Michael J. Paliotti scite author profile

Michael J. Paliotti

5Publications

63Citation Statements Received

82Citation Statements Given

How they've been cited

How they cite others

122

Affiliations

Duquesne University, University of Pittsburgh, ViOptix (United States)

Publications

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PilO of Pseudomonas aeruginosa 1244: subcellular location and domain assignment

Qutyan

Paliotti

Castric³

2007

Molecular Microbiology

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SummaryPilO of Pseudomonas aeruginosa 1244 catalyses the attachment of an O-antigen repeating unit to the b-carbon of the pilin C-terminal residue, a serine. The present study was conducted to locate the regions of this enzyme important in catalysis and to establish the cellular location of the pilin glycosylation reaction. While PilO was not detectable in extracts of P. aeruginosa or Escherichia coli, even under conditions of overexpression, it was found that an intact MalE-PilO fusion protein was produced in significant amounts. This fusion complemented a P. aeruginosa 1244 mutant containing a pilO deletion and targeted to the cytoplasmic membrane of E. coli. Wzy and WaaL, enzymes that also utilize the O-antigen repeating unit as substrate, were found to share a sequence pattern with PilO even though these proteins have little overall sequence similarity. PilO constructs in which portions of this common sequence were deleted or altered by site-directed mutagenesis lacked pilin glycosylating activity. Deletions of segments downstream from the common region also prevented enzyme activity. Topology studies showed that the two PilO regions associated with enzyme activity were located in the periplasm. These results establish regions of this enzyme important for catalysis and present evidence that pilin glycosylation occurs in the periplasmic space of this organism.

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Time-of-Flight Optophoresis Analysis of Live Whole Cells in Microfluidic Channels

Zhang

Hagen

et al. 2004

Biomedical Microdevices

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Optophoresis is a non-invasive cell analysis technique that is based on the interaction of live whole cells with optical gradient fields, typically generated by a near-infrared laser. The magnitude of the interaction depends upon the intrinsic physical properties of the cells, such as their refractive index, composition, size, and morphology. Time-of-flight (TOF) optophoresis is an implementation of this technique in a microfluidic environment. It measures cell travel times through a fixed distance with and without irradiation from a laser beam. The magnitude of the optical force from the laser, and therefore the change in transit time introduced by the presence of the infrared laser provides a signature for the cell. By accumulating such measurements for a population of cells (typically 200-300 cells per population), different cell types, drug treatments, or biological states can be compared quantitatively without the need for external labels or markers. An integrated TOF system has been constructed and characterized. The system typically uses square capillaries with 50-100 microm internal diameter and uses a syringe-pump-based flow system that generates initial bulk flow velocities between 200 and 600 microm/sec. Using this TOF technique, we have been able to consistently detect significant differences between normal skin and melanoma cell lines, CCD-1037 and A375, respectively. We have also been able to measure consistent differences in a cell differentiation model (HL60 cell line with DMSO treatment). These early results indicate the potential biological sensitivity of the TOF measurement technique for cellular analysis and cancer diagnostic applications.

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Optical forces for noninvasive cellular analysis

Wang¹,

Schnabel²,

Chachisvilis³

et al. 2003

Appl. Opt.

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A novel, noninvasive measurement technique for quantitative cellular analysis is presented that utilizes the forces generated by an optical beam to evaluate the physical properties of live cells in suspension. In this analysis, a focused, near-infrared laser line with a high cross-sectional intensity gradient is rapidly scanned across a field of cells, and the interaction of those cells with the beam is monitored. The response of each cell to the laser depends on its size, structure, morphology, composition, and surface membrane properties; therefore, with this technique, cell populations of different type, treatment, or biological state can be compared. To demonstrate the utility of this cell analysis platform, we evaluated the early stages of apoptosis induced in the U937 cancer cell line by the drug camptothecin and compared the results with established reference assays. Measurements on our platform show detection of cellular changes earlier than either of the fluorescence-based Annexin V or caspase assays. Because no labeling or additional cell processing is required and because accurate assays can be performed with a small number of cells, this measurement technique may find suitable applications in cell research, medical diagnostics, and drug discovery.

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Maturation of envelope‐specific antibody responses to linear determinants in monkeys inoculated with attenuated SIV

Cole

Paliotti

Murphey‐Corb

et al. 2000

J of Medical Primatology

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We have previously used a panel of quantitative and qualitative serological assays to define a lengthy and complex maturation of envelope-specific antibody responses in monkeys experimentally infected with attenuated simian immunodeficiency virus (SIV) that is closely associated with the temporal development of enduring and protective immunity to experimental virus challenge. To elucidate in more detail the changes in antibody specificity associated with this maturation, we describe here 'domain-specific' serological studies to characterize the evolution of antibody responses to defined linear determinants of the SIV envelope protein. The results of these studies reveal for the first time distinguishing differences in the evolution of antibody populations to distinct envelope peptide segments, as determined by measurements of antibody titer and avidity, indicating different patterns of antibody maturation to distinct linear envelope antigenic determinants. Thus, these data demonstrate the potential for domain-specific serology to produce a high-resolution characterization of SIV-specific antibody responses that can be used to evaluate experimental vaccine responses and to identify potential immune correlates of protection.

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Cellular analysis based on moving infrared optical gradient fields

Marchand¹,

Wang²,

Schnabel³

et al. 2003

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