| Literature DB >> 30982135 |
Irfan Ullah1, Naseebullah Kakar2,3, Isabelle Schrauwen4, Shabir Hussain1,4, Imen Chakchouk4, Khurram Liaqat4,5, Anushree Acharya4, Naveed Wasif2,6, Regie Lyn P Santos-Cortez4, Saadullah Khan7, Abdul Aziz1,8, Kwanghyuk Lee4, Julien Couthouis9, Denise Horn10, Bjørt K Kragesteen10, Malte Spielmann10, Holger Thiele11, Deborah A Nickerson12, Michael J Bamshad12,13, Aaron D Gitler9, Jamil Ahmad3, Muhammad Ansar1, Guntram Borck2, Wasim Ahmad1, Suzanne M Leal14.
Abstract
Postaxial polydactyly (PAP) is a common limb malformation that often leads to cosmetic and functional complications. Molecular evaluation of polydactyly can serve as a tool to elucidate genetic and signaling pathways that regulate limb development, specifically, the anterior-posterior specification of the limb. To date, only five genes have been identified for nonsyndromic PAP: FAM92A, GLI1, GLI3, IQCE and ZNF141. In this study, two Pakistani multiplex consanguineous families with autosomal recessive nonsyndromic PAP were clinically and molecularly evaluated. From both pedigrees, a DNA sample from an affected member underwent exome sequencing. In each family, we identified a segregating frameshift (c.591dupA [p.(Q198Tfs*21)]) and nonsense variant (c.2173A > T [p.(K725*)]) in KIAA0825 (also known as C5orf36). Although KIAA0825 encodes a protein of unknown function, it has been demonstrated that its murine ortholog is expressed during limb development. Our data contribute to the establishment of a catalog of genes important in limb patterning, which can aid in diagnosis and obtaining a better understanding of the biology of polydactyly.Entities:
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Year: 2019 PMID: 30982135 PMCID: PMC6724712 DOI: 10.1007/s00439-019-02000-0
Source DB: PubMed Journal: Hum Genet ISSN: 0340-6717 Impact factor: 4.132