Zhang Y H, Guo W, Wagner R L, Huang B L, McCabe L, Vilain E, Burris T P, Anyane-Yeboa K, Burghes A H, Chitayat D, Chudley A E, Genel M, Gertner J M, Klingensmith G J, Levine S N, Nakamoto J, New M I, Pagon R A, Pappas J G, Quigley C A, Rosenthal I M, Baxter J D, Fletterick R J, McCabe E R
Department of Pediatrics, UCLA School of Medicine, Los Angeles, CA, USA.
Am J Hum Genet. 1998 Apr;62(4):855-64. doi: 10.1086/301782.
The DAX1 protein is an orphan nuclear hormone receptor based on sequence similarity in the putative ligand-binding domain (LBD). DAX1 mutations result in X-linked adrenal hypoplasia congenita (AHC). Our objective was to identify DAX1 mutations in a series of families, to determine the types of mutations resulting in AHC and to locate single-amino-acid changes in a DAX1 structural model. The 14 new mutations identified among our 17 families with AHC brought the total number of families with AHC to 48 and the number of reported mutations to 42; 1 family showed gonadal mosaicism. These mutations included 23 frameshift, 12 nonsense, and six missense mutations and one single-codon deletion. We mapped the seven single-amino-acid changes to a homology model constructed by use of the three-dimensional crystal structures of the thyroid-hormone receptor and retinoid X receptor alpha. All single-amino-acid changes mapped to the C-terminal half of the DAX1 protein, in the conserved hydrophobic core of the putative LBD, and none affected residues expected to interact directly with a ligand. We conclude that most genetic alterations in DAX1 are frameshift or nonsense mutations and speculate that the codon deletion and missense mutations give insight into the structure and function of DAX1.
基于假定配体结合域(LBD)中的序列相似性,DAX1蛋白是一种孤儿核激素受体。DAX1突变导致X连锁先天性肾上腺发育不全(AHC)。我们的目标是在一系列家族中鉴定DAX1突变,确定导致AHC的突变类型,并在DAX1结构模型中定位单氨基酸变化。在我们的17个AHC家族中鉴定出的14个新突变使AHC家族总数达到48个,报告的突变数达到42个;1个家族显示性腺嵌合体。这些突变包括23个移码突变、12个无义突变、6个错义突变和1个单密码子缺失。我们将7个单氨基酸变化定位到一个通过使用甲状腺激素受体和视黄酸X受体α的三维晶体结构构建的同源模型上。所有单氨基酸变化都定位在DAX1蛋白的C端一半,在假定LBD的保守疏水核心中,且没有一个影响预期与配体直接相互作用的残基。我们得出结论,DAX1中的大多数基因改变是移码突变或无义突变,并推测密码子缺失和错义突变有助于深入了解DAX1的结构和功能。