On the combination of small and macro molecule techniques for the phase refinement of macromolecular structures

Cowtan, Kevin Douglas

January 1992

No description available.

530.41

Phase problem in X-ray crystallography

Structural studies of penicillin acylase

Done, Sarah Helen

January 1996

No description available.

572

Molecular studies of organometallic carbohydrates and related compounds

Armishaw, Olga Anne

January 1997

No description available.

547

Synthesis and studies on transition metal complexes incorporating thioether, selenoether and phosphine ligands

Connolly, Julie Christine

January 1999

No description available.

546

X-ray crystallography; Multi-clear NMR

Pattern recognition in chemical crystallography

Kinna, David John

January 1996

No description available.

541

Neural networks; X-ray crystallography

Structural studies of some mononuclear and polynuclear metal complexes

Coxall, Robert Andrew

January 1999

No description available.

546

The Eco RV restriction endonuclease : an investigation using resonance raman spectroscopy and oligonucleotide phosphorothioates

Thorogood, Harry

January 1996

No description available.

572

Structural studies of complexes of some S-block elements

Horsburgh, Lynne

January 1996

No description available.

546

X-ray crystallography; Lithium; Sodium

Crystallographic studies of the sequence selective interactions of ligands within the minor groove of AT-rich DNA

Simpson, Ian John

January 1999

No description available.

543

Structural characterization of TbFam50, TbPSSA2, and TCCISSA, surface proteins expressed by the trypanosome inside the tsetse vector

Ramaswamy, Raghavendran

30 May 2016

Vector-borne diseases such as malaria, leishmaniasis, and African trypanosomiasis are a major scourge to humans and animals in some of the most impoverished nations across the globe. Enabling the transmission of these disease-causing pathogens is a highly sophisticated molecular arsenal of surface proteins. My research focuses on biophysical characterization of these proteins with the ultimate goal of deciphering the molecular crosstalk between pathogen and vector. In support of this goal, I have selected the tsetse fly-transmitted parasites of the genus Trypanosoma, the etiological agent of African sleeping sickness, as a model system. Towards elucidating the molecular mechanism of transmission, I have attempted to characterize structurally three novel proteins; TbFam50.360, TbPSSA2, and TcCISSA and get insight into their functions. Before this study, GARP (Glutamic Acid Rich Protein from T. congolense), and VSG (Variant Surface Glycoprotein from T. brucei) were the only proteins to be structurally characterized in the vector stages of the parasite. Our structural analysis revealed that while the N- terminal region of TbFam50.360 adopted a three-helical structure similar to previously characterized trypanosome surface proteins, ectodomains of both TbPSSA2 and TcCISSA adopted a previously uncharacterized bilobed architecture. The structural analysis further identified putative ligand binding regions in TbFam50.360 and TcCISSA. However, in the absence of binding partners, the exact function of these proteins could not be established. Our lab in conjunction with our collaborators is investigating the binding partners of these proteins within the tsetse. The structures of TbFam50.360, TbPSSA2, and TcCISSA can be added to the repertoire of structurally characterized surface proteins expressed by trypanosomes. The information gained from these first structures of trypanosome surface proteins offer insight into their role in the trypanosome life cycle, and may, in the future, contribute to the control of African trypanosomiasis. / Graduate