Mark S. Braiman
Affiliations: | 1988-1998 | Biochemistry | University of Virginia School of Medicine, Charlottesville, VA, United States |
1998- | Chemistry | Syracuse University, Syracuse, NY, United States |
Area:
General Biophysics, BiochemistryWebsite:
https://thecollege.syr.edu/people/faculty/braiman-mark/Google:
"Mark Stephen Braiman" OR "Mark S Braiman" Syracuse""Bio:
Education
B.S., 1977, Harvard University
Ph.D., 1983, University of California at Berkeley
Postdoctoral Fellow, 1983-86, MIT
Postdoctoral Fellow, 1986-1988, Boston University
Honors & Awards:
National Science Foundation Predoctoral Fellowship, 1977-1980
Helen Hay Whitney Postdoctoral Fellowship, 1983-86
Lucille P. Markey Scholar Award, 1986-1992
http://www.markbraiman.com/biography-personal-info.html
https://books.google.com/books?id=V3lJAQAAMAAJ
Mean distance: (not calculated yet)
Parents
Sign in to add mentorRichard Alfred Mathies | grad student | 1983 | UC Berkeley | |
(Structural Changes of the Bacteriorhodopsin Chromophore During Its Proton-pumping Photocycle.) | ||||
H. Gobind Khorana | post-doc | 1983-1986 | MIT | |
Kenneth J. Rothschild | post-doc | 1986-1988 | Boston University (Microtree) |
Children
Sign in to add traineeMichael S. Hutson | grad student | 2000 | UVA |
Yaowu Xiao | grad student | 1998-2004 | Syracuse |
Richard Alan Krebs | grad student | 1997-2006 | Syracuse |
Farhana F. Syed | grad student | 2011 | Syracuse |
Andrew Toyi Banyikwa | grad student | 2014 | Syracuse |
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Publications
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Banyikwa AT, Goos A, Kiemle DJ, et al. (2017) Experimental and Computational Modeling of H-Bonded Arginine-Tyrosine Groupings in Aprotic Environments. Acs Omega. 2: 5641-5659 |
Banyikwa AT, Miller SE, Krebs RA, et al. (2017) Anhydrous Monoalkylguanidines in Aprotic and Nonpolar Solvents: Models for Deprotonated Arginine Side Chains in Membrane Environments. Acs Omega. 2: 7239-7252 |
Banyikwa A, Goos AG, Braiman MS. (2014) Modeling H-Bonding and Protonation States of Membrane Buried ARG-TYR Pairs Biophysical Journal. 106: 589a |
Braiman MS, Sailer-Kronlachner W, Varjas CJ. (2012) Bromine-sensitized solar photolysis of CO2. The Journal of Physical Chemistry. B. 116: 10430-6 |
Hendler RW, Meuse CW, Braiman MS, et al. (2011) Infrared and visible absolute and difference spectra of bacteriorhodopsin photocycle intermediates. Applied Spectroscopy. 65: 1029-45 |
Syed FF, Kim JY, Ha KY, et al. (2010) Citrate-Binding Site in Proteorhodopsin Involves Two Lysines in the First Cytoplasmic Loop Biophysical Journal. 98: 174a |
Xiao Y, Braiman M. (2007) Modeling amino acid side chains in proteins: 15N NMR spectra of guanidino groups in nonpolar environments. The Journal of Physical Chemistry. B. 109: 16953-8 |
Xiao Y, Partha R, Krebs R, et al. (2005) Time-resolved FTIR spectroscopy of the photointermediates involved in fast transient H+ release by proteorhodopsin. The Journal of Physical Chemistry. B. 109: 634-41 |
Partha R, Krebs R, Caterino TL, et al. (2005) Weakened coupling of conserved arginine to the proteorhodopsin chromophore and its counterion implies structural differences from bacteriorhodopsin. Biochimica Et Biophysica Acta. 1708: 6-12 |
Xiao Y, Hutson MS, Belenky M, et al. (2004) Role of arginine-82 in fast proton release during the bacteriorhodopsin photocycle: a time-resolved FT-IR study of purple membranes containing 15N-labeled arginine. Biochemistry. 43: 12809-18 |