Abstract
High mobility group box (HMGB) proteins are architectural proteins whose HMG DNA binding domains confer significant preference for distorted DNA, such as 4-way junctions. HMO1 is one of 10 Saccharomyces cerevisiae HMGB proteins, and it is required for normal growth and plasmid maintenance and for regulating the susceptibility of yeast chromatin to nuclease. Using electrophoretic mobility shift assays, we have shown here that HMO1 binds 26-bp duplex DNA with K(d) = 39.6 +/- 5.0 nm and that its divergent box A domain participates in DNA interactions, albeit with low affinity. HMO1 has only modest preference for DNA with altered conformations, including DNA with nicks, gaps, overhangs, or loops, as well as for 4-way junction structures and supercoiled DNA. HMO1 binds 4-way junctions with half-maximal saturation of 19.6 +/- 2.2 nm, with only a modest increase in affinity in the absence of magnesium ions (half-maximal saturation 6.1 +/- 1.1 nm). Whereas the box A domain contributes modest structure-specific binding, the box B domain is required for high affinity binding. HMO1 bends DNA, as measured by DNA cyclization assays, facilitating cyclization of 136-, 105-, and 87-bp DNA, but not 75-bp DNA, and it has a significantly longer residence time on DNA minicircles compared with linear duplex DNA. The unique DNA binding properties of HMO1 are consistent with global roles in the maintenance of chromatin structure.
Highlights
Non-sequence-specific family is represented by so-called architectural factors HMGB1/2 and the Saccharomyces cerevisiae non-histone chromosomal proteins 6A and 6B (NHP6A/B) [9]
Recent studies have shown that the difference between sequence-specific High mobility group box (HMGB) proteins and the non-sequence-specific homologs depends on individual DNA-intercalating residues and the global features of the High mobility group (HMG) box, which determines the mode of DNA recognition
For the tandem HMG boxes of HMGB1, the DNA-intercalating residues are at positions 16 or 37, located in helices I and II, respectively, and both can contribute to the binding affinity of the HMG boxes
Summary
Non-sequence-specific family is represented by so-called architectural factors HMGB1/2 and the Saccharomyces cerevisiae non-histone chromosomal proteins 6A and 6B (NHP6A/B) [9]. Agarose Gel Retardation—Reactions were incubated at room temperature in 10 l of reaction buffer containing 0.2 g of linear, relaxed closed circular or supercoiled pUC18 and varying amounts of HMO1 or HMO1-BoxA.
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