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  1. 1.   Direct anabolic metabolism of three carbon propionate to a six carbon metabolite occurs in vivo across tissues and species
  2. Doan, Mary T; Neinast, Michael D; Varner, Erika L; Bedi, Kenneth; Bartee,David; Jiang, Helen; Trefely, Sophie; Xu, Peining; Singh, Jay P; Jang, Cholsoon; Rame, Eduardo; Brady, Donita; Meier,Jordan; Marguiles, Kenneth; Arany, Zoltan; Snyder, Nathaniel W
  3. Journal of Lipid Research. 2022, May 11; 63(6): 100224.
  1. 2.   NMR probing of invisible excited states using selectively labeled RNAs
  2. Leblanc, Regan; Longhini, Andrew P; Tugarinov, Vitali; Dayie, T Kwaku
  3. Journal of Biomolecular NMR. 2018, Jul; 71(3): 165-172.
  1. 3.   64Cu-DOTA as a surrogate positron analog of Gd-DOTA for cardiac fibrosis detection with PET: pharmacokinetic study in a rat model of chronic MI
  2. Kim, H.; Lee, S. J.; Davies-Venn, C.; Kim, J. S.; Yang, B. Y.; Yao, Z.; Kim, I.; Paik, C. H.; Bluemke, D. A.
  3. Nuclear Medicine Communications. 2016, Feb; 37(2): 188-96.
  1. 4.   Targeted mass spectrometry approaches for protein biomarker verification
  2. Meng, Z. J.; Veenstra, T. D.
  3. Journal of Proteomics. 2011, Nov; 74(12): 2650-2659.
  1. 5.   Chromatographic methods for the quantification of free and chelated gadolinium species in MRI contrast agent formulations
  2. Clevel, D.; Long, S. E.; Sander, L. C.; Davis, W. C.; Murphy, K. E.; Case, R. J.; Rimmer, C. A.; Francini, L.; Patri, A. K.
  3. Analytical and Bioanalytical Chemistry. 2010, Dec; 398(7-8): 2987-2995.
  1. 6.   Mass spectrometric quantification of asparagine synthetase in circulating leukemia cells from acute lymphoblastic leukemia patients
  2. Abbatiello, S. E.; Pan, Y. X.; Zhou, M.; Wayne, A. S.; Veenstra, T. D.; Hunger, S. P.; Kilberg, M. S.; Eyler, J. R.; Richards, N.; Conrads, T. P.
  3. Journal of Proteomics. 2008 71(1): 61-70.
  1. 7.   Proteomic analysis of plasma membrane from hypoxia-adapted malignant melanoma
  2. Stockwin, L. H.; Blonder, J.; Bumke, M. A.; Lucas, D. A.; Chan, K. C.; Conrads, T. P.; Issaq, H. J.; Veenstra, T. D.; Newton, D. L.; Rybak, S. M.
  3. Journal of Proteome Research. 2006, Nov; 5(11): 2996-3007.
  1. 8.   Mass spectrometry reveals specific and global molecular transformations during viral infection
  2. Go, E. P.; Wikoff, W. R.; Shen, Z. X.; O'Maille, G.; Morita, H.; Conrads, T. P.; Nordstrom, A.; Trauger, S. A.; Uritboonthai, W.; Lucas, D. A.; Chan, K. C.; Veenstra, T. D.; Lewicki, H.; Oldstone, M. B.; Schneemann, A.; Siuzdak, G.
  3. Journal of Proteome Research. 2006, Sep; 5(9): 2405-2416.
  1. 9.   Parallel analysis of transcript and translation profiles: Identification of metastasis-related signal pathways differentially regulated by drug and genetic modifications
  2. Yang, H. Y.; Yu, L. R.; Yi, M.; Lucas, D. A.; Lukes, L.; Lancaster, M.; Chan, K. C.; Issaq, H. J.; Stephens, R. M.; Conrads, T. P.; Veenstra, T. D.; Hunter, K. W.
  3. Journal of Proteome Research. 2006, Jul; 5(7): 1555-1567.
  1. 10.   Quantitative proteomic analysis of sokotrasterol sulfate-stimulated primary human endothelial cells
  2. Karsan, A.; Pollet, I.; Yu, L. R.; Chan, K. C.; Conrads, T. P.; Lucas, D. A.; Andersen, R.; Veenstra, T.
  3. Molecular & Cellular Proteomics. 2005, FEB; 4(2): 191-204.
  1. 11.   Quantitative proteomic analysis of inorganic phosphate-induced murine MC3T3-E1 osteoblast cells
  2. Conrads, K. A.; Yu, L. R.; Lucas, D. A.; Zhou, M.; Chan, K. C.; Simpson, K. A.; Schaefer, C. F.; Issaq, H. J.; Veenstra, T. D.; Beck, G. R.; Conrads, T. P.
  3. Electrophoresis. 2004 25(9): 1342-1352.
  1. 12.   Evaluation of the acid-cleavable isotope-coded affinity tag reagents: Application to camptothecin-treated cortical neurons
  2. Yu, L. R.; Conrads, T. P.; Uo, T.; Issaq, H. J.; Morrison, R. S.; Veenstra, T. D.
  3. Journal of Proteome Research. 2004, MAY-JUN; 3(3): 469-477.
  1. 13.   Proteome analysis of DNA damage-induced neuronal death using high throughput mass spectrometry
  2. Johnson, M. D.; Yu, L. R.; Conrads, T. P.; Kinoshita, Y.; Uo, T.; Matthews, J. D.; Lee, S. W.; Smith, R. D.; Veenstra, T. D.; Morrison, R. S.
  3. Journal of Biological Chemistry. 2004 279(25): 26685-26697.
  1. 14.   Stable isotope dilution high-performance liquid chromatography- electrospray ionization mass spectrometry method for endogenous 2-and 4-hydroxyestrones in human urine
  2. Xu, X.; Ziegler, R. G.; Waterhouse, D. J.; Saavedra, J. E.; Keefer, L. K.
  3. Journal of Chromatography B-Analytical Technologies in the Biomedical and Life Sciences. 2002 780(2): 315-330.
  1. 15.   New tools for quantitative phosphoproteome analysis
  2. Conrads, T. P.; Issaq, H. J.; Veenstra, T. D.
  3. Biochemical and Biophysical Research Communications. 2002 290(3): 885-890.
  1. 16.   Proteome analysis of camptothecin-treated cortical neurons using isotope-coded affinity tags
  2. Yu, L. R.; Johnson, M. D.; Conrads, T. P.; Smith, R. D.; Morrison, R. S.; Veenstra, T. D.
  3. Electrophoresis. 2002 23(11): 1591-1598.
  1. 17.   The role of separation science in proteomics research
  2. Issaq, H. J.
  3. Electrophoresis. 2001 22(17): 3629-3638.
  1. 18.   Improved Ultrafiltration Method to Measure Drug Release from Nanomedicines Utilizing a Stable Isotope Tracer
  2. Skoczen, Sarah; Stern, Steve
  3. Methods in molecular biology (Clifton, N.J.). 2018 1682: 223-239.
  1. 19.   Assessment of Temperature-Dependent Drug Release of Solubilizing Nanoformulations Using the SITUA
  2. Stern,Steve; Skoczen,Sarah; Park, Young Hwan
  3. Methods in Molecular Biology (Clifton, N.J.). 2024 2789: 301-311.
  1. 20.   Production of Isotopically Labeled KRAS4b
  2. Taylor,Troy; Gillette,Bill
  3. Methods in Molecular Biology (Clifton, N.J.). 2024 2797: 23-34.
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