Structure and function of the Groucho gene family and encoded transcriptional corepressor proteins from human, mouse, rat, Xenopus, Drosophila and nematode.

S S Li
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Abstract

A gene family of the Groucho, TLE, ESG and AES proteins has been characterized from Drosophila, nematode, Xenopus, mouse, rat and human, and their structural relationships have been analyzed. The genomic organization of nematode ESG, human and mouse AES genes has been determined, and the expression of ESG and AES genes from Xenopus and human has been analyzed. The Groucho, TLE and ESG proteins all share a similar structure, consisting of a conserved amino-terminal domain, a variable middle region, and highly conserved carboxyl-terminal WD-40 repeats. The Drosophila Groucho transcriptional corepressor protein has been shown to interact with the DNA-binding bHLH domain of Enhancer of split, Hairy and Deadpan proteins, which proteins are involved in neurogenesis, segmentation and sex-determination, respectively. Human TLE1 protein has been demonstrated to interact with mammalian AML1 protein, which regulates hematopoiesis and osteoblast differentiation. The AES proteins from human, mouse, rat and Xenopus exhibit strong similarity to the amino-terminal domain of Groucho proteins; however, the biological function remains to be elucidated.

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人、小鼠、大鼠、爪蟾、果蝇和线虫中Groucho基因家族的结构、功能和编码转录共抑制蛋白。
在果蝇、线虫、爪蟾、小鼠、大鼠和人类中分别鉴定了Groucho、TLE、ESG和AES蛋白的基因家族,并分析了它们之间的结构关系。测定了线虫ESG、人类和小鼠AES基因的基因组组织,分析了非洲爪蟾和人类ESG和AES基因的表达。Groucho蛋白、TLE蛋白和ESG蛋白具有相似的结构,包括保守的氨基末端结构域、可变的中间区域和高度保守的羧基末端WD-40重复序列。果蝇Groucho转录共抑制蛋白已被证明与分裂蛋白、毛蛋白和Deadpan蛋白增强子的dna结合bHLH结构域相互作用,这些蛋白分别参与神经发生、分割和性别决定。人类TLE1蛋白已被证明与哺乳动物AML1蛋白相互作用,后者调节造血和成骨细胞分化。来自人、小鼠、大鼠和爪蟾的AES蛋白与Groucho蛋白的氨基末端结构域具有很强的相似性;然而,其生物学功能仍有待阐明。
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