Studies of the structure and dynamics of unfolded states of proteins have assumed great importance for the insights they provide into the initiation of protein folding. In addition, a number of disease states from defects in the folding and stability of specific proteins and an have recently been shown to arise increasing number of key intracellular proteins appear to be unfolded in their biologically functional states. The major goals of this project are focused on the elucidation of folding pathways and the structural characterization of unfolded states. There are three major specific aims, representing an integrated approach that utilizes recently-developed NMR methods: (1) Heteronuclear NMR methods will be used to obtain a quantitative description of the conformations sampled by two unfolded proteins, acid-unfolded apomyoglobin and low-salt-unfolded apoplastocyanin, which contain almost purely a single type of secondary structure in the folded state. The unfolded states are tractable according to preliminary results, and apoplastocyanin in particular has the added advantage that the unfolded form is present under """"""""folding"""""""" conditions, neutral pH and ambient temperature, making the results highly applicable-to the protein folding process in vivo and in vitro. A detailed study of backbone structural propensities and polypeptide dynamics in the unfolded state of these two proteins will be made, as well as of denaturants on the structure in the unfolded state. (2) The folding of apoplastocyamin is slow on the NMR timescale and an MR study of the folding process in real time is proposed. The early, fast folding steps will be followed by multiple-step stopped-flow fluorescence and hydrogen exchange pulse labeling. 3) A long-term goal is to extend the work on the unfolded state to include studies of interactions with chaperones. The interaction of unfolded proteins and protpetides will be studies with a small domain from the E. coil chaperone protein DnaJ, which has been shown to bind zinc and to resemble the DNA-binding domain of glucocorticoid receptors. This surprising result typifies the new information that is constantly being uncovered in the protein folding and assembly a continual source of new and important information.

Agency
National Institute of Health (NIH)
Institute
National Institute of General Medical Sciences (NIGMS)
Type
Research Project (R01)
Project #
5R01GM057374-03
Application #
6180524
Study Section
Special Emphasis Panel (ZRG3-BBCB (03))
Program Officer
Wehrle, Janna P
Project Start
1998-05-01
Project End
2002-04-03
Budget Start
2000-05-01
Budget End
2001-04-30
Support Year
3
Fiscal Year
2000
Total Cost
$234,390
Indirect Cost
Name
Scripps Research Institute
Department
Type
DUNS #
City
La Jolla
State
CA
Country
United States
Zip Code
92037
Dyson, H Jane; Wright, Peter E (2017) How Does Your Protein Fold? Elucidating the Apomyoglobin Folding Pathway. Acc Chem Res 50:105-111
Lim, Kwang Hun; Dyson, H Jane; Kelly, Jeffery W et al. (2013) Localized structural fluctuations promote amyloidogenic conformations in transthyretin. J Mol Biol 425:977-88
Dyson, H Jane (2012) Roles of intrinsic disorder in protein-nucleic acid interactions. Mol Biosyst 8:97-104
Zhu, Jing; Martinez-Yamout, Maria; Cardoso, Rosa et al. (2012) Homodimerization of the PAS-B domains of hypoxia-inducible factors. J Phys Chem B 116:6960-5
Park, Sung Jean; Kostic, Milka; Dyson, H Jane (2011) Dynamic Interaction of Hsp90 with Its Client Protein p53. J Mol Biol 411:158-73
Dyson, H Jane (2011) Expanding the proteome: disordered and alternatively folded proteins. Q Rev Biophys 44:467-518
Park, Sung Jean; Borin, Brendan N; Martinez-Yamout, Maria A et al. (2011) The client protein p53 adopts a molten globule-like state in the presence of Hsp90. Nat Struct Mol Biol 18:537-41
Wright, Peter E; Dyson, H Jane (2009) Linking folding and binding. Curr Opin Struct Biol 19:31-8
Fuller, Amelia A; Du, Deguo; Liu, Feng et al. (2009) Evaluating beta-turn mimics as beta-sheet folding nucleators. Proc Natl Acad Sci U S A 106:11067-72
Dyson, H Jane; Kostic, Milka; Liu, Jeff et al. (2008) Hydrogen-deuterium exchange strategy for delineation of contact sites in protein complexes. FEBS Lett 582:1495-500

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