Tanikawa J, Enari M, Ishii S, Sarai A, Nishimura Y
Graduate School of Integrated Science, Yokohama City University, Japan.
Nucleic Acids Symp Ser. 1992(27):163-4.
The DNA-binding domain of Myb consists of three imperfect tandem repeats and the third one which is essential for sequence-specific binding was established to have a helix-turn-helix-related motif. DNA sequences recognized by Myb have been reported to contain TAACPy sequence. Here we have examined the details of Myb-binding sequence. Using DNAs with a single mutation on the various sites of two specific DNAs and some fragments of the DNA-binding domain of Myb, we have found that (i) in a specific DNA which contains only one AAC sequence, each AAC nucleotide is found to be essential for the specific binding of Myb, while any other mutations cause no serious binding loss, (ii) in a specific DNA which contains two AAC sequences separately, one AAC is not so important in the binding, and (iii) for the specific binding with DNA, at least both repeats 2 and 3 of Myb are required. These findings suggest that repeat 3 containing a helix-turn-helix-related structure recognizes the core AAC sequence and repeat 2 supports this recognition by interactions with phosphate groups of DNA.
Myb的DNA结合结构域由三个不完全的串联重复序列组成,其中第三个对序列特异性结合至关重要,已确定其具有与螺旋-转角-螺旋相关的基序。据报道,Myb识别的DNA序列含有TAACPy序列。在此,我们研究了Myb结合序列的细节。使用在两个特定DNA的不同位点有单个突变的DNA以及Myb的DNA结合结构域的一些片段,我们发现:(i)在仅含有一个AAC序列的特定DNA中,每个AAC核苷酸对于Myb的特异性结合都是必不可少的,而任何其他突变都不会导致严重的结合丧失;(ii)在分别含有两个AAC序列的特定DNA中,其中一个AAC在结合中不太重要;(iii)对于与DNA的特异性结合,Myb至少需要重复序列2和3。这些发现表明,含有与螺旋-转角-螺旋相关结构的重复序列3识别核心AAC序列,重复序列2通过与DNA磷酸基团的相互作用支持这种识别。