HOXD13基因缺失在两个不相关的家族中与一种相同的、新的足部畸形相关联。

Deletions in HOXD13 segregate with an identical, novel foot malformation in two unrelated families.

作者信息

Goodman F, Giovannucci-Uzielli M L, Hall C, Reardon W, Winter R, Scambler P

机构信息

Molecular Medicine Unit, University of Florence.

出版信息

Am J Hum Genet. 1998 Oct;63(4):992-1000. doi: 10.1086/302070.

DOI:10.1086/302070

PMID:9758628

原文链接:https://pmc.ncbi.nlm.nih.gov/articles/PMC1377502/

Abstract

Synpolydactyly (SPD) is a dominantly inherited congenital limb malformation consisting of 3/4 syndactyly in the hands and 4/5 syndactyly in the feet, with digit duplication in the syndactylous web. The condition recently has been found to result from different-sized expansions of an amino-terminal polyalanine tract in HOXD13. We report a novel type of mutation in HOXD13, associated in some cases with features of classic SPD and in all cases with a novel foot phenotype. In two unrelated families, each with a different intragenic deletion in HOXD13, all mutation carriers have a rudimentary extra digit between the first and second metatarsals and often between the fourth and fifth metatarsals as well. This phenotype has not been reported in any mice with genetic modifications of the HoxD gene cluster. The two different deletions affect the first exon and the homeobox, respectively, in each case producing frameshifts followed by a long stretch of novel sequence and a premature stop codon. Although the affected genes may encode proteins that exert a dominant negative or novel effect, they are most likely to act as null alleles. Either possibility has interesting implications for the role of HOXD13 in human autopod development.

摘要

并指多指畸形（SPD）是一种常染色体显性遗传的先天性肢体畸形，其特征为手部3/4并指、足部4/5并指，且并指部位有手指重复。最近发现该病症是由HOXD13基因氨基末端多聚丙氨酸序列不同程度的扩增所致。我们报告了一种新型的HOXD13基因突变，在某些病例中与经典SPD特征相关，在所有病例中均伴有一种新型足表型。在两个不相关的家族中，每个家族的HOXD13基因都有不同的基因内缺失，所有突变携带者在第一和第二跖骨之间，且常常在第四和第五跖骨之间有一个残留的额外趾头。这种表型在任何经过HoxD基因簇基因改造的小鼠中均未报道过。这两种不同的缺失分别影响第一个外显子和同源异型框，每种情况都会产生移码突变，随后是一段长的新序列和一个提前终止密码子。尽管受影响的基因可能编码具有显性负效应或新效应的蛋白质，但它们很可能作为无效等位基因起作用。这两种可能性对于HOXD13在人类足发育中的作用都具有有趣的意义。

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