Kate Carroll
130 Scripps Way, 2B2 — Jupiter, FL 33458
Phone: 561-228-2460 — Fax: 561-228-2919 — E-Mail: kcarroll@scripps.edu
Education
B.A.
Mills College, Biochemistry
1996
Ph.D. Stanford University, Biochemistry
2003
Professional Appointments
• University of California at BerkeleyDamon Runyon Postdoctoral
Fellow
2003
• University of Michigan
Assistant Professor of Chemistry
2006
• The Scripps Research Institute, Scripps Florida
Associate Professor of Chemistry (Without Tenure)
2010
• The Scripps Research Institute, Scripps FloridaAssociate
Professor of Chemistry (With Tenure)
2013
Honors and Awards
• American Heart Association Predoctoral Fellowship
2000
• Damon Runyon Postdoctoral Fellowship
2003
• Leukemia and Lymphoma Society Special Fellow Award
2006
• University of Michigan Biological Sciences Scholar
2006
• American Heart Association Scientist Development Award
2008
• Camille Dreyfus Teacher-Scholar Award
2010
• ACS Pfizer Award in Enzyme Chemistry
2013
Research Experience
• Rockefeller University, Professor Tom Sakmar
The mechanism of spectral tuning in visual pigments.
1995
• University of California at Berkeley,Professor Mike Chamberlin
The role of RNA binding sites in transcript elongation.
1995-1997
• Stanford University, Professor Dan Herschlag
The energetics of hydrogen bonds in model systems.
1997-1999
• Stanford University, Professor Suzanne PfefferMolecular
cooperation in mannose-6-phosphate receptor transport.
2000-2002
• University of California at Berkeley, Professor Carolyn
BertozziReductive sulfate metabolism in Mycobacterium tuberculosis.
2003-2006
Kate Carroll
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National Service
• Ad Hoc Member, NIGMS Minority Biomedical Research Support
Chemistry Study Section
2009-current
• Ad Hoc Reviewer, Nation Science Foundation
2009-current
Division of Molecular and Cellular Biosciences
• Ad Hoc Member, NIH Small Business Innovation Research Program
2011-current
Biochemistry, Biophysics, and Drug Discovery Study Section
Service Activities
• Editorial board, Molecular Biosystems (2009-present), FASEB Journal (2011-present), Journal of
Biological Chemistry (2012-present)
• Scientific advisory board, TargAnox (2009-present)
• Reviewer for:ACS Chemical Biology, Biochemistry, BBA Proteins and Proteomics, BMC Systems
Biology, Bioorganic and Medicinal Chemistry Letters, John Wiley & Sons, Journal of the American
Chemical Society, Journal of the American Society for Mass Spectrometry, Molecular Biosystems,
Nature, Nature Chemical Biology, Organic and Biomolecular Chemistry, and Organic Letters.
• Guest editor, Current Opinion in Chemical Biology, 2011 Omics issue.
• Guest editor,Antioxidants & Redox Signaling, 2011 Forum issue.
Affiliations/Memberships
• American Association for the Advancement of Science
1997
• American Chemical Society
2006
• American Society for Biochemistry and Molecular Biology
2010
Peer-Reviewed Publications from Postdoctoral and Graduate Research
1.
“VirE1 protein mediates export of the single-stranded DNA-binding protein VirE2 from
Agrobacterium tumefaciens into plant cells.” Sundberg, C.; Meek, L.; Carroll, K. S.; Das, A.; Ream,
W. J. Bacteriol.1996, 178 (4), 1207-12.
2.
“Mechanisms of spectral tuning in blue cone visual pigments: Visible and Raman spectroscopy of
blue shifted rhodopsin mutants.” Lin, S. W.; Kochendoerfer, G. G.; Carroll, K. S.; Wang, D.;
Mathies, R. A.; Sakmar, T. P. J. Biol. Chem. 1998, 273 (38), 24583-91.
3.
“Role of Rab9 GTPase in facilitating receptor recruitment by TIP47.” Carroll, K. S.; Hanna, J.;
Simon, I.; Krise, J.; Barbero, P.; Pfeffer, S. R. Science2001, 292 (5520), 1373-6.
“Identification of residues in TIP47 essential for Rab9 binding.” Hanna, J.; Carroll, K. S.; Pfeffer, S.
R. Proc. Natl. Acad. Sci. USA2002, 99 (11), 7450-4.
4.
Kate Carroll
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5.
“Probing the Tetrahymena group I ribozyme reaction in both directions.” Karbstein, K.; Carroll,
K. S.; Herschlag, D.Biochemistry2002, 41 (37), 11171-83.
6.
“Challenges in enzyme mechanism and energetics.” Kraut, D. A.; Carroll, K. S.; Herschlag, D.
Annu. Rev. Biochem.2003, 72, 517-71.
7.
“Rab9 GTPase regulates late endosome size and requires effector interaction for its stability.”
Ganley, I. G.; Carroll, K. S.; Bittova, L.; Pfeffer, S.Mol. Biol. Cell2004, 15 (12), 5420-30.
8.
“A conserved mechanism for sulfonucleotide reduction.” Carroll, K. S.; Gao, H.; Chen, H.; Stout, C.
D.; Leary, J. A.; Bertozzi, C. R. PLoS Biol.2005, 3 (8), e250.
9.
“Investigation of the iron-sulfur cluster in Mycobacterium tuberculosis APS reductase: Implications
for substrate binding and catalysis.” Carroll, K. S.; Gao, H.; Chen, H.; Leary, J. A.; Bertozzi, C. R.
Biochemistry2005, 44 (44), 14647-57.
10.
“Substrate recognition, protein dynamics, and iron-sulfur cluster in Pseudomonas aeruginosa
adenosine 5'-phosphosulfate reductase.” *Chartron, J.; *Carroll, K. S.; Shiau, C.; Gao, H.; Leary, J.
A.; Bertozzi, C. R.; Stout, C. D. J. Mol. Biol.2006, 364 (12),152-69. *Co-first authors.
11.
“Noncovalent complexes of APS reductase from M. tuberculosis: Delineating a mechanistic model
using ESI-FTICR MS.” Gao, H.; Leary, J.; Carroll, K. S.; Bertozzi, C. R.; Chen, H. J. Am. Soc. Mass
Spectrom.2007, 18 (2), 167-78.
Independent Peer-Reviewed Publications
12.
“3'-Phosphoadenosine-5'-phosphosulfate reductase in complex with thioredoxin: A structural
snapshot in the catalytic cycle.” *Chartron, J.; *Shiau, C.; Stout, C. D.; Carroll, K.
S.Biochemistry2007, 46 (13), 3942-51. *Co-first authors. Accelerated Publication.
13.
“Drug targets in mycobacterial sulfur metabolism.” Bhave, D. P.; Muse, W. B., III; Carroll, K.
S.Infect. Disord.Drug.Targets2007, 7 (2), 140-58.
14.
“Empirical entropic contributions in computational docking: Evaluation in APS reductase
complexes.” Chang, M. W.; Belew, R. K.; Carroll, K. S.; Olson, A. J.; Goodsell, D. S. J. Comput.
Chem.2008, 29 (11), 1753-61.
15.
“Structure-based virtual screening and biological evaluation of Mycobacterium tuberculosis
adenosine 5'-phosphosulfate reductase inhibitors.” *Cosconati, S.; *Hong, J. A.; Novellino, E.;
Carroll, K. S.; Goodsell, D. S.; Olson, A. J. J. Med. Chem.2008, 51 (21), 6627-30. *Co-first authors.
16.
“A chemical approach for detecting sulfenic acid-modified proteins in living cells.” Reddie, K. G.;
Seo, Y. H.; Muse III, W. B.; Leonard, S. E.; Carroll, K. S.Mol. Biosyst.2008, 4 (6), 521-31.Emerging
investigator’s issue.Highlighted in Nat. Chem. Biol. 2008, 4, 277 and Chem. Biol. RSC, March 14, 2008.
17.
“Expanding the functional diversity of proteins through cysteine oxidation.” Reddie, K. G.;
Carroll, K. S.Curr.Opin.Chem. Biol. 2008, 12 (6), 746-54.
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18.
“Facile synthesis and biological evaluation of a cell-permeable probe to detect redox-regulated
proteins.” Seo, Y. H.; Carroll, K. S.Bioorg. Med. Chem. Lett.2009, 19 (2), 356-9.
19.
“Chemical dissection of an essential redox switch in yeast.” Paulsen, C. E.; Carroll, K. S.Chem. &
Biol.2009, 16 (2), 217-25.
20.
“Identification of critical ligand binding determinants in Mycobacterium tuberculosis adenosine-5’phosphosulfate reductase.” Hong, J. A.; Bhave, D. P.; Carroll, K.S.J. Med. Chem.2009, 52 (17),
5485-95.
21.
“Mining the thiol proteome for sulfenic acid modifications reveals new targets for oxidation in
cells.” Leonard, S. E.; Reddie, K. G.; Carroll, K.S.ACS Chem. Bio.2009, 4 (9), 783-99.#1 Top-cited
research article in ACS Chem. Bio.journal (2009-2011). Highlighted in C&E News, October 5, 2009, p.
38.
22.
“Profiling protein thiol oxidation in tumor cells using sulfenic acid-specific antibodies.” Seo, Y. H.;
Carroll, K.S.Proc. Natl. Acad. Sci.2009, 106 (38), 16163-76.
23.
“A periplasmic reducing system protects single cysteine residues from oxidation.” Depuydt, M.;
Leonard, S. E.; Vertommen, D.; Swisser, F.; Denoncin, K.; Morsomme, P.; Messens, J.; Carroll,
K.S.; Collet, J. F. Science2009, 326 (5956), 1109-11.Highlighted in Sci. Signal.2, ec381, 2009.
24.
“Orchestrating redox signaling networks through regulatory cysteine switches.” Paulsen, C. E.;
Carroll, K. S.ACS Chem. Biol. 2010, 5 (1), 47-62.
25.
“Mass spectrometric analysis of mycothiol levels in wild-type and mycothiol disulfide reductase
mutant Mycobacterium smegmatis.” Holsclaw, C. M.; Muse, W. B. III; Carroll, K.S.; Leary, J. A.Int. J.
Mass. Spectrom. 2011, 305 (2-3), 151-6.
26.
“Spectroscopic studies on the [4Fe-4S] cluster in adenosine 5’-phosphosulfate reductase from
Mycobacterium tuberculosis.” Bhave, D. P.; Hong, J. A.; Lee, M.; Jiang, W.; Krebs, C.; Carroll, K.S.J.
Biol. Chem.2011, 286 (2), 1216-26.
27.
“Quantification of protein sulfenic acid modifications using isotope-coded dimedone and
iododimedone (ICDID).” Seo, Y. H.;Carroll, K.S. Angew. Chem. Int. Ed. 2011, 50 (6), 134245.Selected by reviewers as a “Very Important Paper” (top 5% of manuscripts).Highlighted in C&E News,
February 7, 2011, p. 28 and ChemBioChem 2011, 12, p. 841.
“Knock, Nox - ROS there?” Carroll, K.S. Nat. Chem. Biol. 2011, 7 (2), 71-2.
28.
29.
“Chemical ‘omics’ approaches for understanding protein cysteine oxidation in biology.” Leonard,
S. E.; Carroll, K.S. Curr.Opin. Chem. Biol. 2011, 15 (1), 88-102.
30.
“Omics of natural products and redox biology.” Dorrestein, P. C.; Carroll, K.S. Curr.Opin. Chem.
Biol. 2011, 15 (1), 3-4.
31.
“Redox-based probes for protein tyrosine phosphatases.” Leonard, S. E.; Garcia, F. J.; Goodsell, D.
S.; Carroll, K.S. Angew.Chem. Int. Ed. 2011, 50 (19), 4423-7.
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32.
“Isotope-coded chemical reporter and acid-cleavable affinity reagents for monitoring protein
sulfenic acids.” Truong, T. H.; Garcia, F. J.; Seo, Y. H.; Carroll, K. S. Bioorg. Med. Chem.
Lett.2011,21 (17), 5015-20.Special issue in honor of Prof. Carolyn Bertozzi.
33.
“Geometric and electrostatic study of the [4Fe-4S] cluster of adenosine-5′-phosphosulfate
reductase from broken symmetry density functional calculations and extended x-ray absorption
fine structure spectroscopy.” Bhave, D. P.; Han, W.G.; Pazicni, S.; Penner-Hahn, J. E.; Carroll K.
S.; Noodleman, L. J. Inorg. Chem.2011, 50 (14), 6610–25.
34.
“Deciphering the role of His252 in mycobacterial APS reductase catalysis.” Hong, J. A.; Carroll,
K.S.J. Biol. Chem.2011,286 (32), 28567-73.
35.
“Peroxide-dependent sulfenylation of the EGFR catalytic site enhances kinase activity.” Paulsen,
C. E.;Truong, T. H.; Garcia, F. J.; Homann, A.; Gupta, V.; Leonard, S. E.; Carroll, K. S.Nat. Chem.
Biol.2012, 8 (1), 57-64. Highlighted in C&E News, December 12, 2011, p. 26 and Sci. Signal.5, pe10,
2012.
36.
“Iron-sulfur cluster engineering provides insight into the evolution of substrate specificity among
sulfonucleotide reductases.” Bhave, D. P.; Hong, J. A.; Keller, R. L.; Krebs, C.; Carroll, K.S.ACS
Chem. Biol.2012, 7 (2), 306-13.
37.
“Inactivation of thiol-dependent enzymes by HOSCN: Role of sulfenyl thiocyanate and sulfenic
acid intermediates.” Barrett, T. J.; Pattison, D. I.; Leonard, S. E.; Carroll, K.S.; Davies, M. J.;
Hawkins, C. L. Free Radic. Biol. Med.2012,52 (6), 1075-85.
38.
“Bioorthogonal chemical reporters for analyzing protein sulfenylation in cells.” Truong, T H.;
Carroll, K. S.Curr.Prot. Chem. Biol.2012, 4 (6), 101-22.
39.
“Chemoselective ligation of sulfinic acids with aryl-nitrso compounds.” LoConte, M.; Carroll, K. S.
Angew.Chem. Int. Ed. 2012, 51 (26), 6502-5.
40.
“Sulforaphane inhibits pancreatic cancer through disrupting Hsp90-p50Cdc37 complex and direct
interactions with amino acid residues of Hsp90.” Li, Y.; Karagoz, G. E.; Seo, Y. H.; Zhang, T.;
Jiang, Y.; Yu, Y.; Duarte, A. M. S.; Scwartz, S. J.; Boelens, R.; Carroll, K. S.; Rudiger, S. G. D.; Sun,
D. J. Nutr. Biochem.2012, 23 (12) 1617-26.
41.
“Tetrapyrrole regulator CrtJ contains a redox active cysteine in a DNA-binding domain that
controls activity.” Cheng, Z.; Wu, J.; Setterdahl, A.; Reddie, K. G.; Carroll, K. S.; Bauer, C. E. Mol.
Micro.2012,84 (4), 734-46.
42.
“Redox-sensitive sulfenic acid modification regulates surface expression of the cardiovascular
voltage-gated potassium channel, Kv1.5.” Svoboda L. K.; Reddie K. G.; Zhang L.; Vesely E. D.;
Williams E. S.; Schumacher S. M.; O'Connell R. P.; Shaw R.; Day S. M.; Anumonwo J. M.;Carroll
K. S.; Martens J.R. Circ. Res.2012, 111 (7), 842-53.
43.
“Redox-regulation of epidermal growth factor receptor signaling through cysteine oxidation.”
Truong, T. H.; Carroll, K. S. Biochemistry (Invited Current Topics Article). 2012, 51(50), 9954-9965.
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44.
“Downregulation of tumor growth and invasion by redox-active nanoparticles.” Alili, L.; Sack, M.;
Von Montfort, C.; Giri, S.; Das, S.; Carroll, K. S.; Zanger, K.; Seal, S.; Brenneisen, P. Antioxid.
Redox Signaling. 2012, 19(8), 765-778.
45.
“The chemistry of thiol oxidation and detection.” LoConte, M.; Carroll, K. S. in Oxidative stress
and redox regulation. Jakob, U. Ed.; Springer: New York, 2012, Chapter 1, pp 1-42.
46.
“Regulation of A20 and other OTU DUBs by reversible oxidation.” Kulathu, Y.; Garcia, F.; Busch,
M.; Mevissen, T.; Arnaudo, N.; Carroll, K. S.; Barford, D.; Komander, D. Nat. Comm. 2013, 4:1569.
doi: 10.1038/ncomms2567.
47. “Cysteine-mediated redox signaling: Chemistry, biology, and tools for discovery.” Paulsen, C. E.;
Carroll, K. S. Chem. Rev. 2013, 113(7), 4633-4679.
48.
“RegB kinase activity is repressed by oxidative formation of cysteine sulfenic acid.” Wu, J.; Cheng,
Z.; Reddie, K. G.; Carroll, K. S.; Hammand, L. A., Karty, J. A.; Bauer, C. E. J. Biol. Chem. 2013,
288(7), 4755-4762.
49.
“Engineering redox-sensitive GFP for dynamic imaging of mycothiol redox potential during
Mycobacterium tuberculosis infection.” Bhaskar, A.; Chawla, M.; Mehta, M.; Parikh, P.; Chandra, P.;
Luxenburger, A.; Bhave, D. P.; Carroll, K. S. Singh, A. Proc. Natl. Acad. Sci., 2013, under review.
50.
“Redox-regulation of protein kinases.” Truong, T. H.; Carroll, K. S. Crit. Rev. Biochem. Mol. Biol.
(Invited Review).2013, 48(4), 332-356.
51.
“Redox regulation of epidermal growth factor receptor signaling through cysteine oxidation.”
Truong T.H.; Carroll K. S. Biochemistry. 2012, 51(50):9954-65.
52.
“Persulfide Reactivity in the Detection of Protein S-Sulfhydration.” Pan J.; Carroll K.S. ACS Chem
Biol. 2013, 8 (6), pp 1110–1116.
53.
“Efficient microwave-assisted solid phase coupling of nucleosides, small library generation, and
mild conditions for release of nucleoside derivatives.” Paritala, H.; Suzuki, Y.; Carroll, K.S.
Tetrahedron Letters, 2013, 54 (14), 1869-1872.
54.
“Downregulation of Tumor Growth and Invasion by Redox-Active Nanoparticles.” Alili L.; Sack
M.; von Montfort C.; Giri S.; Das S.; Carroll K.S.; Zanger K.; Seal S.; Brenneisen P. Antioxid Redox
Signal. 2013, 19(8), 765-778.
55.
“Chemical biology approaches to study protein cysteine sulfenylation.” Pan J.; Carroll K.S.,
Biopolymers. 2013. doi: 10.1002/bip.22255.
56.
“A Continuous Spectrophotometric Assay for APS Reductase Activity with Sulfite-Selective
Probes.” Paritala H., Carroll K.S. Anal Biochem. 2013, 440(1), 32-39.
57.
“Sulfenic acid chemistry, detection and cellular lifetime.”
Gupta, V., Carroll, K. S.,
Biochim.Biophys.Acta. 2013. doi.org/10.1016/j.bbagen.2013.05.040
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58.
“New Targets and Inhibitors of Mycobacterial Sulfur Metabolism” Paritala H., Carroll, K.S.,
Infectious Disorders Drug Targets, 2013, 13 (2), 85-115.
59.
“The Redox Biochemistry of Protein Sulfenylation and Sulfinylation” LoConte, M.; Carroll, K. S.,
J. Biol. Chem., 2013, 288(37), 26480-26488.
Ongoing Research Support
R01 GM102187 (single PI)
NIH/NIGMS
08/01/12 - 07/31/16
$205,000 direct + $200,900 indirect per year
$1,650,000 total
Title: “Probing the role of cysteine sulfenylation in cell signaling”
The major goal is to investigate the role of protein sulfenylation during growth factor signaling.
SFP-2053 (single PI)
TargAnox
08/01/12 - 07/31/15
$205,300 direct + 203,250 indirect per year
$ 1,245,000 total
Title: “Redox-based inhibitors of kinases and phosphatases”
The major goal is to develop inhibitors thattarget redox-sensitive kinases and phosphatases.
R01 GM087638 (single PI)
NIH/NIGMS
12/01/08 - 11/30/13
$260,000 direct + 245,000 indirect per year
$ 2,525,000 total
Title: “The chemistry and biology of sulfonucleotide reductases”
The major goalis to elucidate the mechanism and structure of bacterial cysteine biosynthesis enzymes.
Camille Dreyfus Teacher-Scholar Award
Dreyfus Foundation
7/01/10 - 6/30/2015
$15,000 direct per year
$75,000 total
Title: “Painting the cysteine chapel: New tools to probe oxidation biology”
The major goalis to develop quantitative methods for monitoring protein cysteine oxidation.
Pending Research Support
R01 CA174864
NIH/NCI
(single PI)
04/01/13 - 03/31/18
$262,780 direct + $257,525 indirect per year
$2,601,500 total
Title: “Nucleophilic inhibitors for targeting redox-sensitive kinases”
The major goal of this grant is todevelop nucleophilic inhibitors that target oxEGFR and HER2.
R01 AI104986 (single PI)
04/01/13 - 03/31/16
NIH/NIAID
$231,100 direct + $208,525 indirect per year
$1,320,000 total
Title: “High-throughput assays for inhibitors of MTb persistence enzyme APS reductase”
Kate Carroll
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The major goals of this grant are to develop and optimize HTS assays for MTb APSR inhibitors.
Completed Research Support
Scientist Development Grant
American Heart Association
07/01/08- 06/30/12
$70,000 direct + $7,000 indirect per year
$308,000 total
Title: “Chemical Approaches for Identifying Targets of Oxidative Signaling and Stress in Living Cells”
The major goal of this grant was to developchemical methods to detect protein sulfenic acid in cells.
SupplementtoR01 GM087638(single PI)
NIH/NIGMS
09/20/09–08/31/2011
$260,000 direct + 245,000 indirect per year
$ 2,525,000 total
Title: “The chemistry and biology of sulfonucleotide reductases”
This award was an ARRA supplement to R01 GM087638.
Special Fellows Award
Leukemia & Lymphoma Society
08/01/06 – 07/31/09
$60,000 direct per year
$180,000 total
Title: “A Chemical Approach Toward Uncovering the Sulfoproteome”
This award was aimed at developing chemical methods to detect sulfenicacid modifications in vitro.
Invited Seminars
• New York Academy of Sciences
2006
• Biological Scholars Science Symposium, University of Michigan
2007
• Department of Chemistry, Michigan State University
2008
• Chemical-Biology Interface Symposium, University of Michigan
2008
• Department of Chemistry, Trinity University
2008
• Department of Chemistry, University of Texas at San Antonio
2008
• Redox Biology Center, University of Nebraska at Lincoln
2008
• Department of Biochemistry, Albert Einstein College of Medicine
2009
• Department of Chemistry, Scripps, Florida
2009
• Department of Pharmacology and Molecular Sciences, Johns Hopkins
2010
• Department of Biochemistry, University of Vermont
2011
• Avila Therapeutics, Boston
2011
Kate Carroll
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• EMD Serono, Boston
2011
• Stockholm University, Stockholm, Sweden
2011
• Karolinska Institute, Stockholm, Sweden
2011
• University of California, Irvine
2011
• University of California, San Diego
2011
• Florida Atlantic University, Boca Raton, Florida
2012
• Department of Chemistry and Chemical Biology, Harvard University
2012
• Department of Chemistry and Chemical Biology, Cornell University
2012
• Department of Chemistry, The College of Wooster
2012
• Department of Chemistry, University of Southern California
2013
• Department of Chemistry, University of Wisconsin, Madison
2013
• Department of Chemistry, University of California, Berkeley
2013
• Chemical Biology Initiative Symposium, University of Minnesota
2013
• Chemical Biology Initiative Symposium, Yale
2013
• Department of Biochemistry and Biophysics, Oregon State University
2013
• Department of Chemistry, Princeton University
2013
Meeting Presentations
• Thiol Redox and Regulation Gordon Conference (poster)
2006
• Midwestern Enzymes Conference (seminar)
2006
• Midwestern Carbohydrate and Glycobiology Conference (seminar)
2007
• Bioorganic Chemistry GRC (poster)
2007
• Bioorganic Chemistry GRC (poster)
2008
• Transatlantic Frontiers in Chemistry, Cheshire, UK (poster)
2008
• Enzyme, Coenzymes & Metabolic Pathways GRC (seminar)
2008
• ACS National Meeting, Salt Lake City, UT (seminar)
2009
• ACS National Meeting, San Francisco, CA (seminar)
2010
• Bioorganic Chemistry GRC (seminar)
2010
• NCI Chemical Insights in Biology Processes Symposium (seminar)
2010
Kate Carroll
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• 22nd Enzyme Mechanisms ConferenceSt. Petersburg, FL (seminar)
2011
• Frontiers in Bioscience, Palm Springs, CA (seminar)
2011
• ACS National Meeting, Anaheim, CA (seminar)
2011
• ASBMB National Meeting, Washington, DC (seminar)
2011
• HTS & Chemical Biology GRC (seminar)
2011
• APS National Meeting, San Diego, CA (seminar)
2011
• ACS National Meeting, Denver, CO (session organizer, seminar)
2011
• ESF-EMBO Symposium, Sant Feliu de Guixols, Spain (seminar)
2011
• Chemical Biology Symposium, Academia Sinica, Taiwan(seminar)
2011
• Enzyme, Coenzymes & Metabolic Pathways GRC (seminar)
2012
• Thiol-Based Redox Regulation & Signaling GRC (seminar)
2012
• ACS National Meeting, Philadelphia, PA(seminar)
2012
• Watanabe Symposium, Department of Chemistry, Indiana University
2012
• Redox Biology Center Symposium, University of Nebraska, Lincoln (seminar)
2012
• ASBMB Symposium, Posttranslational Modifications, Tahoe, CA (seminar)
2012
• Chemical Biology Symposium, SERMACS, Raleigh, NC (seminar)
2012
• 19th Annual Society for Free Radical Biology Meeting, San Diego, CA (seminar)
2012
• Japanese-American Kavli Frontiers in Science Symposium (poster)
2012
• ACS National Meeting, Indianapolis, IN (session organizer, seminar)
2013
• Protein Society Symposium, Boston, MA (seminar)
2013
High School and Undergraduate Trainees
• Beata Leung (University of Michigan)
2007-2008
• Connie Hsaio (University of Michigan)
2007-2010
• Jesse Song (University of Michigan)
2008-2010
• Britney Nobles (UM Chemistry REU, Norfolk State University)
2009
• Kati Conen (UM Chemistry REU, Emory University)
2009, 2010
• Will Bian (University of Michigan)
2009-2010
• Samuel Dettling (University of Michigan)
2009-2010
Kate Carroll
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• Alexander Haefner (University of Michigan)
2009-2010
• Crystal Yan (Scripps Intern, Sun Coast High School)
2011-2012
• Kasey Haugen (Scripps REU, University of Central Florida)
2012
• Alexandra Morgan (Scripps SURF, Florida State University)
2012
Graduate Trainees
• Stephen Leonard (Present: Postdoc, Washington University, Dustin Maly)
2006-2011
• Jiyoung Hong (Present: Postdoc, Harvard, Stuart Orkin)
2006-2011
• Devayani Bhave (Present: Postdoc, Boston University, Adrian Whitty)
2006-2011
• Candice Paulsen (Present: Postdoc, University of California, SF, David Julius)
2006-2012
• Thu Truong (University of Michigan)
2008-present
• Francisco Garcia (Scripps)
2009-present
Postdoctoral Trainees
• Young Ho Seo (Present: Assistant Professor, Keimyung University, Korea)
2006-2010
• Khalilah Reddie (Present: Postdoc, Georgia Tech, Niren Murthy)
2006-2010
• Vinayak Gupta
2010-present
• Hanumantharao Paritala
2010-present
• Mauro Lo Conte
2010-present
• Prakash Palde
2012-present
• Pablo Acedo-Martinez
2012-present
Teaching Activities
• Chemical Biology 601 (3 of 16 lectures, enrollment 17)
Q1: 4.3 , Q2: 4.5 (University Wide 50% above: Q1: 4.2, Q2: 4.5)
Fall 2006
• Organic Chemistry 210 (42 of 42 lectures, enrollment 319)
Q1: 3.7, Q2: 3.3 (School/College 50% above: Q1: 3.9, Q2: 4.2
Fall 2007
• Chemical Biology 502 (9 of 27 lectures, enrollment 30)
Q1: 4.3, Q2: 4.7 (University Wide 50% above: Q1: 4.2, Q2: 4.5)
• OrganicChemistry 210 (42 of 42 lectures, enrollment 181)
Q1: 4.4, Q2: 4.7 (School/College 50% above: Q1: 3.7, Q2: 4.1)
Winter 2008
Fall 2008
Kate Carroll
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• Chemical Biology 502 (9 of 27 lectures, enrollment 15)
Q1: 4.4, Q2: 4.8 (University Wide 50% above: Q1: 4.1, Q2: 4.5)
• OrganicChemistry 210 (42 of 42 lectures, enrollment 387)
Q1: 4.3, Q2: 4.8 (University Wide 50% above: Q1: 4.1, Q2: 4.5)
Winter 2009
Fall 2009