Evangelos N. Moudrianakis
Affiliations: | 1964- | Johns Hopkins University, Baltimore, MD |
Area:
Molecular Biology, Evolution and Development BiologyWebsite:
http://bio.jhu.edu/directory/evangelos-moudrianakis/Google:
"Evangelos Moudrianakis"Bio:
Parents
Sign in to add mentorMichael Beer | grad student | 1964 | Johns Hopkins (Physics Tree) | |
(A method for the determination of the sequence of guanine residues in nucleic acids with the electron microscope.) |
Children
Sign in to add traineeStephen Herbert Howell | grad student | 1967 | Johns Hopkins (Plant Biology Tree) |
Julie Dohm | grad student | 2005 | Johns Hopkins |
Michalis Hadjithomas | grad student | 2009 | Johns Hopkins |
Solon Georghiou | post-doc | 1973 | Johns Hopkins (Chemistry Tree) |
Collaborators
Sign in to add collaboratorPeter M. Yau | collaborator | 1988-1993 | Johns Hopkins (Chemistry Tree) |
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Publications
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Hadjithomas M, Moudrianakis EN. (2011) Experimental evidence for the role of domain swapping in the evolution of the histone fold. Proceedings of the National Academy of Sciences of the United States of America. 108: 13462-7 |
Dohm JA, Hsu MH, Hwu JR, et al. (2005) Influence of ions, hydration, and the transcriptional inhibitor P4N on the conformations of the Sp1 binding site. Journal of Molecular Biology. 349: 731-44 |
Karantza V, Freire E, Moudrianakis EN. (2001) Thermodynamic studies of the core histones: Stability of the octamer subunits is not altered by removal of their terminal Domains Biochemistry. 40: 13114-13123 |
Bal W, Karantza V, Moudrianakis EN, et al. (1999) Interaction of nickel(II) with histones: In vitro binding of nickel(II) to the core histone tetramer Archives of Biochemistry and Biophysics. 364: 161-166 |
Akhmanova A, Miedema K, Wang Y, et al. (1997) The localization of histone H3.3 in germ line chromatin of Drosophila males as established with a histone H3.3-specific antiserum. Chromosoma. 106: 335-47 |
Santisteban MS, Arents G, Moudrianakis EN, et al. (1997) Histone octamer function in vivo: Mutations in the dimer-tetramer interfaces disrupt both gene activation and repression Embo Journal. 16: 2493-2506 |
Pruss D, Bartholomew B, Persinger J, et al. (1996) An asymmetric model for the nucleosome: A binding site for linker histones inside the DNA gyres Science. 274: 614-617 |
Karantza V, Freire E, Moudrianakis EN. (1996) Thermodynamic studies of the core histones: pH and ionic strength effects on the stability of the (H3-H4)/(H3-H4)2 system Biochemistry. 35: 2037-2046 |
Karantza V, Baxevanis AD, Freire E, et al. (1995) Thermodynamic studies of the core histones: Ionic strength and pH dependence of H2A-H2B dimer stability Biochemistry. 34: 5988-5996 |
Baxevanis AD, Arents G, Moudrianakis EN, et al. (1995) A variety of DNA-binding and multimeric proteins contain the histone fold motif Nucleic Acids Research. 23: 2685-2691 |