Abstract

The purpose of this research is to find out what conformational changes are possible in chromatin. We have shown that tyrosine fluorescence is a very sensitive means for following the conformational changes of nucleosome core particles and plan to extend these studies to more complex systems. First, we will fractionate nucleosomes according to their solubilities and examine the physical properties of the different fractions to find out if different kinds of nucleosomes behave in different ways. We will use tyrosine fluorescence to study the properties and conformational transitions of complexes between core particles and HMG proteins 14 and 17. We will use tryptophan fluorescence to study the binding of HMG proteins 1 and 2 to chromatosomes and oligomers. We will also examine the conformational transitions of acetylated nucleosomes. We want to find out how chromatin structure can be modulated by modifications and the binding of chromosomal proteins. Although most of our studies will use the intrinsic fluorescence of the chromosomal proteins, we will also extrinsic fluorescence probes. In addition we will use other biophysical techniques such as circular dichrosim and ultracentrifugation where they are appropriate. Fluorescence studies will include both steady-state and lifetime measurements. We will continue our work on the development of the method of moments and F/F deconvolution approaches to the analysis of fluorescence decay data.

  Funding Agency

Agency
National Institute of Health (NIH)
Institute
National Institute of General Medical Sciences (NIGMS)
Type
Research Project (R01)
Project #
2R01GM025663-07
Application #
3273207
Study Section
Biophysics and Biophysical Chemistry A Study Section (BBCA)
Project Start
1981-12-01
Project End
1989-11-30
Budget Start
1984-12-01
Budget End
1985-11-30
Support Year
7
Fiscal Year
1985
Total Cost
Indirect Cost

  Institution

Name
Oregon State University
Department
Type
Schools of Arts and Sciences
DUNS #
053599908
City
Corvallis
State
OR
Country
United States
Zip Code
97339

  Publications

Brown, D W; Libertini, L J; Suquet, C et al. (1994) Effects of nucleosome unfolding on the distribution of UV damage in DNA. Ann N Y Acad Sci 726:292-4
Brown, D W; Libertini, L J; Suquet, C et al. (1993) Unfolding of nucleosome cores dramatically changes the distribution of ultraviolet photoproducts in DNA. Biochemistry 32:10527-31
Small, J R; Libertini, L J; Small, E W (1992) Analysis of photoacoustic waveforms using the nonlinear least squares method. Biophys Chem 42:29-48
Small, E W (1992) Method of moments and treatment of nonrandom error. Methods Enzymol 210:237-79
McMurray, C T; Small, E W; van Holde, K E (1991) Binding of ethidium to the nucleosome core particle. 2. Internal and external binding modes. Biochemistry 30:5644-52
Brown, D W; Libertini, L J; Small, E W (1991) Fluorescence anisotropy decay of ethidium bound to nucleosome core particles. 1. Rotational diffusion indicates an extended structure at low ionic strength. Biochemistry 30:5293-303
Winzeler, E A; Small, E W (1991) Fluorescence anisotropy decay of ethidium bound to nucleosome core particles. 2. The torsional motion of the DNA is highly constrained and sensitive to pH. Biochemistry 30:5304-13
van Holde, K E; Miller, K; Schabtach, E et al. (1991) Assembly of Octopus dofleini hemocyanin. A study of the kinetics by sedimentation, light scattering and electron microscopy. J Mol Biol 217:307-21
Libertini, L J; Small, E W (1989) Application of method of moments analysis to fluorescence decay lifetime distributions. Biophys Chem 34:269-82
Libertini, L J; Ausio, J; van Holde, K E et al. (1988) Histone hyperacetylation. Its effects on nucleosome core particle transitions. Biophys J 53:477-87

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