SynopsisTwo-dimensional 'H-nmr methods are described to obtain information on the sidechain conformation of valyl residues of the lac repressor headpiece and to assign the resonances of their methyl groups stereospecifically. The spin-spin coupling constants (Jab between Ca and CY protons are obtained from two-dimensional correlated spectroscopy experiments. Large values for J,, (10-12 Hz) corresponding to tmns orientations for these protons (B+ conformation) are found for all valyl residues in a-helical segments. For these valyl residues, the distance between one methyl group (7') and the valyl amide proton is much shorter than for the other methyl group, so that stereospecific resonance assignments follow from relative intensities of the corresponding cross peaks in a two-dimensional nuclear Overhauser enhancement spectrum. Thus, stereospecific assignments could be made for the methyl groups of Val 9, 20, 23, and 38 (of a total of eight valyl residues).
The complex formation of the N-terminal domain (headpiece) of the Escherichia coli lac repressor and a synthetic 14-base-pair lac operator fragment has been investigated by 1H NMR. Titration shifts in the imino-proton region of the DNA spectrum and in the aromatic region of the headpiece spectrum are examined in detail and interpreted where possible. The assignment of the resonances in the complex follows in part from the titration data and is completed by nuclear Overhauser measurements. The shift of the His-29 C-2 resonance has been used to assess the binding strength of the complex. Evidence is presented for the presence of a high-affinity site on the lac operator fragment (KD less than or equal to 2 X 10(-5) M), which shows features in common with one of the specific binding sites on the complete lac operator, and for the presence of a second, nonspecific binding site with lower affinity. The influence of this second site on the interpretation of the binding data is discussed.
The hydrogen-bonded imino protons of a 14 base pair double-stranded DNA fragment comprising one half of the lac operator of E. coli were investigated by 360 MHz H NMR. From combined melting studies of this synthetic 14 b.p. fragment and its two constituent 7 b.p. fragments a nearly complete assignment for the low-field proton resonances was obtained. The experimental spectra are compared with calculated spectra and with the spectrum of a 51 b.p. DNA restriction fragment from E. coli containing the complete lac operator. Structural information on these oligonucleotides is presented. This study is a prerequisite for future 1H NMR investigations of the interaction of the lac operator with the lac repressor.
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