Projects per year
Search results
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Active
Elucidating the biophysics of pre-fibrillar, toxic tau oligomers: from amino acid motifs to neuronal dysfunction
Sachs, J. N., Ashe, K. H., Nelson, K. & Yuan, S.
NIH NAT'L INSTITUTE ON AGING (NIA)
9/30/21 → 5/31/24
Project: Research project
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Understanding the structural dynamics of TNF receptors
NIH NIGMS NATL INST OF GENERAL
6/1/19 → 5/31/24
Project: Research project
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Finished
Elucidating the biophysics of pre-fibrillar, toxic tau oligomers: from amino acid motifs to neuronal dysfunction
9/30/21 → 5/31/23
Project: Research project
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HbS oligomers as a therapeutic target in sickle cell disease
NIH NAT'L HEART, LUNG, AND BLOOD INSTITU
4/16/20 → 3/31/22
Project: Research project
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Fluorescence lifetime platform to discover small-molecule inhibitors of tau and alpha-synuclein oligomerization
PHOTONIC PHARMA LLC, NIH NAT'L INSTITUTE ON AGING (NIA)
9/15/19 → 8/31/21
Project: Research project
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Engineering synthetic ligands with potent allosteric inhibition of tumornecrosis factor receptors
National Institute of Biomedical Imaging and Bioengineering
9/15/19 → 6/30/23
Project: Research project
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Understanding the structural dynamics of TNF receptors
National Institute of General Medical Sciences
6/1/19 → 3/31/24
Project: Research project
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Protein engineered inhibitors of TNF Receptor activation: new therapeutics and new technology
NIH Nat'l Inst of Allergy & Infect Dis
2/1/19 → 1/31/21
Project: Research project
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Protein engineered inhibitors of TNF Receptor activation: new therapeutics and new technology
National Institute of Allergy and Infectious Diseases
2/1/19 → 1/31/21
Project: Research project
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Understanding and targeting the Methionine-Aromatic motif in oxidized alpha-Synuclein
Sachs, J. N. & Pomerantz, W. C.
NIH NAT INST OF NEURO DISORDERS & STROKE
9/27/18 → 6/30/21
Project: Research project
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Understanding and targeting the Methionine-Aromatic motif in oxidized alpha-Synuclein
National Institute of Neurological Disorders and Stroke
9/27/18 → 6/30/21
Project: Research project
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Disruption of pathological protein-protein interactions
MICHAEL J. FOX FDN FOR PARKINSON'S RES.
8/3/17 → 8/2/18
Project: Research project
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In-Situ Visualization of Enhanced Irreversible Electropo
Bischof, J. C., Provenzano, P., Sachs, J. N. & Shimizu, Y.
1/1/17 → 6/30/21
Project: Research project
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Modeling synaptic vesicles: how does alpha-Synuclein inh
Sachs, J. N., Haugstad, G. D. & Lee, M. K.
NIH NAT INST OF NEURO DISORDERS & STROKE
9/1/16 → 8/31/19
Project: Research project
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Molecular mechanisms and cellular implications of tau dy
UNIVERSITY OF PENNSYLVANIA, NATIONAL INSTITUTES OF HEALTH (NIH)
7/15/16 → 3/31/21
Project: Research project
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In-Situ Visualization of Enhanced Irreversible Electropo
Bischof, J. C., Provenzano, P., Sachs, J. N. & Shimizu, Y.
12/11/15 → 12/10/16
Project: Research project
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Dynamics of transmembrane dimers in TNF-Receptors by EPR
NIH NIGMS NATL INST OF GENERAL
4/1/14 → 3/31/19
Project: Research project
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Dynamics of transmembrane dimers in TNF-Receptors by EPR and molecular simulation
National Institute of General Medical Sciences
4/1/14 → 3/31/19
Project: Research project
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Modeling synaptic vesicles: how does alpha-Synuclein inh
Sachs, J. N., Haugstad, G. D. & Lee, M. K.
NATIONAL INSTITUTES OF HEALTH (NIH)
9/30/13 → 8/31/16
Project: Research project
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Modeling synaptic vesicles: how does alpha-Synuclein inhibit fusion?
National Institute of Neurological Disorders and Stroke
9/30/13 → 8/31/19
Project: Research project
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Technology platform for development of multi-component p
Hubel, A., Dosa, P. I., McKenna, D. H. & Sachs, J. N.
NIH NATL INST OF BIOMEDICAL IM
8/1/13 → 7/31/16
Project: Research project
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Understanding the remodeling of lipid bilayers induced b
Braun, A. R., Lee, M. K., Sachs, J. N. & Thomas, D. D.
NATIONAL INSTITUTES OF HEALTH (NIH)
5/29/12 → 7/31/14
Project: Research project
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THE EFFECT OF ?-SYNUCLEIN ON MEMBRANE STRUCTURE
National Center for Research Resources
9/15/11 → 7/31/13
Project: Research project
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Sulfur-pi: a highly stabilizing binding motif in TNF rec
NATIONAL INSTITUTES OF HEALTH (NIH)
6/7/10 → 8/31/13
Project: Research project
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Sulfur-pi: a highly stabilizing binding motif in TNF receptors
6/7/10 → 8/31/13
Project: Research project
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What controls the thickness of biological membranes
National Institute of General Medical Sciences
4/1/04 → 3/31/05
Project: Research project