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Richard D. Smith

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Richard D. Smith
Born
NationalityAmerican
Alma materUniversity of Utah
Known forIon funnel, Electrospray ionization, Mass spectrometry, Capillary electrophoresis-mass spectrometry, Proteomics
Awards2003 ACS Award for Analytical Chemistry; 2009 HUPO Discovery Award in Proteomics Sciences; R&D Magazine Scientist of the Year (2010); 2013 American Society for Mass Spectrometry Distinguished Contribution in Mass Spectrometry Award
Scientific career
FieldsChemistry
Proteomics
InstitutionsPacific Northwest National Laboratory
Thesis Studies in ion cyclotron resonance mass spectrometry  (1975)
Doctoral advisorJean Futrell

Richard Dale Smith is a chemist and a Battelle Fellow and chief scientist within the biological sciences division, as well as the director of proteomics research at the Pacific Northwest National Laboratory (PNNL). Smith is also director of the NIH Proteomics Research Resource for Integrative Biology, an adjunct faculty member in the chemistry departments at Washington State University and the University of Utah, and an affiliate faculty member at the University of Idaho and the Department of Molecular Microbiology & Immunology, Oregon Health & Science University.[1] He is the author or co-author of approximately 1100 peer-reviewed publications and has been awarded 70 US patents.[2]

Education

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Smith obtained his B.S. in chemistry in 1971 from Lowell Technological Institute (currently the University of Massachusetts Lowell).[1][3] He then received his PhD in the field of Physical Chemistry from the University of Utah in 1975.[4]

Early career

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Starting in the 1970s Smith published peer-reviewed papers on several subjects, including mass spectrometry, ion cyclotron resonance mass spectrometry, ion-molecule reactions, molecular assemblies, and supercritical fluid solutions.[5][6][7][8][9] This early work has led him to be considered an internationally recognized expert in mass spectrometry and separation techniques, and his research has led to advancements in instrumentation for the medical and environmental analysis fields, as well as biological research.[10]

In the medical field, Smith's work has produced benefits in the areas of drug testing, analysis of pharmaceuticals and medical diagnostics in the clinical arena. His most successful invention has been the combination of capillary electro-phoresis with mass spectrometry. By the end of the 1990s, Smith's achievements included the electrodynamic ion funnel and a micro-dialysis device for the rapid purification of samples analyzed using mass spectrometry. Other notable contributions have been in the fields of supercritical fluids and related reverse micelle phenomena.

On August 22, 2000, Smith demonstrated and patented[11] the electrodynamic ion funnel[12][13] for highly efficient capture and focusing of ions in gases. He applied it for increasing the sensitivity of ESI-MS.[14] His group has continued to refine and extend ion funnel technology, which is now widely applied in mass spectrometry and ion mobility instrumentation.[13][15]

In the late 1990s, Smith's group was also extensively involved in the development and application of Fourier transform ion cyclotron resonance (FTICR) mass spectrometry, which provided the basis for much greater MS resolution and mass measurement accuracy, and particularly in the development of these technologies for applications in proteomics.[16][17] More recent work has centered on extending application of these proteomics technologies to mammalian systems, which pose additional challenges due to their much greater complexity. One early focus has been the human blood plasma proteome due to its broad biomedical applications. Plasma proteome measurements potentially can provide the basis for discovery of protein biomarkers or signatures for virtually every disease state.[16]

In September 1999, R&D Magazine picked the top 40 technologies of all time based on their impact on society, industry and commercial applications. The Top 40 were selected from a list of 3,600 past R&D 100 Awards. Smith was the recipient of one of these awards, for the development of capillary electrophoresis-mass spectrometry.[10]

Current research

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Since the Human Genome Project developed a blueprint of all human genes in our chromosomes, proteomics researchers have pushed to understand how that blueprint creates life. Diseases and infections are often the result of proteins going wrong, and finding the aberrant one requires sifting through thousands of other proteins. In addition, many problem proteins have not been given names yet or are too rare to find easily.

In the last few years, Smith and his team have led work that has reduced analytical steps from hours to minutes. This increased speed has enabled many samples to be processed faster in high-throughput experiments. Smith has led other advances in sensitivity and accuracy that have improved the ability to find rare proteins, bringing proteomics technology to the doorstep of clinical researchers.

Smith and collaborators have applied the technology to liver disease and cancer in the hopes of finding rare markers of disease in blood, making diagnosis or treatment safer and faster. In 2007, Scientific American magazine listed Smith and his collaborator Desmond Smith as one of the top 50 researchers for work to understand the origins of Parkinson's disease by mapping where proteins amass in diseased mouse brains.

Among other work, Smith and colleagues at PNNL have looked at how bacteria and viruses might cause illness. They've learned breast cancer leaves traces behind in the blood that doctors might exploit someday. Smith led early studies for DOE into possible roles for microbes in making biofuels. In other DOE studies, he's examined how large environmental communities of microbes function in our ecosystem and affect our environment. An intimate understanding of how microbes work will let researchers employ them to trap radioactive contaminants or greenhouse gases.[18]

In other recent work he has been leading the development of structures for lossless ion manipulations (SLIM) and their application for very high speed sample processing, reactions, separations, and other manipulations of ions in the gas phase, and particularly their use for ion mobility spectrometry (IMS) separations in conjunction with mass spectrometry. Smith and colleagues at PNNL, including Drs. Yehia Ibrahim and Sandilya Gerimella, have extended the range of SLIM technologies to include the use of travel wave electric fields for SLIM IMS. This has enabled extremely high resolution separations based on 'multi-pass" separations, and has enabled the separation of ions previously impractical, such as isotopomers and isotopologues.

Awards and affiliations

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Smith a principal investigator at NIH Biomedical Technology Resource Center for Integrative Biology[19] and the U.S. Department of Energy High Throughput Proteomics Facility at PNNL.[20] He is an adjunct faculty member in the chemistry departments at Washington State University and the University of Utah and an affiliate faculty member Department of Chemistry at the University of Idaho and the Department of Molecular Microbiology & Immunology, Oregon Health & Science University. Smith serves on the Board of Scientific Counselors,[21] Office of Public Health Preparedness and Response of the Centers for Disease Control and Prevention. He is also a Fellow of the American Association for the Advancement of Science,[22] and has been elected to the Washington State Academy of Sciences.[23]

In 2011, Discover Magazine selected a peer-reviewed paper on Lyme disease that he coauthored with immunologist Steven Schutzer of the University of Medicine and Dentistry of New Jersey as one of the top 100 articles of the year, placing it at number 90.[24][25] He was the recipient of the 2003 ACS award in Analytical Chemistry,[26] the 2009 Human Proteome Organization (HUPO) Discovery Award in Proteomics Sciences, and was selected by R&D Magazine as the 2010 R&D Scientist of the Year.[18] He has also received ten R&D 100 Awards: Combined Orthogonal Mobility & Mass Evaluation Technology (2013); Ion Mobility Spectrometer on a Microchip (2010); Ultrasensitive Electrospray Ionization Mass Spectrometry Source and Interface (2009); FT-MS Proteome Express (2003); Electrodynamic Ion Funnel (1999); Rapid Microdialyzer (1998); MICLEAN/MICARE Process (1998); Rapid Expansion of Supercritical Fluid Solutions Process (1988); Capillary Electrophoresis-Electrospray Ionization-MS (1988); and Supercritical Fluid Chromatography-MS (1983). He was the recipient of the 2013 Award for a Distinguished Contribution in Mass Spectrometry.[27]

References

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  1. ^ a b "Richard D. Smith".
  2. ^ "Focus on Richard D. Smith, PhD". Thermo Fisher.
  3. ^ "Smith Named Inventor of the Year". Pacific Northwest National Laboratory.
  4. ^ "Richard Smith, Ph.D".
  5. ^ Smith, R.D.; Burger, J.E.; Johnson, A.L. (1981). "Liquid Chromatography-Mass Spectrometry with Electron Impact and Secondary Ion Mass Spectrometry with a Ribbon Storage Interface". Analytical Chemistry. 53 (11): 1603–1611. doi:10.1021/ac00234a016.
  6. ^ Smith, R. D.; Fjeldsted, J. C.; Lee, M. T.; Felix, W.D. (1982). "Capillary Column Supercritical Fluid Chromatography-Mass Spectrometry". Analytical Chemistry. 54 (11): 1883–1885. doi:10.1021/ac00248a055.
  7. ^ Gale, R. W.; Fulton, J. L.; Smith, R. D. (1987). "Organized Molecular Assemblies in the Gas Phase: Reverse Micelles and Microemulsions in Supercritical Fluids". Journal of the American Chemical Society. 109 (3): 920–921. doi:10.1021/ja00237a059.
  8. ^ Matson, D.W.; Petersen, R.C.; Smith, R.D. (1986). "Formation of Silica Powders from the Rapid Expansion of Supercritical Fluid Solutions". Advanced Ceramic Materials: 242–246. {{cite journal}}: Cite journal requires |journal= (help)
  9. ^ Matson, D.W.; Petersen, R.C.; Smith, R.D. (1986). "Rapid Precipitation of Low Vapor Pressure Solids from Supercritical Fluid Solutions: The Formation of Thin Films and Powders". Journal of the American Chemical Society. 108 (8): 2100–2102. doi:10.1021/ja00268a066.
  10. ^ a b "Smith named Inventor of the Year". Pacific Northwest National Laboratory. March 21, 2000.
  11. ^ "Method and Apparatus for Directing Ions and Other Charged Particles Generated at Near Atmospheric Pressure into a Region under Vacuum," issued August 22, 2000, to R. D. Smith and S. A. Shaffer, U. S. Patent No. 6,107,628.
  12. ^ Shaffer, S. A.; Tang, K.; Anderson, G. A.; Prior, D. C.; Udseth, H. R.; Smith, R. D. (October 30, 1997). "A Novel Ion Funnel for Focusing Ions at Elevated Pressure Using Electrospray Ionization Mass Spectrometry". Rapid Communications in Mass Spectrometry. 11 (16): 1813–1817. doi:10.1002/(SICI)1097-0231(19971030)11:16<1813::AID-RCM87>3.0.CO;2-D.
  13. ^ a b "Award-Winning Ion Funnel Technology Gets Another License". Pacific Northwest National Laboratory.
  14. ^ Shaffer, S. A.; Prior, D. C.; Anderson, G. A.; Udseth, H. R.; Smith, R.D. (1998). "An Ion Funnel Interface for Improved Ion Focusing and Sensitivity Using Electrospray Ionization Mass Spectrometry". Analytical Chemistry. 70 (19): 4111–4119. doi:10.1021/ac9802170. PMID 9784749.
  15. ^ Kelly, R.T.; Tolmachev, A.V.; Page, J.S.; Tang, K.; Smith, R.D. (2010). "The Ion Funnel:Theory, Implementations and Applications". Mass Spectrometry Reviews. 29 (2). Mass Spectrometry: 294–312. Bibcode:2010MSRv...29..294K. doi:10.1002/mas.20232. PMC 2824015. PMID 19391099.
  16. ^ a b "MS&D: Biological Separations and Mass Spectrometry". Pacific Northwest National Laboratory.
  17. ^ Winger, B. E.; Hofstadler, S. A.; Bruce, J. E.; Udseth, H. R.; Smith, R. D. (1993). "High Resolution Accurate Mass Measurements of Biomolecules Using a Novel Electrospray Ionization Ion Cyclotron Resonance Mass Spectrometer". Journal of the American Society for Mass Spectrometry. 4 (7): 566–577. doi:10.1016/1044-0305(93)85018-S. PMID 24227643. S2CID 34574050.
  18. ^ a b "PNNL's Richard Smith named 2010 Scientist of the Year". Pacific Northwest National Laboratory. October 25, 2013.
  19. ^ "National Institute of General Medical Sciences". Archived from the original on 2012-10-27. Retrieved 2012-10-22.
  20. ^ "Department of Energy High Throughput Proteomics Facility".
  21. ^ "Board of Scientific Counselors Membership List".
  22. ^ "AAAS Fellows".
  23. ^ "Washington State Academy of Sciences Membership".
  24. ^ "Discover Magazine: #90: Chronic Lyme Patients Validated".
  25. ^ Schutzer, Steven E.; Angel, Thomas E.; Liu, Tao; Schepmoes, Athena A.; Clauss, Therese R.; Adkins, Joshua N.; Camp, David G.; Holland, Bart K.; Bergquist, Jonas; Coyle, Patricia K.; Smith, Richard D.; Fallon, Brian A.; Natelson, Benjamin H. (2011). "Distinct Cerebrospinal Fluid Proteomes Differentiate Post-Treatment Lyme Disease from Chronic Fatigue Syndrome". PLOS ONE. 6 (2): e17287. Bibcode:2011PLoSO...617287S. doi:10.1371/journal.pone.0017287. PMC 3044169. PMID 21383843.
  26. ^ "ACS Award in Analytical Chemistry". Archived from the original on 2011-10-05.
  27. ^ Baker, Erin S.; Muddiman, David C.; Loo, Joseph A. (2014). "Focus on Advancing High Performance Mass Spectrometry, Honoring Dr. Richard D. Smith, Recipient of the 2013 Award for a Distinguished Contribution in Mass Spectrometry". Journal of the American Society for Mass Spectrometry. 25 (12): 1997–1999. Bibcode:2014JASMS..25.1997B. doi:10.1007/s13361-014-1007-8. PMID 25326057.