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白色作为一种报告基因,用于检测在黑腹果蝇眼睛发育过程中指定位置特异性基因表达的转录沉默子。

White as a reporter gene to detect transcriptional silencers specifying position-specific gene expression during Drosophila melanogaster eye development.

作者信息

Sun Y H, Tsai C J, Green M M, Chao J L, Yu C T, Jaw T J, Yeh J Y, Bolshakov V N

机构信息

Institute of Molecular Biology, Academia Sinica, Nankang Taipei, Republic of China.

出版信息

Genetics. 1995 Nov;141(3):1075-86. doi: 10.1093/genetics/141.3.1075.

DOI:10.1093/genetics/141.3.1075
PMID:8582614
原文链接:https://pmc.ncbi.nlm.nih.gov/articles/PMC1206831/
Abstract

The white+ gene was used as a reporter to detect transcriptional silencer activity in the Drosophila genome. Changes in the spatial expression pattern of white were scored in the adult eye as nonuniform patterns of pigmentation. Thirty-six independent P[lacW] transposant lines were collected. These represent 12 distinct pigmentation patterns and probably 21 loci. The spatial pigmentation pattern is due to cis-acting suppression of white+ expression, and the suppression probably depends on cell position rather than cell type. The mechanism of suppression differs from inactivation by heterochromatin. In addition, activation of lacZ in P[lacW] occurs also in specific patterns in imaginal discs and embryos in many of the lines. The expression patterns of white+ and lacZ may reflect the activity of regulatory elements belonging to an endogenous gene near each P[lacW] insertion site. We speculate that these putative POSE (position-specific expression) genes may have a role in pattern formation of the eye as well as other imaginal structures. Three of the loci identified are optomotor-blind, engrailed and invected. teashirt is also implicated as a candidate gene. We propose that this "silencer trap"' may be an efficient way of identifying genes involved in imaginal pattern formation.

摘要

白色基因(white+)被用作报告基因,以检测果蝇基因组中的转录沉默子活性。在成年果蝇眼睛中,白色基因空间表达模式的变化以色素沉着的不均匀模式来计分。收集了36个独立的P[lacW]转座子系。这些代表了12种不同的色素沉着模式,可能涉及21个基因座。空间色素沉着模式是由于白色基因表达的顺式作用抑制,且这种抑制可能取决于细胞位置而非细胞类型。抑制机制不同于异染色质导致的失活。此外,在许多品系中,P[lacW]中的lacZ在成虫盘和胚胎中也以特定模式激活。白色基因和lacZ的表达模式可能反映了每个P[lacW]插入位点附近内源性基因所属调控元件的活性。我们推测这些假定的POSE(位置特异性表达)基因可能在眼睛以及其他成虫结构的模式形成中发挥作用。已鉴定出的三个基因座分别是视动盲(optomotor-blind)、 engrailed和invected。teashirt也被认为是一个候选基因。我们提出这种“沉默子陷阱”可能是鉴定参与成虫模式形成基因的一种有效方法。

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