Award Abstract #0521342
Acquisition of a 500 MHz NMR Spectrometer to Enhance Research and Research Training Opportunities at the Department of Chemistry & Biochemistry at San Francisco State University

NSF Org:	DBI Division of Biological Infrastructure
Initial Amendment Date:	August 11, 2005
Latest Amendment Date:	August 11, 2005
Award Number:	0521342
Award Instrument:	Standard Grant
Program Manager:	Robyn E. Hannigan DBI Division of Biological Infrastructure BIO Directorate for Biological Sciences
Start Date:	August 15, 2005
Expires:	July 31, 2008 (Estimated)
Awarded Amount to Date:	$642412
Investigator(s):	Ursula Simonis uschi@sfsu.edu (Principal Investigator) Andrew Ichimura (Co-Principal Investigator) Ihsan Erden (Co-Principal Investigator)
Sponsor:	San Francisco State University 1600 Holloway Ave San Francisco, CA 94132 415/338-7091
NSF Program(s):	MAJOR RESEARCH INSTRUMENTATION
Field Application(s):
Program Reference Code(s):	BIOT,9184,2886
Program Element Code(s):	1189

ABSTRACT

This award supports the acquisition of a high-resolution, high-field 500 MHz NMR spectrometer that is equipped with pulsed field gradient, cross-polarization magic angle spinning (CPMAS), and variable temperature accessories, as well as a multinuclear observe, an inverse broadband, and a CPMAS probe. The specific aims of the project are to (i) expand the research opportunities of ten faculty members in the Department of Chemistry & Biochemistry, their research students, and laboratory personnel in two of the focus areas central to the research and teaching mission of the Department, namely structure/function relationships of biomolecules and materials chemistry, and open up new lines of investigation; (ii) enhance and facilitate collaborative research with Ph.D. granting institutions or the private sector; and (iii) increase the research activities of a diverse undergraduate and graduate student population through access and training in the practical applications of liquid and solid state NMR spectroscopy at high field. In the area related to structure and function of biomolecules, the NMR spectrometer will allow new insights to be obtained in the (i) study of porphyrinic and metalloporphyrinic pigments incorporated in model membrane systems; (ii) synthesis of structurally complex alkaloids; (iii) understanding of structure/function relationships of metalloenzymes, of metallopeptidase inhibitors, and of enzyme substrate analogs involved in DNA and RNA biosynthesis; (iv) study of gas-phase salt complex substitution and elimination reactions emphasizing chiral recognition; and (v) study of metabolic pathways and mitochondrial complexes I and II. In the materials or environmentally relevant materials chemistry area, solid and liquid state NMR spectroscopy will facilitate research on (i) novel zeolite intercalation compounds, (2) the cycling and fate of organic matter in the environment, (iii) reactions of arsenic on mineral, metal oxide, and remediation material surfaces, and in silicon tetraazaannulene complexes that are studied in collaboration with the private sector.

The acquisition of this instrument will provide unique opportunities to a diverse student body in both the research and instructional programs to acquire hands-on training in modern aspects of NMR spectroscopy. Acquisition of this instrument will jumpstart the research careers of recently hired minority and women faculty members and empower them to pursue new lines of biomolecular or materials chemistry research, or to establish themselves as role models in the applications of solid-state NMR spectroscopy to the fate of organic matter in the environment. As a minority-serving campus, SFSU is proud to be a leader in the education of a student body that is comprised of 68% non-white ethnicity students and 61% women. Thus, the training in modern high-field NMR applications combined with the collaborative student-faculty research focus will prepare the Department's diverse student body for the challenges awaiting them in Ph.D. programs and the workforce.

PUBLICATIONS PRODUCED AS A RESULT OF THIS RESEARCH

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Anderson, MO; Wu, LY; Santiago, NM; Moser, JM; Rowley, JA; Bolstad, ESD; Berkman, CE.  "Substrate specificity of prostate-specific membrane antigen,"  BIOORGANIC & MEDICINAL CHEMISTRY,  v.15,  2007,  p. 6678 - 6686.  

Blecha, J.E.; Anderson, M.O.; Chow, J.M.*; Guevarra, C.C.*; Pender, C.; Penaranda, C.; Zavodovskaya, M.; Youngren, J.F.; Berkman, C.E..  "Inhibition of IGF-1R and Lipoxygenase by Nordihydroguaiaretic Acid (NDGA) Analogs.,"  Bioorg. Med. Chem. Lett.,  v.17,  2007,  p. 4026.

Blecha, JE; Anderson, MO; Chow, JM; Guevarra, CC; Pender, C; Penaranda, C; Zavodovskaya, M; Youngren, JF; Berkman, CE.  "Inhibition of IGF-1R and lipoxygenase by nordihydroguaiaretic acid (NDGA) analogs,"  BIOORGANIC & MEDICINAL CHEMISTRY LETTERS,  v.17,  2007,  p. 4026 - 4029.  

Chatterjee, K; Zhang, JQ; Honbo, N; Simonis, U; Shaw, R; Karliner, JS.  "Acute vincristine pretreatment protects adult mouse cardiac myocytes from oxidative stress,"  JOURNAL OF MOLECULAR AND CELLULAR CARDIOLOGY,  v.43,  2007,  p. 327 - 336.  

Chen, DX; Ho, CM; Wu, QYR; Wu, PR; Wong, FM; Wu, WM.  "Convenient oxidation of benzylic and allylic halides to aldehydes and ketones,"  TETRAHEDRON LETTERS,  v.49,  2008,  p. 4147 - 4148.  

Erden, I., Ozer, G., Hoarau, C., Cao, W.,.  "Cyclocondensation of Amidines with Dimethyl Acetylenedicarboxylate: a Convenient Entry into Tetramic Acids,,"  Heterocyclic Chem.,  v.43,  2006, 

Erden, I; Ocal, N; Song, JG; Gleason, C; Gartner, C.  "Unusual endoperoxide isomerizations: a convenient entry into 2-vinyl-2-cyclopentenones from saturated fulvene endoperoxides,"  TETRAHEDRON,  v.62,  2006,  p. 10676 - 10682.  

Erden, I; Ozer, G; Hoarau, C; Cao, WG.  "Cyclocondensation of amidines with dimethyl acetylenedicarboxylate: A convenient entry into tetramic acids,"  JOURNAL OF HETEROCYCLIC CHEMISTRY,  v.43,  2006,  p. 395 - 399.  

Gray, MO; Zhou, HZ; Ma, X; Simonis, U; Messing, RO.  "Moderate alcohol consumption and protection from cardiac reperfusion injury,"  ALCOHOLISM-CLINICAL AND EXPERIMENTAL RESEARCH,  v.31,  2007,  p. 96A - 96A.  

Liu, TC; Wu, LY; Kazak, M; Berkman, CE.  "Cell-surface labeling and internalization by a fluorescent inhibitor of prostate-specific membrane antigen,"  PROSTATE,  v.68,  2008,  p. 955 - 964.  

Tao, R; Karliner, JS; Simonis, U; Zheng, J; Zhang, J; Honbo, N; Alano, CC.  "Pyrroloquinoline quinone preserves mitochondrial function and prevents oxidative injury in adult rat cardiac myocytes,"  BIOCHEMICAL AND BIOPHYSICAL RESEARCH COMMUNICATIONS,  v.363,  2007,  p. 257 - 262.  

Wong, FM; Capule, CC; Chen, DX; Gronert, S; Wu, WM.  "Surprisingly low aqueous acidity at the alpha-positions of pyridiniums and pyrimidinium: The role of solvation,"  ORGANIC LETTERS,  v.10,  2008,  p. 2757 - 2760.  

Wong, FM; Capule, CC; Wu, WM.  "Stability of the 6-carbanion of uracil analogues: Mechanistic implications for model reactions of orotidine-5 '-monophosphate decarboxylase,"  ORGANIC LETTERS,  v.8,  2006,  p. 6019 - 6022.  

Wong, FM; Wang, JB; Hengge, AC; Wu, WM.  "Mechanism of rhodium-catalyzed carbene formation from diazo compounds,"  ORGANIC LETTERS,  v.9,  2007,  p. 1663 - 1665.  

Wu, LY; Anderson, MO; Toriyabe, Y; Maung, J; Campbell, TY; Tajon, C; Kazak, M; Moser, J; Berkman, CE.  "The molecular pruning of a phosphoramidate peptidomimetic inhibitor of prostate-specific membrane antigen,"  BIOORGANIC & MEDICINAL CHEMISTRY,  v.15,  2007,  p. 7434 - 7443.  

Wu, LY; Do, JC; Kazak, M; Page, H; Toriyabe, Y; Anderson, MO; Berkman, CE.  "Phosphoramidate derivatives of hydroxysteroids as inhibitors of prostate-specific membrane antigen,"  BIOORGANIC & MEDICINAL CHEMISTRY LETTERS,  v.18,  2008,  p. 281 - 284.  

Yeoh, FY; Cuasito, RR; Capule, CC; Wong, FM; Wu, W.  "Carbanions from decarboxylation of orotate analogues: Stability and mechanistic implications,"  BIOORGANIC CHEMISTRY,  v.35,  2007,  p. 338 - 343.  

Zhou, HZ; Ma, X; Cecchini, G; Simonis, U; Gray, MO.  "Akt activation stimulated by moderate alcohol consumption is critical for enhancement of mitochondrial function and cardiac contractile recovery following ischemia-reperfusion,"  CIRCULATION,  v.114,  2006,  p. 1202 - 1203.  

Zhou, HZ; Ma, XK; Gray, MO; Zhu, BQ; Nguyen, AP; Baker, AJ; Simonis, U; Cecchini, G; Lovett, DH; Karliner, JS.  "Transgenic MMP-2 expression induces latent cardiac mitochondrial dysfunction,"  BIOCHEMICAL AND BIOPHYSICAL RESEARCH COMMUNICATIONS,  v.358,  2007,  p. 189 - 195.  

Zhou, HZ; Ma, XK; Gray, MO; Zhu, BQ; Nguyen, AP; Simonis, U; Cecchini, G; Lovett, D; Karliner, JS.  "Transgenic matrix metalloproteinase-2 expression increases myocardial reperfusion injury and abrogates cardioprotection induced by ischemic preconditioning,"  CIRCULATION,  v.114,  2006,  p. 328 - 328.  


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