1. Pease, A.C.; Solas, D.; Sullivan, E.J.; Cronin, M.T.; Holmes, C.P.; Fodor, S.P.A. Light generated oligonucleotide arrays for rapid DNA sequence analysis. Proc. Natl. Acad. Sci. U. S. A. 1994, 91, 5022-5026.

2. Chee, M.; Yang, R.; Hubbell, E.; Berno, A.; Huang, X.C.; Stern, D.; Winkler, J.; Lockhart, D.J.; Morris, M.S.; Fodor,

5.P.A. Accessing genetic information with high-density DNA arrays. Science 1996, 274, 610-614.

3. Fodor, S.P.A.; Read, J.L.; Pirrung, M.C.; Stryer, L.; Lu, A.T.; Solas, D. Light-directed, spatially addressable parallel chemical synthesis. Science 1991, 251, 767-773.

4. Fodor, S.P.A.; Rava, R.P.; Huang, X.C.; Pease, A.C.; Holmes, C.P.; Adams, C.L. Multiplexed biochemical assays with biological chips. Nature 1993, 364, 555-556.

5. Schena, M.; Shalon, D.; Hueller, R.; Chai, A.; Brown, P.O.; Davis, R.W. Parallel human genome analysis: Microarray-based expression monitoring of 1000 genes. Proc. Natl. Acad. Sci. U. S. A. 1996, 93, 10614-10619.

6. Schena, M.; Shalon, D.; Davis, R.W.; Brown, P.O. Quantitative monitoring of gene expression patterns with a complementary DNA microarray. Science 1995, 270, 467-470.

7. Shalon, D.; Smith, S.; Brown, P. A DNA microarray system for analyzing complex DNA samples using two-color fluorescent probe hybridization. Genome Res. 1996,

8. Heller, M. An active microelectronics device for multiplex DNA analysis. IEEE Eng. Med. Biol. Mag. 1996 March/ April, 100-104.

9. Edman, C.F.; Raymond, D.; Wu, D.; Tu, E.; Sosnowski, R.; Butler, W.; Nerenberg, M.; Heller, M.J. Electric field directed nucleic acid hybridization on microchips. Nucleic Acids Res. 1997, 25, 4907-4914.

10. Sosnowski, R.; Tu, E.; Butler, W.; O'Connell, J.; Heller, M. Rapid determination of single base mismatch mutations in DNA hybrids by direct electric field control. Proc. Natl. Acad. Sci. U. S. A. 1997, 94, 1119-1123.

11. Sohni, Y.; Dukek, B.; Taylor, W.; Ricart, E.; Sandborn, W.; O'Kane, D. Active electronic arrays for genotyping of NAT2 polymorphisms. Clin. Chem. 2001, 47, 19221924.

12. Kottke-Marchant, K. Thrombospondin Polymorphism Analysis on the Nanogen Gene Chip System, Annual Meeting of the Association for Molecular Pathology, Dallas, TX, Nov 14-17, 2002.

13. Ferreira-Gonzalez, A. Single Platform for Analyte Specific Reagents and Laboratory Developed Tests, Annual Meeting of the Association for Molecular Pathology, Dallas, TX, Nov 14-17, 2002.

14. Thistlewaite, W.; Moses, L.; Hoffbuhr, K.; Devaney, J.; Hoffman, E. Rapid genotyping of common MeCP2 mutations with an electronic DNA microchip using serial differential hybridization. J. Mol. Diagn. 2003, 5, 121-126.

15. Sohni, Y.; Cerhan, J.; O'Kane, D. Microarray and micro-fluidic methodology for genotyping cytokine gene polymorphisms. Hum. Immunol. 2003, 64, 990-997.

16. Mas, V.R.; Fisher, R.A.; Maluf, D.G.; Wilkinson, D.S.; Garrett, C.T.; Ferreira-Gonzalez, A. Hepatic artery thrombosis after liver transplantation and genetic factors: Prothrombin G20210A polymorphism. Transplantation 2003, 76, 247-249.

17. Erali, M.; Schmidt, B.; Lyon, E.; Wittwer, C. Evaluation of electronic microarrays for genotyping factor V, factor II, and MTHFR. Clin. Chem. 2003, 49, 732-739.

18. Evans, J.; Lee-Tataseo, C. Determination of the factor V Leiden single-nucleotide polymorphism in a commercial clinical laboratory by use of NanoChip microelectronic array technology. Clin. Chem. 2002, 48, 1406-1411.

19. Ricart, E.; Taylor, W.R.; Loftus, E.V.; O'Kane, D.; Weinshilboum, R.M.; Tremaine, W.J.; Harmsen, W.S.; Zinsmeister, A.R.; Sandborn, W.J. N-Acetyltransferase 1 and 2 genotypes do not predict response or toxicity to treatment with mesalamine and sulfasalazine in patients with ulcerative colitis. Am. J. Gastroenterol. 2002, 97, 1763-1768.

20. Santacroce, R.; Ratti, A.; Caroli, F.; Foglieni, B.; Ferraris, A.; Cremonesi, L.; Margaglione, M.; Seri, M.; Ravazzolo, R.; Restagno, G.; Dallapiccola, B.; Rappaport, E.; Pollak, E.S.; Surrey, S.; Ferrari, M.; Fortina, P. Analysis of clinically relevant single-nucleotide polymorphisms by use of microelectronic array technology. Clin. Chem. 2002, 48, 2124-2130.

21. Bekal, S.; Brousseau, R.; Masson, L.; Prefontaine, G.; Fairbrother, J.; Harel, J. Rapid identification of Escher-ichia coli pathotypes by virulence detection with DNA microarrays. J. Clin. Microbiol. 2003, 41, 2113-2125.

22. Chizhikov, V.; Wagner, M.; Ivshina, A.; Hoshino, Y.; Kapikian, A.; Chumakov, K. Detection and genoytping of human group A rotaviruses by oligonucleotide microarray hybridization. J. Clin. Microbiol. 2002, 40, 2398-2407.

23. Sengupta, S.; Onodera, K.; Lai, A.; Melcher, U. Molecular detection and identification of influenza viruses by oligonucleotide microarray hybridization. J. Clin. Micro-biol. 2003, 41, 4542-4550.

24. Li, J.; Chen, S.; Evans, D. Typing and subtyping influenza virus using DNA microarrays and multiplex reverse transcriptase PCR. J. Clin. Microbiol. 2001, 39, 696-704.

25. Zimmerman, K.; Eiter, T.; Scheiflinger, F. Consecutive analysis of bacterial PCR samples on a single electronic microarray. J. Microbiol. Methods 2003, 55, 471-474.

Getting Started With Dumbbells

Getting Started With Dumbbells

The use of dumbbells gives you a much more comprehensive strengthening effect because the workout engages your stabilizer muscles, in addition to the muscle you may be pin-pointing. Without all of the belts and artificial stabilizers of a machine, you also engage your core muscles, which are your body's natural stabilizers.

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