The general research interests of our group are to determine the structure of biological molecules, including nucleic acids, enzymes, RNA(DNA)protein complexes and clinically important enzymedrug complexes, using NMR and various other biophysical and biochemical methods. The knowledge of these biological structures will help us to understand the structural basis for the function of biological molecules and complexes.
| Lee, Donghan; Walsh, Joseph D; Mikhailenko, Irina et al. (2006) RAP uses a histidine switch to regulate its interaction with LRP in the ER and Golgi. Mol Cell 22:423-30 |
| Walsh, Joseph D; Kuszweski, John; Wang, Yun-Xing (2005) Determining a helical protein structure using peptide pixels. J Magn Reson 177:155-9 |
| Walsh, Joseph D; Wang, Yun-Xing (2005) Periodicity, planarity, residual dipolar coupling, and structures. J Magn Reson 174:152-62 |
| Wu, YiBing; Migliorini, Molly; Walsh, Joseph et al. (2004) NMR structural studies of domain 1 of receptor-associated protein. J Biomol NMR 29:271-9 |
| Walsh, Joseph D; Cabello-Villegas, Javier; Wang, Yun-Xing (2004) Periodicity in residual dipolar couplings and nucleic acid structures. J Am Chem Soc 126:1938-9 |
| Cabello-Villegas, Javier; Giles, Keith E; Soto, Ana Maria et al. (2004) Solution structure of the pseudo-5' splice site of a retroviral splicing suppressor. RNA 10:1388-98 |
| Neamati, Nouri; Murthy, Manisha; Wang, Yun-Xing (2003) Preparation of DNA-protein complexes suitable for spectroscopic analysis. Methods Mol Med 85:185-202 |
| Wu, YiBing; Migliorini, Molly; Yu, Ping et al. (2003) 1H, 13C and 15N resonance assignments of domain 1 of receptor associated protein. J Biomol NMR 26:187-8 |
