P 因子移动性的 I 型阻遏物。
Type I repressors of P element mobility.
作者信息
Gloor G B, Preston C R, Johnson-Schlitz D M, Nassif N A, Phillis R W, Benz W K, Robertson H M, Engels W R
机构信息
Department of Biochemistry, University of Western Ontario, London.
出版信息
Genetics. 1993 Sep;135(1):81-95. doi: 10.1093/genetics/135.1.81.
We describe here a family of P elements that we refer to as type I repressors. These elements are identified by their repressor functions and their lack of any deletion within the first two-thirds of the canonical P sequence. Elements belonging to this repressor class were isolated from P strains and were made in vitro. We found that type I repressor elements could strongly repress both a cytotype-dependent allele and P element mobility in somatic and germline tissues. These effects were very dependent on genomic position. Moreover, we observed that an element's ability to repress in one assay positively correlated with its ability to repress in either of the other two assays. The type I family of repressor elements includes both autonomous P elements and those lacking exon 3 of the P element. Fine structure deletion mapping showed that the minimal 3' boundary of a functional type I element lies between nucleotide position 1950 and 1956. None of 12 elements examined with more extreme deletions extending into exon 2 made repressor. We conclude that the type I repressors form a structurally distinct group that does not include more extensively deleted repressor elements such as the KP element described previously.
我们在此描述一类P因子,我们将其称为I型抑制因子。这些因子通过其抑制功能以及在标准P序列前三分之二内不存在任何缺失来鉴定。属于这一抑制因子类别的因子是从P菌株中分离出来并在体外构建的。我们发现I型抑制因子元件能够强烈抑制体细胞和生殖细胞组织中的细胞型依赖性等位基因以及P因子的移动性。这些效应非常依赖于基因组位置。此外,我们观察到一个元件在一种检测中的抑制能力与其在其他两种检测中的抑制能力呈正相关。I型抑制因子元件家族包括自主P因子以及那些缺少P因子外显子3的元件。精细结构缺失图谱显示,功能性I型元件的最小3'边界位于核苷酸位置1950和1956之间。用延伸到外显子2的更极端缺失检测的12个元件中,没有一个产生抑制因子。我们得出结论,I型抑制因子形成一个结构上不同的群体,不包括之前描述的如KP元件等缺失更广泛的抑制因子元件。
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