| # |
Poster Title |
Authors |
Affiliation |
| 1 |
Characterization
of hydrophobic fimbrial membrane proteins by LC-MS and
LC-MS/MS |
S. Hess,
F. J. Cassels, J. O. Cisar, L. K. Pannell |
Laboratory of Bioorganic Chemistry, NIDDK,
Bethesda, MD |
| 2 |
Proteomics
on secretory proteins from adipose cells |
X. Chen, S. W.
Cushman, S. Hess |
Laboratory of
Bioorganic Chemistry, NIDDK, Bethesda, MD |
| 3 |
Proteomic
confirmation of genes that define human tonsillar B cell
subsets using Immunoaffinity Capillary Electrophoresis |
A.C. Brescia, D.B.
Thurber, T.M. Phillips, P. Lipsky, A.C. Grammer |
Autoimmunity Branch,
NIAMS, NIH, Bethesda, MD |
| 4 |
Probing
3D structure of protein kinase C by cross-linking and mass
spectrometry |
B. X. Huang, H-Y.
Kim |
Laboratory of Membrane
Biochemistry and Biophysics, NIAAA, Bethesda, MD |
| 5 |
PKC
Induced Phosphorylation of Bovine Rhodopsin in Rod-Outer
Segment |
Z. Olumee-Shabon, K.
Hines, B.J. Litman, and H-Y Kim |
Laboratory of
Membrane Biochemistry and Biophysics, NIAAA, Bethesda,
MD |
| 6 |
Examination
of Dodecyl Sulfate Properties and the Moving Boundary in
SDS-PAGE |
G. G. Giulian, C. R.
Merril1, J. Hwang, A. M. Bardo, J. R. Krogmeier, S. N. Goldie
and L. S. Goldner |
Laboratory of
Biochemical Genetics, NIMH, Bethesda, MD |
| 7 |
Analysis
of CD4 and FN interaction with GCDFP-15/gp17 by ProteinChip
Technology |
E. Caputo, A.
Camarca, R. Moharram, P. Tornatore, B. Thatcher, J. Guardiola
and B.M. Martin |
Laboratory of
Neurotoxicology, NIMH, Bethesda MD |
| 8 |
Evaluation
of an Automated Multi-dimensional LC-MS System for Peptide
Separation |
D.M. Maynard, J.
Masuda, J.A. Kowalak, S.P. Markey |
Laboratory of
Neurotoxicology, NIMH, Bethesda, MD |
| 9 |
DBParser:
A Perl Program for Proteomic Data Analysis |
X. Yang, V.
Dondetti, R. Dezube, D. M. Maynard, S.P. Markey, L. Geer, J.
Epstein and J.A. Kowalak |
Laboratory of
Neurotoxicology, NIMH, Bethesda MD |
| 10 |
Interaction
of Chlorisondamine with the Neuronal Nicotinic Acetylcholine
Receptor |
H.-Y.J. Wang, R.A.
Wise and A.S. Woods |
Behavioral
Neuroscience Branch, NIDA, Baltimore, MD |
| 11 |
The
Influence of Arginine Residues on Peptide Ion
Fragmentation |
J. B. Connolly, L.
J. O. Figueiredo, and S. J. Gaskell |
Section on
Biological Chemistry, NIDDK, Bethesda, MD |
| 12 |
Proteomic
analysis of early melanosomes |
V. Basrur, F. Yang, T.
Kushimoto, Y. Higashimoto, K. Yasumoto, J. Valencia, J.
Muller, W.D. Vieira, H. Watabe H, J. Shabanowitz, V.J.
Hearing, D.F. Hunt, E. Appella. |
Laboratory of Cell
Biology, National Cancer Institute, NIH, Bethesda, MD |
| 13 |
SELDI
proteomic profiling of sera from patients of FAP-celecoxib
clinical trial |
Z. Xiao, G.
Izmirlian, A. Umar, H. J. Issaq, T. P. Conrads, A. J.
Atkinson, P. M. Lynch, E. T. Hawk, P. Greenwald, T. D.
Veenstra, I. U. Ali |
Analytical Chemistry
Laboratory, NCI/SAIC Research Technology Program, Frederick,
MD |
| 14 |
Highly
Altered Protein Expression Profile in Doxorubicin Resistant
MCF-7 |
Y. Hathout, M.
Gehrmann, C. Fenselau |
Chemistry and
Biochemistry Departments, University of Maryland, College
Park, MD |
| 15 |
Image guided
proteomics in human glioblastoma multiforme: Molecular target
discovery |
G Shi, S. Guccione,
Y. Yang, S.K. Hobbs, R.J. Homer, G.W. Harsh, S.W. Atlas, M.D.
Bednarski |
Radiological
Sciences Laboratory, Stanford University, Palo Alto, CA |
| 16 |
Effect
Of Harvest Time On The LC-MS Profile Of Vegetative And
Sporulated Bacteria Using An In-House Biological Sample
Processing System |
R.E. Jabbour, S.V.
Deshpande, W.M. Maswadeh, A.P. Snyder |
U. S. Army, Chemical
Biological Point Detection Team, Aberdeen Proving Ground,
MD |
| 17 |
Separation
and identification of membrane proteins from rat cardiac and
skeletal |
Z.B. Li, M. Lehar,
P.W. Flint |
Otolaryngology-Head
and Neck Surgery, The Johns Hopkins University, Baltimore,
MD |
| 18 |
Protein
Profile of Human T-cell Leukemia Virus Type 1 Viral
Activator |
K. Wu, C. de la
Fuente, L. Deng, S. D. Gitlin, A. Maddukuri, H. Li, A. Vertes,
A. Pumfery, F. Kashanchi |
Department of
Biochemistry and Molecular Biology, George Washington
University Medical Center, Washington DC |
| 19 |
The
Role of Proteomics in Personalized Medicine |
S. M. Loyland, G.
Reid Asbury, and J. Gruia-Gray |
Proteomics Division,
Amersham Biosciences, Piscataway, NJ |
| 20 |
A
Comparison of Drug-Treated and Untreated HCT-116 Human Colon
Adenocarcinoma Cells Using a 2D Liquid Separation
Method |
F. Yan, B.
Subramanian, A. Nakeff, T. J. Barder, S. J. Parus, D. M.
Lubman |
Eprogen, Darien,
IL |
| 21 |
Automated
LabChip Electrophoresis of DNA and Proteins |
H. L.Phan, L.
Bousse,K. Williams,W. A. Ausserer |
Caliper
Technologies, Mt. View, CA |
| 22 |
Dramatically
enhanced proteolytic digestion of proteins employing a novel
denaturant |
J.C. Gebler, Y-Y. Yu,
M. Gilar, and P. J. Lee |
Waters Corporation,
Life Sciences R&D (CRD), Milford MA |
| 23 |
Glycosylation
Detection and Characterisation Using an LC-MS/MS Precursor Ion
Discovery Experiment on a Q-Tof Mass Spectrometer |
M. A. Ritchie, R.
Christian, N. Johnson, J. B. Hoyes, A. Millar, R. Carruthers,
C. Jones and J. Langridge |
Waters Corporation,
Life Sciences R&D (CRD), Milford MA |
| 24 |
A
Ruggedized and Automated 2D HPLC System for Peptide Analyses
by Nanospray ESI-MS |
J. Masuda, M.
Nishimura, T. Ueda, D.M. Maynard, J.A. Kowalak, S.P. Markey |
Shimadzu Corporation,
Columbia, MD |
| 25 |
Atmospheric
pressure matrix-assisted laser desorption/ionization
interfaced with hybrid quadrupole/ time-of-flight mass
spectrometer analysis of phosphorylated peptides |
N.I. Taranenko,V.V.
Laiko, B.D. Musselman, V.M. Doroshenko |
MassTech R&D,
Burtonsville, MD |
| 26 |
Rapid
Detection of Norwalk Virus-like Particles by MALDI-TOF
MS |
R. U. Halden, R. N.
Cole, C. Bradford, and K. J. Schwab |
Environmental Health
Sciences, Baltimore, MD |
| 27 |
A
Novel Automated PTM Discovery Method using a Hybrid Linear
Quadrupole Ion Trap |
C. Hunter, S.
Weintraub, T. Settineri |
Applied Biosystems,
Foster City, CA |
| 28 |
High-Speed
Protein Digestion and MALDI Peptide Mapping on a CD
Microlaboratory |
M. Holmquist, A. Palm,
J. Engström, U. Selditz, P. Andersson |
Gyros US Inc,
Monmouth, NJ |
| 29 |
Integration
of Capillary Isoelectric Focusing with Capillary
Reversed-Phase Liquid Chromatography as Multidimensional
Concentration/Separation Platform for Ultrasensitive Proteome
Analysis |
J. Chen, B. Balgley,
and C. S. Lee |
Calibrant
Biosystems, Rockville, MD |
| 30 |
A
General Approach to the Analysis of Post-Translational
Modifications Combining Ion Trap Technology, Accurate Mass
Detection, and Data Mining Software |
S-L. Wu, A. Huhmer, K.
Miller |
ThermoFinnigan, San
Jose, CA |
| 31 |
A
New Software Environment for Comprehensive Review of MS Data
from Proteomics Experiments |
C.A. Miller, B.D.
Miller, J. Roark |
Agilent
Technologies, Santa Clara, CA |
| 32 |
Sample
Preparation for MALDI-TOF/TOF Protein Identification
with
>95 % Success Rates |
D. Suckau, P. Berndt,
M. Schuerenberg and H. Langen |
Bruker Daltonics,
Bremen, Germany |
| 33 |
Identifying
Differentially Expressed Proteins in Alzheimer’s Brain Cells
Using Orthogonal Injection MALDI TOF Mass Spectrometry |
J. DiCesare, E.
Denoyer, M. Lopez, S. Kuzdzal, J. Van Dinther, S. Ackloo, A.
Loboda, S. Melov, D. A. Bennett, and Libby Kellard |
PerkinElmer Life and
Analytical Sciences, Shelton, CT |
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