Engineering Fundamentals in Life Science | |||
| Session 25 - High Throughput Biotechnologies | |||
| The session "High Throughput Biotechnologies" is for scientists and engineers who are advancing genomics and proteomics, where "high throughput experimentation" involving DNA microarrays (and other other "labs on a chip"), TAP-TAG, and SAGE take center-stage. We will seek contributions from scientists and engineers who are developing these technologies for purposes related specifically to diagnostics, genome-scale analytical measurement of RNA and/or protein abundance, gene discovery, and related areas. Reports of new applications of existing high-throughput screens and analytical quantification technologies in the life sciences will also be considered. | |||
| Chair: | Ian J. Laurenzi | ||
| Cochairs: | Arul Jayaraman Mattheos Koffas | ||
| CoSponsor(s): | Engineering Fundamentals in Life Science | ||
| 25a | Large DNA Synthesis on a Chip with Oligonucleotide Mixtures by Solid Phase Pcr and Ligation Chain Reaction Woonghee Lee, Jean-Marie Rouillard, Erdogan Gulari | ||
| 25b | High Throughput Screening of Kinases with Ruthenium Inhibitors Eric Y. Wong, Scott L. Diamond | ||
| 25c | Large-Scale Proteomic Analysis of Human Urinary Exosomes Patricia A. Gonzales, Trairak Pisitkun, Robert Star, Robert Kleta, Nam Sun Wang, Mark A. Knepper | ||
| 25d | Parallel Peptide Synthesis on Microfluidic Microarrays for Epitope Mapping and Cell Adhesion Assays Suparna Mandal, Erdogan Gulari | ||
| Break | |||
| 25e | High Throughput Genomic Analysis Using Maldi-Tof MS and Solid-Phase Capturable Dideoxynucleotides Ashish Misra, Aana M. Kim, Sobin Kim | ||
| 25f | Production of Aromatic Compounds by Metabolic Engineering Lixuan Huang, Zhixiong Xue, Quinn Zhu, Michael McCluskey, Keith Cantera, Sharon Haynie, Arie Ben-Bassat, Sima Sariaslani | ||
| 25g | Functional Genomics Approach to the Identification of Genes Encoding Substrates of the Twin-Arginine Translocation Pathway Matthew J. Marrichi, Matthew P. DeLisa | ||
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