Publications

Last update: May 2015

In Progress

  • Niyangoda, C., M. Mulaj, T. Miti, L. Breydo, V. Uversky and M. Muschol, (2015) Near-blue Protein Autofluorescence and its Aggregation-Specific Augmentation, in preparation

Published

  1. Stehli D., M. Mulaj, T. Miti, J. Traina, J. Foley and M. Muschol, (2015) Collapsed State of Polyglutamic Acid Monomers Underlies Formation of Amyloid Spherulites, Intrinsically Disord. Proteins, accepted
  2. Miti T., M. Mulaj, J. Schmit and M. Muschol (2014) Stable, Metastable, and Kinetically Trapped Amyloid Aggregate Phases, Biomacromol. 16:326-335
  3. Mulaj M., J. Foley, and M. Muschol (2014) Amyloid Oligomers and Protofibrils, but not Filaments, Self-replicate from Native Lysozyme, J. Am. Chem. Soc. 136: 8947-8956.
  4. Yaghoubi H., A. Dayerizadeh, S. Han, M. Mulaj, W. Gao, X. Li, M. Muschol, S. Ma and A. Takshi (2013) The effect of surfactant-free TiO2 surface hydroxyl groups on physicochemical, optical, and self-cleaning properties of developed coatings on polycarbonate, J. Phys. D: Appl. Phys. 46: 505316/1-10
  5. Blair L. J., B. A. Nordhues,1 S.E. Hill, K. M. Scaglione, J. C. O’Leary III,Sarah N. Fontaine, L. Breydo, B. Zhang, P. Li,1 L. Wang, C. Cotman, H. L. Paulson, M. Muschol, V. N. Uversky, T. Klengel, E. B. Binder,R. Kayed, T. E. Golde, N. Berchtold, and C. A. Dickey (2013) Progressive Increases in FKBP5 Expression Accelerate Tau Neurotoxicity: A role for FKBP51 in Alzheimer's disease, J. Clin. Invest 123: 4158-4169
  6. Foley J., S. E. Hill, T. Miti., M. Mulaj, M. Ciesla, R. Robeel, C. Persichilli, R. Raynes, S. Westerheide and M. Muschol (2013) Structural Fingerprints and their Evolution During Oligomeric vs. Oligomer-free Lysozyme Amyloid Growth, J. Chem. Phys. 139:121301/1-12 (editors selection for most influential articles in 2013)
  7. Parmar A.S., S.E. Hill, A. Vidyasagar, C. Bello, R. Toomey and M. Muschol (2012) Frequency and Temperature Dependence of poly-N-isopropylacrylamide (p-NiPAAM) Rheology, J. Appl. Polym. Sci 127:1527-1537
  8. Glidden M. and M. Muschol (2012) Characterizing Gold Nanorods in Solution using Depolarized Dynamic Light Scattering, J. Phys. Chem. C 116: 8128-8137.
  9. Daughdrill G.W., S. Kashtanov, A. Stancik, S. E. Hill ,G. Helms, M. Muschol, V. Receveur-Bréchot, F. M. Ytreberg (2012) Understanding the Structural Ensembles of a Highly Extended Disordered Protein, Mol. BioSyst., 8:308-319.
  10. Hill S.E., T. Miti, T. Richmond and M. Muschol (2011) Spatial Extent of Charge Repulsion Regulates Assembly Pathways for Lysozyme Amyloid Fibrils, PLoS One 6: e18171/1-12
  11. Abisambra J., L. Blair, J. Jones, S. E. Hill, C. Kraft, J. Rogers, J. Koren, U. Jinwal, L. Lawson, A. Johnson, K. Jansen, M. Muschol, T. Golde, E. Weeber, J. Banko, and C. Dickey (2010) Phosphorylation dynamics regulate Hsp27-mediated rescue of neuronal plasticity deficits in tau transgenic mice, J. Neurosci. 30:15374-15482
  12. Foley J., H. Nguyen, C.B. Bennett and M. Muschol (2010) Potassium Accumulation as Dynamic Modulator of Neurohypophysial Excitability, Neurosci. 169:65-73
  13. Parmar A.S. and M. Muschol (2009) Lysozyme as Diffusion Tracer for Measuring Aqueous Solution Viscosity, J. Colloid Interface Sci. 339: 243:248
  14. Parmar A.S. and M. Muschol (2009) Hydration and Hydrodynamic Interactions of Lysozyme: Effects of Chaotropic vs. Kosmotropic Ions, Biophys. J. 97: 590-598.
  15. Bennett C.B. and M. Muschol (2009) Large Neurohypophysial Varicosities Amplify Action Potentials: Results from Numerical Simulations, Endocrin. 150: 2829 - 2836.
  16. Hill S.E., J. Robinson, G. Matthews and M. Muschol (2009) Amyloid Protofibrils of Lysozyme Nucleate and Grow via Oligomer Fusion, Biophys. J. 96: 3781 – 3790.
  17. Jagannathan R., A.S. Parmar, S. Adyanthaya, A. Prabhune, M. Muschol, and P. Poddar (2009) In-situ Observation of Antibiotic Mediated Concurrent Growth of Two Distinct Homogeneous Populations of Gold Nanoparticles in Solution Phase, J. Phys. Chem C., 113: 3478 – 3486
  18. Foley J. and M. Muschol (2008) Action Spectra of Electrochromic Voltage-sensitive Dyes in an Intact Excitable Tissue, J. Biomed. Opt. 13: 064015:1 – 7
  19. Parmar A.S., P.E. Gottschall, and M. Muschol (2007) Pre-assembled Clusters Distort Crystal Nucleation Kinetics in Supersaturated Lysozyme Solutions, Biophys. Chem. 129: 224-234.
  20. Kosterin P., G.H. Kim, M. Muschol, A.L. Obaid, and B.M. Salzberg. (2005) Changes in FAD and NADH Fluorescence in Neurosecretory Terminals are Triggered by Calcium Entry and by ADP Production, J. Membr. Biol. 208: 113 - 124.
  21. Salzberg B.M., P. Kosterin, M. Muschol, A.L. Obaid, S.L. Rumyantsev, Yu. Bilenko, and M.S. Shur (2005). An Ultra-Stable Non-Coherent Light Source for Optical Measurements in Neuroscience and Cell Physiology, J. Neurosci. Meth. 141: 165 - 169.
  22. Muschol M., P. Kosterin, M. Ichikawa, and B.M Salzberg (2003). Activity-Dependent Depression of Excitability and Calcium Transients in the Neurohypophysis Suggests a Model of “Stuttering Conduction”, J. Neurosci. 23: 11352 - 11362.
  23. Muschol M. and B.M Salzberg (2000). Dependence of Transient and Residual Calcium Dynamics on Action-Potential Patterning during Neuropeptide Secretion, J. Neurosci. 20: 6773 - 6780.
  24. Muschol M., B.R. Dasgupta, and B.M Salzberg (1999). Caffeine Interaction with Fluorescent Calcium Indicator Dyes, Biophys. J. 77: 577 - 586.
  25. Muschol M. and F. Rosenberger (1997). Liquid-liquid Phase Separation, Precipitate Formation and Crystallization in Supersaturated Lysozyme Solutions, J. Chem. Phys. 107: 1953 - 1962.
  26. Rosenberger F., P.G. Vekilov, M. Muschol, B.R. Thomas (1996). Nucleation and Crystallization of Globular Proteins - What Do We Know and What is Missing? J. Cryst. Growth 168: 1 - 27.
  27. Muschol M. and F. Rosenberger (1996). Lack of Evidence for Prenucleation Aggregate Formation in Lysozyme Crystal Growth Solution, J. Cryst. Growth 167: 738 - 747.
  28. Muschol M. and F. Rosenberger (1995). Interactions in Under- and Supersaturated Lysozyme Solutions: Static and Dynamic Light Scattering Results, J. Chem. Phys. 103: 10424 - 10432.
  29. Williams L., M. Muschol, X.W. Qian, W. Losert, and H.Z. Cummins (1993). Dendritic Side-branching with Periodic Localized Perturbations: Directional Solidification of Pivalic Acid/Coumarin 152, Phys. Rev. E 48: 489 - 499.
  30. Muschol M., D. Liu, and H.Z. Cummins (1992). Surface Tension Anisotropy Measurements in Succinonitrile and Pivalic Acid: Comparison with Microscopic Solvability Theory, Phys. Rev. A 46: 1038 - 1050.
  31. Qian X.W., H. Chou, M. Muschol, and H.Z. Cummins (1989). Role of Noise in the Initial Stage of Solidification Instability, Phys. Rev. B 39: 2529 - 2531.

Reviewed Proceedings

  • Foley J., and M. Muschol, High-Speed Optical Recordings of Excitability Changes in Neuronal Tissue, in: Technical Digest, Biomed. Optics, Digital Holography and Three-Dim. Imaging/ Laser Applications to Chemical, Security and Environmental Analysis, Optical Society of America, Washington, DC 2008
  • Muschol M. and F. Rosenberger, Crystallization in protein solutions - what can we learn from light scattering, Proc. AIAA Space Programs and Techn. Conference, Sept. 1995.

Book Chapters

  • Muschol M., S.E. Hill and M. Mulaj, Multiple Pathways of Lysozyme Aggregation, in: Bionanoimaging: Protein Misfolding and Aggregation, ed. by V. Uversky and Y. Lyubchenko (Acad. Press, Waltham, MA 2014) chap. 35, p. 389-396.
  • Salzberg B.M., M. Muschol and A.L. Obaid, Multiple Light Scattering Changes Associated with Secretion from Peptidergic Nerve Terminals in: Imaging in Neuroscience and Development: A Laboratory Manual (2nd ed.); ed. by F. Helmchen, R. Yuste and A. Konnerth (CSH Press, Cold Spring Harbor, N.Y. 2011) chap. 17, p. 161-170
  • Salzberg B.M., M. Muschol and A.L. Obaid, Measuring Light-Scattering Changes Associated with Secretion from Nerve Terminals, in: Imaging in Neuroscience and Development, A Laboratory Manual ed. by A. Konnerth and R. Yuste (CSHL Press, Cold Spring Harbor, N.Y. 2005) chap. 65, p. 503-510.
  • Cummins H.Z., H. Chou, G. Livescu, O. Mesquita, M. Muschol and M.R. Srinivasan, Dynamic light scattering at the non-equilibrium crystal-melt interface, in Laser Optics of Condensed Matter, ed. by J.L. Birman, H.Z. Cummins and A.A. Kaplyanskii, (Plenum, New York 1988).

Patents

  1. Patent US8,854,621 B1: Systems and Methods for Determining Nanoparticle Dimensions; Inventor: Martin Muschol