Martin Muschol
Affiliations: | Physics | University of South Florida, Tampa, FL, United States |
Area:
Optical recording, protein aggregartion, light scatteringWebsite:
http://physics.usf.edu/faculty/mmuschol/Google:
"Martin Muschol"Bio:
Muschol, Martin, Surface Tension Anisotropy of Succinonitrile and Pivalic Acid: New Measurements and Comparison with Microscopic Solvability Theory,
Thesis (PH.D.)--City University of New York, 1992.
Mean distance: 16.41 (cluster 6) | S | N | B | C | P |
Cross-listing: Physics Tree
Parents
Sign in to add mentor| Herman Z. Cummins | grad student | 1992 | CUNY (Physics Tree) | |
| (Surface Tension Anisotropy of Succinonitrile and Pivalic Acid: New Measurements and Comparison with Microscopic Solvability Theory) | ||||
| Brian M. Salzberg | post-doc | 1995-2003 | University of Pennsylvania School of Medicine | |
Children
Sign in to add trainee| Avanish S. Parmar | grad student | 2009 | University of South Florida |
| Shannon E. Hill | grad student | 2011 | University of South Florida |
| Joseph L. Foley | grad student | 2013 | University of South Florida (Physics Tree) |
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Publications
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| Perez C, Miti T, Hasecke F, et al. (2019) Mechanism of Fibril and Soluble Oligomer Formation in Amyloid Beta and Hen Egg White Lysozyme Proteins. The Journal of Physical Chemistry. B |
| Perez CM, Ullah G, Miti T, et al. (2019) Mechanisms of Protein Fibril Formation in Amyloid Beta and Lysozyme Proteins Biophysical Journal. 116: 195a-196a |
| Hasecke F, Miti T, Perez C, et al. (2018) Origin of metastable oligomers and their effects on amyloid fibril self-assembly. Chemical Science. 9: 5937-5948 |
| Niyangoda C, Miti T, Breydo L, et al. (2017) Carbonyl-based blue autofluorescence of proteins and amino acids. Plos One. 12: e0176983 |
| Stehli D, Mulaj M, Miti T, et al. (2015) Collapsed state of polyglutamic acid results in amyloid spherulite formation. Intrinsically Disordered Proteins. 3: e1056905 |
| Miti T, Mulaj M, Schmit JD, et al. (2015) Stable, metastable, and kinetically trapped amyloid aggregate phases. Biomacromolecules. 16: 326-35 |
| Miti T, Mulaj M, Muschol M. (2015) Transition of Amyloid Oligomers to Mature Fibrils: Internal Conversion Vs. Competing Assembly Pathways? Biophysical Journal. 108: 525a |
| Mulaj M, Miti T, Muschol M. (2015) Self-Replication of Transthyretin Amyloid Aggregates from Native Tetramers in vitro Biophysical Journal. 108: 45a |
| Mulaj M, Foley J, Muschol M. (2014) Amyloid oligomers and protofibrils, but not filaments, self-replicate from native lysozyme. Journal of the American Chemical Society. 136: 8947-56 |
| Miti T, Mulaj M, Foley J, et al. (2014) Phase Boundaries for Fibril and Metastable Oligomer Formation of Lysozyme Biophysical Journal. 106: 681a-682a |