Gorski S M, Adams K J, Birch P H, Friedman J M, Goodfellow P J
Department of Medical Genetics, University of British Columbia, Vancouver, Canada.
Am J Hum Genet. 1992 May;50(5):1129-36.
Human craniofacial malformations are a class of common congenital anomalies in which the etiology is heterogeneous and often poorly understood. To better delineate the molecular basis of craniofacial development, we have undertaken a series of experiments directed toward the isolation of a gene involved in human secondary palate formation. DNA marker linkage studies have been performed in a large British Columbia (B.C.) Native family in which cleft palate segregates as an X-linked trait. We have examined 62 family members, including 15 affected males and 8 obligate carrier females. A previous clinical description of the clefting defect in this kindred included submucous cleft palate and bifid or absent uvula. Our recent reevaluation of the family has indicated that ankyloglossia (tongue-tie) is also a feature of X-linked cleft palate in some of the affected males and carrier females. Ankyloglossia has previously been associated with X-linked cleft palate in an Icelandic kindred in which a gene responsible for cleft palate (CPX) was assigned to the Xq21.3-q22 region between DXYS12 and DXS17. For the B.C. kindred reported here, we have mapped the gene responsible for cleft palate and/or ankyloglossia to a more proximal position on the X chromosome. No recombination was observed between B.C. CPX and the DNA marker DXS72 (peak lod score [Zmax] = 7.44 at recombination fraction [theta] = .0) localized to Xq21.1. Recombination was observed between CPX and PGK1 (Zmax = 7.35 at theta = .03) and between CPX and DXYS1 (Zmax = 5.59 at theta = .04). These recombination events localize B.C. CPX between PGK1 and DXYS1 in the Xq13-q21.31 region.
人类颅面畸形是一类常见的先天性异常,其病因具有异质性且通常了解甚少。为了更好地阐明颅面发育的分子基础,我们开展了一系列实验,旨在分离出一个参与人类次生腭形成的基因。在不列颠哥伦比亚省(B.C.)的一个大型原住民家庭中进行了DNA标记连锁研究,在这个家庭中,腭裂作为一种X连锁性状进行分离。我们检查了62名家庭成员,包括15名受影响的男性和8名肯定携带者女性。此前对这个家族中腭裂缺陷的临床描述包括黏膜下腭裂和悬雍垂裂或缺失。我们最近对该家族的重新评估表明,舌系带过短(舌粘连)也是一些受影响男性和携带者女性中X连锁腭裂的一个特征。舌系带过短此前在一个冰岛家族中与X连锁腭裂相关联,在该家族中,一个导致腭裂的基因(CPX)被定位到Xq21.3 - q22区域,位于DXYS12和DXS17之间。对于此处报道的B.C.家族而言,我们已将导致腭裂和/或舌系带过短的基因定位到X染色体上一个更靠近近端的位置。在B.C. CPX与定位到Xq21.1的DNA标记DXS72之间未观察到重组(重组率[θ]=0时,最大似然比分数[Zmax]=7.44)。在CPX与PGK1之间(θ = 0.03时,Zmax = 7.35)以及CPX与DXYS1之间(θ = 0.04时,Zmax = 5.59)观察到了重组。这些重组事件将B.C. CPX定位在Xq13 - q21.31区域的PGK1和DXYS1之间。