快速追踪遗传：转录在进化边界上的新变化。

Flash forward genetics: new twists in transcription across evolutionary boundaries.

机构信息

University of Lausanne, Epalinges, Switzerland.

Massachusetts General Hospital, Boston, MA, USA.

出版信息

EMBO Rep. 2021 Mar 3;22(3):e52152. doi: 10.15252/embr.202052152. Epub 2021 Feb 8.

DOI:10.15252/embr.202052152

PMID:33554445

原文链接:https://pmc.ncbi.nlm.nih.gov/articles/PMC7926253/

Abstract

"Flash forward genetics" refers to a genetic approach based on the functional interaction of a given factor with unknown partner(s) converging on shared targets across evolutionary boundaries. A study by Li et al (2021), published in this issue of EMBO Reports, illustrates the innovative potential of the approach. The authors applied it to identify interacting factors for FOXN1, a mammalian transcription factor with a highly specialized function in hair follicle morphogenesis and thymus. The authors express FOXN1 in the Drosophila eye to perform an unbiased genetic screen in a totally heterologous system. In a remarkable tour de force, the authors identify and characterize a factor so far known for its ubiquitous function in transcription elongation, AFF4. Li et al show that AFF4 plays also a specific role in hair follicle and thymus development in the mouse overlapping with that of FOXN1.

摘要

“正向遗传学”是一种基于给定因子与未知伙伴之间功能相互作用的遗传方法，该方法聚焦于跨越进化边界的共同靶点。李等人（2021）在本期《EMBO 报告》上发表的研究说明了这种方法的创新潜力。作者将其应用于鉴定 FOXN1 的相互作用因子，FOXN1 是一种在毛囊形态发生和胸腺中具有高度特异性功能的哺乳动物转录因子。作者在果蝇的眼睛中表达 FOXN1，在完全异源系统中进行无偏遗传筛选。作者完成了一项杰出的壮举，鉴定并描述了一个迄今为止因其在转录延伸中的普遍功能而闻名的因子，AFF4。李等人表明，AFF4 在小鼠的毛囊和胸腺发育中也发挥着与 FOXN1 重叠的特定作用。

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本文引用的文献

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