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New in this issue
Barry Bochner Presentations at IUMS -2005
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PM Posters at IUMS-2005
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Characterization of the Genetic Origins of Phenotypic Diversification of the Pathogenic Salmonellae. B. Bochner4, C. A. Morales1, S. Porwollik2, J. G. Frye3, R. Gast1, X-H. Lei, M. Ziman4, M. McClelland2, J. Guard-Bouldin5;
1*Egg Safety and Quality Research Unit, Agricultural Research Service, United States Department of Agriculture, Athens, GA, 2Sidney Kimmel Cancer Center, San Diego, CA,
3*Antimicrobial Resistance Research Unit, Agricultural Research Service, United States Department of Agriculture, Athens, GA, 4Biolog, Inc., Hayward, CA,
5*Egg Safety and Quality Research Unit, Antimicrobial Resistance Research Unit, Agricultural Research Service, United States Department of Agriculture, Athens, GA.
Session number: 6-B, 7/24/2005 10:30AM, Poster board number: B-800.
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Metabolic Analysis of Helicobacter pylori Strain 26695 with Phenotype MicroArray Technology
. X-H. Lei1, S. Tan2, D. E. Berg2, B. R. Bochner1; 1Biolog, Inc., Hayward, CA, 2Washington University Medical School, St. Louis, MO. , Session number: 5-B, 7/24/2005 10:30AM, Poster board number: B-760.
- Identifying Antimicrobials Using Isobologram Arrays
. L. A. Wiater, K. Kim, J. Carlson and P. Gadzinski, Biolog Inc., Hayward, CA, Session number: 197-B, 7/26/2005 10:30AM, Poster board number: B-841.
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Phenotype MicroArray Profiling of Staphylococcus aureus menD and hemB Mutants with Small Colony Variant (SCV) Phenotype
. C. von Eiff1*, P. McNamara2, K. Becker1, D. Bates2, X-H. Lei3, M. Ziman3, B. R. Bochner3, G. Peters1, and R. A. Proctor2,4 1Institute of Medical Microbiology, University of Muenster, Germany; 2Department of Medical Microbiology/Immunology; University of Wisconsin Medical School, Madison, WI;
3Biolog, Inc., Hayward, CA; 4Department of Medicine, University of Wisconsin Medical School, Madison, WI Session number: 138-B, 7/26/2005 10:30AM, Poster board number: B-873.
Useful links
Brief
description of PM technology
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Phenotype MicroArray™ technology tests cellular phenotypes.
Included in the tests are assays of basic cellular nutritional pathways for C, N, P, and S
metabolism, osmotic and pH and sensitivity, and sensitivity to chemical
agents.
The most common application is to assess the
phenotypic effects of mutations. A change in genotype of a cell should lead to one or more
changes in phenotype. PMs allow testing of knock-out or knock-in mutants to help discern the
biological changes that occur consequent to genetic changes. |
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Another common application is
phenotypic characterization of a collection of related strains. For example, it is
possible to determine the phenotypic relatedness of a collection of isolates of a given
species. PM analysis has been successfully implemented for a wide variety of model microbial
cells including Escherichia coli, |
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Salmonella enterica, Pseudomonas
aeruginosa, Pseudomonas putida, Sinorhizobium meliloti,
Saccharomyces cerevisiae, Bacillus subtilis, Bacillus
cereus, Shewanella oneidensis, Proteus mirabilis, and many other species. In the last
year, Biolog has successfully developed universal protocols that allow us to test most
species of interest. Contact us for details.
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Phenotype MicroArray™ technology uses Biolog's OmniLog® instrument, which is also used for microbial identification. The OmniLog® automatically incubates, reads and interprets the Biolog Phenotype MicroArray MicroPlates™. It continuously processes samples but allows |
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the user complete access at any time during a sample run. Samples can be loaded when ready and removed when complete without disturbing other samples still in-process. Inside the Reader there are 25 trays. Each tray holds 2 MicroPlates, giving the Reader a total capacity to incubate and read 50 MicroPlates. Before the user inoculates the appropriate MicroPlates, they log the MicroPlate information into the OmniLog® software. |
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By simply following the software's instructions, the user then opens the door of the OmniLog® Reader and places each MicroPlate in the appropriate tray slot indicated by the software. Once all the MicroPlates are loaded and the door of the Reader is closed, the OmniLog® software takes over the responsibility for incubating, reading, saving, and printing the results. The OmniLog® PM System utilizes Windows-based software with an elegantly simple user interface. The status of all the samples can be observed by simply looking at the Read menu screen of the OmniLog® PM System software. All of the information for a specific MicroPlate is contained on a single line of this screen. Once the system has completed a specific MicroPlate it indicates this status with a check mark icon. A clock icon is used for those
samples that are still incubating |
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because a result has not yet been determined. The OmniLog® PM System's software is extremely flexible and can be integrated into virtually any laboratory's workflow. New MicroPlates can be entered into the Reader and
MicroPlates that have already completed can be removed from the Reader at almost any time.
This allows the user to either perform experiments one at a time or batch
them.
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PM Technology and the OmniLog® instrument are ideal for a core facility or for purchase under a shared equipment grant.
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