Our long term goals are to establish general thermodynamic and kinetic- mechanistic principles which govern macromolecular recognition and protein- nucleic acid interactions (PNAI) in aqueous solution, and to apply these in relating structure to function. We propose to obtain a quantitative understanding of function of key site-specific PNAI involved in regulation of transcription initiation in E. coli (Lac repressor-lac operator, RNA polymerase-promoter), which will extend to other pro- and eukaryotic gene regulatory proteins which control the processes of normal and abnormal cell development. A) The thermodynamic signatures of coupled conformational changes in DNA (e.g. kinking, smooth bending, melting) and in the protein (e.g. folding, hinge-bending) in PNAI will be deduced and used to interpret the thermodynamics (delta-C-obs, TS, TH, SK-obs) of interactions involving conformational changes. B) Contributions of the Lacl headpiece (HP) and the core of the Lacl tetramer to operator binding will be dissected. Values of delta-C-obs, TS, TH and SK-obs will be determined for interactions of wildtype and variant Lacl HP with operator by calorimetry and sedimentation equilibrium to test our hypothesis that HP is partially unstructured in the absence of DNA, and folds to a unique structure upon binding. Tetramer-operator equilibria will be investigated by filter binding as a function of length of flanking DNA to test our proposals that coulombic interactions between the Lacl core and flanking nonoperator DNA (via wrapping and looping) stabilize 1:1 complexes, and competitively destabilize the 2:1 complex at low salt. C) The mechanistic pathway, intermediates, and bottleneck kinetic step in isomerization of the """"""""closed"""""""" complex to the functional """"""""open"""""""" complex at the APR promoter will be determined using RNA polymerases from E. coli (E- sigma70) and a thermophilic eubacterium. Thermodynamic, kinetic and footprinting studies will be used to test our proposal that closing the jaws of polymerase and the initial stages of opening the promoter occur together and are the kinetic bottleneck. Intermediate open-promoter complexes will be characterized to study the roles of Mg2+ and the sequence of steps in opening the transcription start site. Fluorescence studies of the thermodynamics and kinetics of binding sigma(70) to core polymerase will test the proposals that binding of sigma(70) opens the jaws of core and unmasks the DNA recognition domain of sigma(70).

Agency
National Institute of Health (NIH)
Institute
National Institute of General Medical Sciences (NIGMS)
Type
Method to Extend Research in Time (MERIT) Award (R37)
Project #
5R37GM023467-23
Application #
2857076
Study Section
Biochemistry Study Section (BIO)
Project Start
1977-01-01
Project End
2001-12-31
Budget Start
1999-01-01
Budget End
1999-12-31
Support Year
23
Fiscal Year
1999
Total Cost
Indirect Cost
Name
University of Wisconsin Madison
Department
Biochemistry
Type
Schools of Earth Sciences/Natur
DUNS #
161202122
City
Madison
State
WI
Country
United States
Zip Code
53715
Drennan, Amanda; Kraemer, Mark; Capp, Michael et al. (2012) Key roles of the downstream mobile jaw of Escherichia coli RNA polymerase in transcription initiation. Biochemistry 51:9447-59
Saecker, Ruth M; Record Jr, M Thomas; Dehaseth, Pieter L (2011) Mechanism of bacterial transcription initiation: RNA polymerase - promoter binding, isomerization to initiation-competent open complexes, and initiation of RNA synthesis. J Mol Biol 412:754-71
Koh, Junseock; Shkel, Irina; Saecker, Ruth M et al. (2011) Nonspecific DNA binding and bending by HU??: interfaces of the three binding modes characterized by salt-dependent thermodynamics. J Mol Biol 410:241-67
Gries, Theodore J; Kontur, Wayne S; Capp, Michael W et al. (2010) One-step DNA melting in the RNA polymerase cleft opens the initiation bubble to form an unstable open complex. Proc Natl Acad Sci U S A 107:10418-23
Kontur, Wayne S; Capp, Michael W; Gries, Theodore J et al. (2010) Probing DNA binding, DNA opening, and assembly of a downstream clamp/jaw in Escherichia coli RNA polymerase-lambdaP(R) promoter complexes using salt and the physiological anion glutamate. Biochemistry 49:4361-73
Capp, Michael W; Pegram, Laurel M; Saecker, Ruth M et al. (2009) Interactions of the osmolyte glycine betaine with molecular surfaces in water: thermodynamics, structural interpretation, and prediction of m-values. Biochemistry 48:10372-9
Schroeder, Lisa A; Gries, Theodore J; Saecker, Ruth M et al. (2009) Evidence for a tyrosine-adenine stacking interaction and for a short-lived open intermediate subsequent to initial binding of Escherichia coli RNA polymerase to promoter DNA. J Mol Biol 385:339-49
Pegram, Laurel M; Record Jr, M Thomas (2009) Quantifying the roles of water and solutes (denaturants, osmolytes, and Hofmeister salts) in protein and model processes using the solute partitioning model. Methods Mol Biol 490:179-93
Koh, Junseock; Saecker, Ruth M; Record Jr, M Thomas (2008) DNA binding mode transitions of Escherichia coli HU(alphabeta): evidence for formation of a bent DNA--protein complex on intact, linear duplex DNA. J Mol Biol 383:324-46
Youn, Hwan; Koh, Junseock; Roberts, Gary P (2008) Two-state allosteric modeling suggests protein equilibrium as an integral component for cyclic AMP (cAMP) specificity in the cAMP receptor protein of Escherichia coli. J Bacteriol 190:4532-40

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