High resolution thermal denaturation analyses of small sequenced DNA restriction fragments containing Escherichia coli lactose genetic control loci

Differential melting curves are reported for four DNA restriction fragments (789, 301, 203, and 95 base pairs in length) spanning the lactose control region. All but the smallest melt with two or more subtransitions. Maps are proposed which identify the positions of regions of different thermal stability in the sequences. The sizes of regions comprising subtransitions range from 60 to 200 base pairs. An analysis is made of the cooperativity exhibited between regions in the sequence. The effect on the shape of the differential melting curves of Na+ between 10 mM and 0.5 M as well as that of Mg2+ and glycerol has been determined. An 81-bp-long sequence of unusual thermal stability occurs at the lactose promoter. Its TM change, resulting from the above change in salt concentration, is out of step by 1.5 degree C with the neighboring DNA sequence. The potential biological significance of this behavior is discussed.