng S. Lee, and Don L. DeVoe

Subjects

chemistry.chemical_classification, Male, Saliva, Spectrometry, Mass, Electrospray Ionization, Chromatography, Proteome, Chemistry, Isoelectric focusing, Electrospray ionization, Electrophoresis, Capillary, Peptide, General Chemistry, Reversed-phase chromatography, Proteomics, Tandem mass spectrometry, Biochemistry, Humans, Isoelectric Focusing, Chromatography, Liquid

Abstract

Saliva is a readily available body fluid with great diagnostic potential. The foundation for saliva-based diagnostics, however, is the development of a complete catalog of secreted and "leaked" proteins detectable in saliva. By employing a capillary isoelectric focusing-based multidimensional separation platform coupled with electrospray ionization tandem mass spectrometry (MS), a total of 5338 distinct peptides were sequenced, leading to the identification of 1381 distinct proteins. A search of bacterial protein sequences also identified many peptides unique to several organisms and unique to the NCBI nonredundant database. To the best of our knowledge, this proteome study represents the largest catalog of proteins measured from a single saliva sample to date. Data analysis was performed on individual MS/MS spectra using the highly specific peptide identification algorithm, OMSSA. Searches were conducted against a decoyed SwissProt human database to control the false-positive rate at 1%. Furthermore, the well-curated SwissProt sequences represent perhaps the least redundant human protein sequence database (12,484 records versus the 50,009 records found in the International Protein Index human database), therefore minimizing multiple protein inferences from single peptides. This combined bioanalytical and bioinformatic approach has established a solid foundation for building up the human salivary proteome for the realization of the diagnostic potential of saliva.

Published

2006

4. Large scale analysis of MASCOT results using a Mass Accuracy-based THreshold (MATH) effectively improves data interpretation

Author

Paul A. Rudnick, Cheng S. Lee, Brian M. Balgley, Erin L. Evans, and Yueju Wang

Subjects

Discriminator, Heuristic (computer science), Brain Neoplasms, Statistics as Topic, Value (computer science), Data interpretation, General Chemistry, computer.software_genre, Biochemistry, Sensitivity and Specificity, Neoplasm Proteins, Scale analysis (statistics), Bayes' theorem, Mascot, Databases as Topic, Statistics, Animals, Humans, False Positive Reactions, Sensitivity (control systems), Data mining, computer, Algorithms, Mathematics

Abstract

In this report, we take a heuristic approach to studying the effects of mass tolerance settings and database size on the sensitivity and specificity of MASCOT. We also examine the efficacy of the MASCOT Identity Threshold as a discriminator when applied to QqTOF data with an average mass accuracy of 10 ppm or better. As predicted, arbitrarily large mass tolerance settings negatively affect MASCOT's specificity, and to a lesser degree, sensitivity. Increased mass tolerances also render the generation of a significance threshold less effective. To study these effects, we used Bayes' Law to calculate MASCOT's predictive values. With a relatively small search database (Human IPI), MASCOT had a mean positive predictive value of 0.993 when combined with MASCOT's Identity Threshold. However, the corresponding average negative predictive value, or the probability that an ion was not present given no score or a score below threshold, was reduced as mass tolerances were tightened, and had an average value of 0.717. This value was improved upon by extrapolating an empirical threshold using a reversed database search and a new algorithm to rapidly identify false positive identifications. Using the empirical threshold reduced false negative identifications on the average 17% while limiting the false positive rate to below 5%; even larger reductions were obtained using mass tolerances approaching two times the actual error of the experimental data. A simple application of this strategy to the analysis of a microdissected glioblastoma multiforme sample analyzed by IEF/LC-MS/MS is reported, as is a description of the tools required to implement a large scale analysis using this alternative approach.

Published

2005

5. Integrated capillary isoelectric focusing/nano-reversed phase liquid chromatography coupled with ESI-MS for characterization of intact yeast proteins

Author

Yueju Wang, Brian M. Balgley, Erin L. Evans, Don L. DeVoe, Paul A. Rudnick, and Cheng S. Lee

Subjects

Proteomics, Electrospray, Spectrometry, Mass, Electrospray Ionization, Chromatography, Chemistry, Isoelectric focusing, Electrospray ionization, Analytical chemistry, General Chemistry, Reversed-phase chromatography, Mass spectrometry, Cell Fractionation, Biochemistry, Fungal Proteins, Automation, Solubility, Phase (matter), Nano, Chromatography, High Pressure Liquid

Abstract

An integrated protein concentration/separation platform, combining capillary isoelectric focusing (CIEF) with nano-reversed phase liquid chromatography (nano-RPLC), is developed to provide significant protein concentration and high resolving power for the analysis of complex protein mixtures. Upon completion of protein focusing, the proteins are sequentially and hydrodynamically loaded into individual trap columns using a group of microinjection and microselection valves. Repeated pro-tein loadings and injections into trap columns are carried out automatically until the entire CIEF cap-illary content is sampled and fractionated. Each CIEF fraction “parked” in separate trap columns is further resolved using nano-RPLC, and the eluants are analyzed using electrospray ionization-mass spectrometry. Keywords: capillary isoelectric focusing • ESI−MS • intact proteins • proteomics • reversed-phase liquid chromatography

Published

2005

6. Evaluation of Archival Time on Shotgun Proteomics of Formalin-Fixed and Paraffin-Embedded Tissues.

Author

Brian M. Balgley, Tong Guo, Kejia Zhao, Xueping Fang, Fattaneh A. Tavassoli, and Cheng S. Lee

Published

2009

7. Antigen Retrieval for Proteomic Characterization of Formalin-Fixed and Paraffin-Embedded Tissues.

Author

Haifeng Xu, Li Yang, Weijie Wang, Shan-Rong Shi, Cheng Liu, Ying Liu, Xueping Fang, Clive R. Taylor, Cheng S. Lee, and Brian M. Balgley

Published

2008