出芽酵母端粒DNA的四联体结构。

Hidetaka Torigoe, Eugene Horio, Takashi Takehara, Kaoru Kaneda, Tetsuo Kozasa
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引用次数: 0

摘要

我们检测了出芽酵母端粒DNA序列SCTELGG4: 5'-(TGGGTGTG)(4)-3'和SCTELGG4: 5'-(TGGGTGTGG)(4)-3'在Na(+)或K(+)存在下的结构特性。SCTELG4与Na(+)的构象是平行四联体DNA和非结构化单链DNA的混合物。另一方面,SCTELGG4与Na(+)的构象是平行和反平行的四联体DNA的混合物。K(+)的存在增加了SCTELG4的平行四联体与非结构化单链的比例。在K(+)的作用下,几乎所有的SCTELGG4的构象都改变为平行四复体。这些结果表明,SCTELG4和SCTELGG4的结构变化可能是由阳离子类型引起的。我们得出结论,出芽酵母端粒DNA序列的构象取决于碱基序列和阳离子类型。
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Tetraplex structure of budding yeast telomeric DNA.

We examined the structural properties of budding yeast telomeric DNA sequences, SCTELG4: 5'-(TGGG TGTG)(4)-3' and SCTELGG4: 5'-(TGGGTGTGG)(4)-3', in the presence of Na(+) or K(+). The conformation of SCTELG4 with Na(+) was a mixture of parallel tetraplex DNA and unstructured single-stranded DNA. On the other hand, the conformation of SCTELGG4 with Na(+) was a mixture of parallel and antiparallel tetraplex DNA. The ratio of the amount of parallel tetraplex to that of unstructured single-strand was increased for SCTELG4 by the presence of K(+). The conformation of almost all of SCTELGG4 was changed into parallel tetraplex by the presence of K(+). These results indicate that structural change of SCTELG4 and SCTELGG4 may be induced by the type of cation. We conclude that the conformation of budding yeast telomeric DNA sequences depends on the base sequence and the type of cation.

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