Maldi-Tof Spectrometer: Protein: Structure, Folding & Function - Nicole Sampson

Abstract

Funding Agency

Agency: National Institute of Health (NIH)
Institute: National Center for Research Resources (NCRR)
Type: Biomedical Research Support Shared Instrumentation Grants (S10)
Project #: 1S10RR021008-01
Application #: 7166445
Study Section: Special Emphasis Panel (ZRG1-BPC-C (30))

Project Start: 2005-04-01
Project End: 2006-03-31
Budget Start: 2005-04-01
Budget End: 2006-03-31
Support Year: 1
Fiscal Year: 2005
Total Cost: $67,575
Indirect Cost

Institution

Name: State University New York Stony Brook
Department: Chemistry
Type: Schools of Arts and Sciences
DUNS #: 804878247

City: Stony Brook
State: NY
Country: United States
Zip Code: 11794

Related projects


NIH 2005 S10 RR	Acquisition of a MALDI-TOF Spectrometer Sampson, Nicole S. / State University New York Stony Brook	$270,300
NIH 2005 S10 RR	Maldi-Tof Spectrometer: Protein: Struc, Folding &Funct: Mammalian Fertilization Sampson, Nicole S. / State University New York Stony Brook	$67,575
NIH 2005 S10 RR	Maldi-Tof Spectrometer: Protein Structure, Drug Discovery & Cancer Sampson, Nicole S. / State University New York Stony Brook	$67,575
NIH 2005 S10 RR	Maldi-Tof Spectrom: Protein: Inhibit Fatty Acid Biosynthesis in M Tuberculosis Sampson, Nicole S. / State University New York Stony Brook	$67,575
NIH 2005 S10 RR	Maldi-Tof Spectrometer: Protein: Structure, Folding & Function Sampson, Nicole S. / State University New York Stony Brook	$67,575

Publications

Lu, Rui; Schaefer, Christin M; Nesbitt, Natasha M et al. (2017) Catabolism of the Cholesterol Side Chain in Mycobacterium tuberculosis Is Controlled by a Redox-Sensitive Thiol Switch. ACS Infect Dis 3:666-675

Schaefer, Christin M; Lu, Rui; Nesbitt, Natasha M et al. (2015) FadA5 a thiolase from Mycobacterium tuberculosis: a steroid-binding pocket reveals the potential for drug development against tuberculosis. Structure 23:21-33

Lu, Rui; Schmitz, Werner; Sampson, Nicole S (2015) ?-Methyl Acyl CoA Racemase Provides Mycobacterium tuberculosis Catabolic Access to Cholesterol Esters. Biochemistry 54:5669-72

Touchette, Megan H; Bommineni, Gopal R; Delle Bovi, Richard J et al. (2015) Diacyltransferase Activity and Chain Length Specificity of Mycobacterium tuberculosis PapA5 in the Synthesis of Alkyl ?-Diol Lipids. Biochemistry 54:5457-68

Yang, Meng; Lu, Rui; Guja, Kip E et al. (2015) Unraveling Cholesterol Catabolism in Mycobacterium tuberculosis: ChsE4-ChsE5 ?2?2 Acyl-CoA Dehydrogenase Initiates ?-Oxidation of 3-Oxo-cholest-4-en-26-oyl CoA. ACS Infect Dis 1:110-125

Yang, Meng; Guja, Kip E; Thomas, Suzanne T et al. (2014) A distinct MaoC-like enoyl-CoA hydratase architecture mediates cholesterol catabolism in Mycobacterium tuberculosis. ACS Chem Biol 9:2632-45

Gao, Jin; Sampson, Nicole S (2014) A GMC oxidoreductase homologue is required for acetylation of glycopeptidolipid in Mycobacterium smegmatis. Biochemistry 53:611-3

Wipperman, Matthew F; Sampson, Nicole S; Thomas, Suzanne T (2014) Pathogen roid rage: cholesterol utilization by Mycobacterium tuberculosis. Crit Rev Biochem Mol Biol 49:269-93

Su, Chiao-Yung; London, Erwin; Sampson, Nicole S (2013) Mapping peptide thiol accessibility in membranes using a quaternary ammonium isotope-coded mass tag (ICMT). Bioconjug Chem 24:1235-47

Thomas, Suzanne T; Sampson, Nicole S (2013) Mycobacterium tuberculosis utilizes a unique heterotetrameric structure for dehydrogenation of the cholesterol side chain. Biochemistry 52:2895-904

Showing the most recent 10 out of 22 publications

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