果蝇附肢和感觉器官发育过程中的远端缺失功能。

Distal-less function during Drosophila appendage and sense organ development.

作者信息

Panganiban G

机构信息

Department of Anatomy, University of Wisconsin, Madison, Wisconsin 53706, USA.

出版信息

Dev Dyn. 2000 Aug;218(4):554-62. doi: 10.1002/1097-0177(200008)218:4<554::AID-DVDY1023>3.0.CO;2-#.

DOI:10.1002/1097-0177(200008)218:4<554::AID-DVDY1023>3.0.CO;2-#

PMID:10906775

Abstract

The Drosophila Distal-less (Dll) gene was identified in the early 1980s by means of dominant and recessive mutations that caused both striking antenna-to-leg transformations and leg truncations. The gene initially was named "Bristle on arista" or "Brista" because one aspect of the phenotype is the formation of leg bristles on the antenna (Sato [1984] Drosophila Information Service 60:180-182; Sunkel and Whittle [1987] Wilhelm Roux's. Arch. Dev. Biol. 196:124-132). Subsequent studies have revealed that Dll encodes a homeodomain transcription factor (Cohen et al. [1989] Nature 338:432-434) that is expressed throughout limb development from embryogenesis on (Cohen [1990] Nature 343:173-177; Weigmann and Cohen [1999] Development 126:3823-3830). Dll is required for the elaboration of distal pattern elements in the antenna, the legs, the limb-derived gnathal structures (Cohen and Jurgens [1989] Nature 482-485), and the anal plate (Gorfinkiel et al. [1999] Mech. Dev. 868:113-123) and can initiate proximodistal axis formation when expressed ectopically (Gorfinkiel et al. [1997] Genes Dev. 11:2259-2271). Dll homologs are expressed in developing appendages in at least six coelomate phyla, including chordates (Akimenko et al. [1994] J. Neurosci. 14:3475-3486; Beauchemin and Savard [1992] Dev. Biol. 154:55-65; Bulfone et al. [1993] Mech. Dev. 40:129-140; Dolle et al. [1992] Differentiation 49:93-99; Ferrari et al. [1995] Mech. Dev. 52:257-264; Panganiban et al. [1997] Proc. Natl. Acad. Sci. USA 94:5162-5166; Simeone et al. [1994] Proc. Natl. Acad. Sci. USA 91:2250-2254), consistent with requirements for Dlx function in normal limb development across the animal kingdom. Distal-less also has been implicated in various aspects of vertebrate neurogenesis (see reviews by Kraus and Lufkin [1999] J. Cell. Biochem. 32-33:133-140 and the accompanying review by Beanan and Sargent [2000] Dev. Dyn. 218:000-000). Here, I outline what is known about Dll function and regulation in Drosophila.

摘要

果蝇的远端缺失（Dll）基因是在20世纪80年代早期通过显性和隐性突变鉴定出来的，这些突变导致了显著的触角到腿的转变以及腿部截断。该基因最初被命名为“触角刚毛”或“Brista”，因为其表型的一个方面是在触角上形成腿部刚毛（佐藤[1984]《果蝇信息服务》60:180 - 182；孙克尔和惠特尔[1987]《威廉·鲁克斯发育生物学杂志》196:124 - 132）。随后的研究表明，Dll编码一种同源结构域转录因子（科恩等人[1989]《自然》338:432 - 434），从胚胎发生开始在整个肢体发育过程中表达（科恩[1990]《自然》343:173 - 177；魏格曼和科恩[1999]《发育》126:3823 - 3830）。Dll是触角、腿、源自肢体的颚部结构（科恩和于尔根斯[1989]《自然》482 - 485）以及肛板（戈尔芬基尔等人[1999]《机制与发育》868:113 - 123）中远端模式元件形成所必需的，并且当异位表达时可以启动近端到远端轴的形成（戈尔芬基尔等人[1997]《基因与发育》11:2259 - 2271）。Dll同源物在至少六个真体腔动物门的发育附属物中表达，包括脊索动物（阿基缅科等人[1994]《神经科学杂志》14:3475 - 3486；博谢曼和萨瓦尔[1992]《发育生物学》154:55 - 65；布尔方内等人[1993]《机制与发育》40:129 - 140；多勒等人[1992]《分化》49:93 - 99；法拉利等人[1995]《机制与发育》52:257 - 264；潘加尼班等人[1997]《美国国家科学院院刊》94:5162 - 5166；西梅奥内等人[1994]《美国国家科学院院刊》91:2250 - 2254），这与动物界正常肢体发育中Dlx功能的需求一致。远端缺失也与脊椎动物神经发生的各个方面有关（见克劳斯和卢夫金[1999]《细胞生物化学杂志》32 - 33:133 - 140的综述以及贝南和萨金特[2000]《发育动力学》218:000 - 000的相关综述）。在此，我概述了关于果蝇中Dll功能和调控的已知情况。