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Analytical Chemistry, Biological Chemistry
Bioanalytical, Mass Spectrometry

My research group specializes in the development and application of Fourier transform mass spectrometry for solving difficult problems in bioanalytical chemistry. We are exploring new methods for analyzing the structural features of glycosaminoglycans (GAGs), a class of carbohydrates that play a central role in a number of important biological processes, including cellular communication, cell signaling, and regulation of biochemical pathways. Our approach uses electron-aided methods of ion activation (electron detachment dissociation, electron induced dissociation, and electron transfer dissociation) to dissociate GAG oligosaccharides, and to provide detailed data regarding sites of sulfation, acetylation, and uronic acid stereochemistry. We are exploring the use of chemometric analysis (principal component analysis and partial least squares discriminant analysis) for maximizing the amount of analytical information that can be extracted from the highly complex tandem mass spectra produced by electron detachment dissociation of GAGs. We are developing rapid and sensitive methods for measuring changes in the cellular levels of proteins. Our approach is to harvest complex protein mixtures from a cell, enzymatically digest the proteins into peptides, and to identify the peptides by accurate mass measurement using Fourier transform mass spectrometry. This process is aided by a combination of capillary scale separation methods, chemical derivitization methods using compounds synthesized in our laboratory, and isotope labeling. Other recent research projects include the use of advanced computational methods for carrying out multiparticle simulations of ion motion within the FTICR mass analyzer. These simulations give detailed information about ion-ion interactions, and provide insight into the limits of mass accuracy in FTICR mass spectrometry.

Publications

Kailemia, M. J.; Li, L.; Xu, Y.; Liu, J.; Linhardt, R. J.; Amster, I. J. Structurally informative tandem mass spectrometry of highly sulfated natural and chemo-enzymatically synthesized heparin and heparan sulfate glycosaminoglycans. Mol. Cell. Proteomics 2013, 12, 979-990. Abstract
Leach, F. E.; Kharchenko, A.; Vladimirov, G.; Aizikov, K.; O’Connor, P. B.; Nikolaev, E.; Heeren, R. M. A.; Amster, I. J. Analysis of phase dependent frequency shifts in simulated FTMS transients using the filter diagonalization method. Int J Mass Spectrom 2012, 325-327, 19-24. Abstract
Jing, L.; Amster, I. J. EJMS Protocol: An improved calibration method for the matrix-assisted laser desorption/ionization-Fourier transform ion cyclotron resononance analysis of 15N-metabolically-labeled proteome digests using a mass difference approach. Eur J Mass Spectrom 2012, 18(3), 269-277. Abstract
Leach, F. E.; Arungundram, S.; Al-Mafraji, K.; Venot, A.; Boons, G. - J.; Amster, J. I. Electron detachment dissociation of synthetic heparan sulfate glycosaminoglycan tetrasaccharides varying in degree of sulfation and hexuronic acid stereochemistry. International Journal of Mass Spectrometry 2012, 330-332, 152-159. Abstract
Kailemia, M. J.; Li, L.; Ly, M.; Linhardt, R. J.; Amster, I. J. Complete Mass Spectral Characterization of a Synthetic Ultralow-Molecular-Weight Heparin Using Collision-Induced Dissociation. Anal Chem 2012, 84(13), 5475-5478. Abstract
Leach, F. E.; Ly, M.; Laremore, T. N.; Wolff, J. J.; Perlow, J.; Linhardt, R. J.; Amster, I. J. Hexuronic Acid Stereochemistry Determination in Chondroitin Sulfate Glycosaminoglycan Oligosaccharides by Electron Detachment Dissociation. J Am Soc Mass Spectrom 2012, 23, 1488-1497.
Leach, F. E.; Xiao, Z.; Laremore, T. N.; Linhardt, R. J.; Amster, J. I. Electron detachment dissociation and infrared multiphoton dissociation of heparin tetrasaccharides. Int J Mass Spectrom 2011, 308, 253-259. Abstract
Reisch, C. R.; Stoudemayer, M. J.; Varaljay, V. A.; Amster, J. I.; Moran, M. A.; Whitman, W. B. Novel pathway for assimilation of dimethylsulphoniopropionate widespread in marine bacteria. Nature 2011, 473(7346), 208-211. Abstract
Oh, H. B.; Leach, F. E.; Arungundram, S.; Al-Mafraji, K.; Venot, A.; Boons, G. - J.; Amster, I. J. Multivariate Analysis of Electron Detachment Dissociation and Infrared Multiphoton Dissociation Mass Spectra of Heparan Sulfate Tetrasaccharides Differing Only in Hexuronic acid Stereochemistry. J Am Soc Mass Spectrom 2011, 22(3), 582-590. Abstract
Leach, F.; Wolff, J.; Xiao, Z.; Ly, M.; Laremore, T.; Arungundram, S.; Al-Mafraji, K.; Venot, A.; Boons, G. - J.; Linhardt, R.; Amster, I. J. Negative electron transfer dissociation Fourier transform mass spectrometry of glycosaminoglycan carbohydrates. Eur J Mass Spectrom 2011, 17(2), 167-176. Abstract
Ly, M.; Leach, F. E.; Laremore, T. N.; Toida, T.; Amster, J. I.; Linhardt, R. J. The proteoglycan bikunin has a defined sequence. Nature Chemical Biology 2011, 7, 827-833. Abstract
Cui, J.; Chen, Y.; Chou, W. - C.; Sun, L.; Chen, L.; Suo, J.; Ni, Z.; Zhang, M.; Kong, X.; Hoffman, L. L.; Kang, J.; Su, Y.; Olman, V.; Johnson, D.; Tench, D. W.; Amster, I. J.; Orlando, R.; Puett, D.; Li, F.; Xu, Y. An integrated transcriptomic and computational analysis for biomarker identification in gastric cancer. Nucleic Acids Res 2011, 39(4), 1197-1207. Abstract
Laremore, T. N.; Leach III, F. E.; Amster, J. I.; Linhardt, R. J. Electrospray ionization Fourier transform mass spectrometric analysis of intact bikunin glycosaminoglycan from normal human plasma. Int J Mass Spectrom 2011, 305, 109-115. Abstract
Wolff, J. J.; Leach, F. E.; Laremore, T. N.; Kaplan, D. A.; Easterling, M. L.; Linhardt, R. J.; Amster, I. J. Negative Electron Transfer Dissociation of Glycosaminoglycans. Anal Chem 2010, 82, 3460-3466. Abstract

I. Jonathan Amster

Professor and Head

Ph.D. Cornell University, 1986

M.S. Cornell University, 1983

B.A. Cornell University, 1977

  • Office: 412
  • Lab: 287
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