Binding of E.coli lac repressor to non-operator DNA

doi:10.1093/nar/4.5.1579

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Nucleic Acids Research, 1977, Vol. 4, No. 5 1579-1594
© 1977

Articles

Binding of E.coli lac repressor to non-operator DNA^*

Amy C. Wang, Arnold Revzin¹, Andrew P. Butler² and Peter H. von Hippel

Institute of Molecular Biology and Department of Chemistry, University of Oregon Eugene, OR 97403, USA

Received January 17, 1977.

It is shown by melting profile analysis of lac repressor-DNAcomplexes that repressor binds tightly and preferentially (relativeto single-stranded DNA) to double-stranded non-operator DNA.This binding stabilizes the DNA against melting and the repressoragainst thermal denaturation. Analysis of the extent of stabilizationand the rate of dissociation of repressor from non-operatorDNA as a function of sodium ion concentration shows, in confirmationof other studies,^3,4 that the binding constant (K_RD) is veryionic strength dependent; K_RD increases from {small tilde} 10⁶M^–1 at {small tilde}0.1 M Na⁺ to values in excess of 10¹⁰M^–1 at 0.002 M Na⁺. Repressor bound to non-operator DNAis not further stabilized against thermal denaturation by inducerbinding, indicating that the inducer and DNA binding sites probablyrepresent separately stabilized local conformations. Transfermelting experiments are used to measure the rate of dissociationof repressor from operator DNA. These experiments show thatmost of the ionic strength dependence of the binding constantis in the dissociation process; the estimated dissociation rateconstant decreases from greater than 10^–1 sec^–1at [Na⁺] $≥$ 0.02 M to less than 10^–4 sec^–1 at [Na⁺] $≤$ 0.002 M. Competition melting experiments are used to show thatat 0.02 to 0.002 M Na⁺ the affinity of lac repressor for variousnatural DNAs and synthetic double-stranded polynucleotides (includingpoly[d(m⁶A-T)], which carries a methyl group in the large groove)are approximately independent of base composition, except thatthe affinity of repressor for poly[d(A-T)] is {small tilde}2- to 3-fold greater than for the other DNAs tested. The affinityfor single-stranded polynucleotides is at least 50-fold lessthan for the double-helical forms.

^*Dedicated to the memory of Jerome Vinograd. These studies weresupported in part by USPHS Research Grants GM-l5792 and GM-15423,as well as by a USPHS post-doctoral fellowship (GM-55928) toA.R., and a pre-doctoral traineeship (from USPHS Training GrantGM-OO715) to A.P.B. We are grateful to Ms. Ying Kao Huang andMs. Pamela O'Conner for preparing much of the repressor usedin these studies.

¹Present address: Department of Biochemistry, Michigan StateUniversity, East Lansing, Michigan 48824.

²Present address: Division of Biology, Oak Ridge National Laboratory,Oak Ridge, Tennessee 37830.3

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Nucleic Acids Research

Articles

Binding of E.coli lac repressor to non-operator DNA*

Binding of E.coli lac repressor to non-operator DNA^*