Part I. Electric birefringence studies of deoxyribonucleic acids. Part II. Selective dissociation of nucleohistone complexes


Autoria(s): Ohlenbusch, Heiko H.
Data(s)

1966

Resumo

<p>Part I</p> <p>The electric birefringence of dilute DNA solutions has been studied in considerable detail and on a large number of samples, but no new and reliable information was discovered concerning the tertiary structure of DNA. The large number of variables which effect the birefringence results is discussed and suggestions are made for further work on the subject.</p> <p>The DNA molecules have been aligned in a rapidly alternating (10 to 20 kc/sec) square wave field confirming that the orientation mechanism is that of counterion polarization. A simple empirical relation between the steady state birefringence, Δn<sub>st</sub>, and the square of the electric field, E, has been found: Δn<sub>st</sub> = E<sup>2</sup>/(a E<sup>2</sup> + b), where a = 1/Δn<sub>s</sub> and b = (E<sup>2</sup>/Δn<sub>st</sub>)<sub>E→o</sub>. Δn<sub>s</sub> is the birefringence extrapolated to infinite field strength.</p> <p>The molecules show a distribution of relaxation times from 10<sup>-4</sup> to 0.2 sec, which is consistent with expectations for flexible coil molecules. The birefringence and the relaxation times decrease with increasing salt concentrations. They also depend on the field strength and pulse duration in a rather non-reproducible manner, which may be due in part to changes in the composition of the solution or in the molecular structure of the DNA (other than denaturation). Further progress depends on the development of some control over these effects. </p> <p>Part II</p> <p>The specificity of the dissociation of reconstituted and native deoxyribonucleohistones (DNH) by monovalent salt solutions has been investigated. A novel zone ultracentrifugation method is used in which the DNH is sedimented as a zone through a preformed salt gradient, superimposed on a stabilizing D<sub>2</sub>O (sucrose) density gradient. The results, obtained by scanning the quartz sedimentation tubes in a spectrophotometer, were verified by the conventional, preparative sedimentation technique. Procedures are discussed for the detection of microgram quantities of histones, since low concentrations must be used to prevent excessive aggregation of the DNH.</p> <p>The data show that major histone fractions are selectively dissociated from DNH by increasing salt concentrations: Lysine rich histone (H I) dissociates gradually between 0.1 and 0.3 F, slightly lysine rich histone (H II) dissociates as a narrow band between 0.35 and 0.5 F, and arginine rich histone (H III, H IV) dissociates gradually above 0.5 F NaClO<sub>4</sub>. </p> <p>The activity of the partially dissociated, native DNH in sustaining RNA synthesis, their mobility and their unusual heat denaturation and renaturation behavior are described. The two-step melting behavior of the material indicates that the histones are non-randomly distributed along the DNA, but the implications are that the uncovered regions are not of gene-size length. </p>

Formato

application/pdf

Identificador

http://thesis.library.caltech.edu/9194/1/Ohlenbusch_hh_1966.pdf

Ohlenbusch, Heiko H. (1966) Part I. Electric birefringence studies of deoxyribonucleic acids. Part II. Selective dissociation of nucleohistone complexes. Dissertation (Ph.D.), California Institute of Technology. http://resolver.caltech.edu/CaltechTHESIS:10052015-092714954 <http://resolver.caltech.edu/CaltechTHESIS:10052015-092714954>

Relação

http://resolver.caltech.edu/CaltechTHESIS:10052015-092714954

http://thesis.library.caltech.edu/9194/

Tipo

Thesis

NonPeerReviewed