The Tabby phenotype is caused by mutation in a mouse homologue of the<i>EDA</i>gene that reveals novel mouse and human exons and encodes a protein (ectodysplasin-A) with collagenous domains

Anand K. Srivastava; Johanna Pispa; Andrew J. Hartung; Yangzhu Du; Sini Ezer; Ted Jenks; Tokihiko Shimada; Maija Pekkanen; Marja L. Mikkola; Minoru S.H. Ko; Irma Thesleff; Juha Kere; David Schlessinger

doi:10.1073/pnas.94.24.13069

The Tabby phenotype is caused by mutation in a mouse homologue of the<i>EDA</i>gene that reveals novel mouse and human exons and encodes a protein (ectodysplasin-A) with collagenous domains

Anand K. Srivastava(University of Helsinki), Johanna Pispa(University of Helsinki), Andrew J. Hartung(University of Helsinki), Yangzhu Du(University of Helsinki), Sini Ezer(University of Helsinki), Ted Jenks(University of Helsinki), Tokihiko Shimada(University of Helsinki), Maija Pekkanen(University of Helsinki), Marja L. Mikkola(University of Helsinki), Minoru S.H. Ko(University of Helsinki), Irma Thesleff(University of Helsinki), Juha Kere(University of Helsinki), David Schlessinger(University of Helsinki)

Proceedings of the National Academy of Sciences

November 25, 1997

10.1073/pnas.94.24.13069

Cited by 312Open Access

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Abstract

Mouse Tabby (Ta) and X chromosome-linked human EDA share the features of hypoplastic hair, teeth, and eccrine sweat glands. We have cloned the Ta gene and find it to be homologous to the EDA gene. The gene is altered in two Ta alleles with a point mutation or a deletion. The gene is expressed in developing teeth and epidermis; no expression is seen in corresponding tissues from Ta mice. Ta and EDA genes both encode alternatively spliced forms; novel exons now extend the 3' end of the EDA gene. All transcripts recovered have the same 5' exon. The longest Ta cDNA encodes a 391-residue transmembrane protein, ectodysplasin-A, containing 19 Gly-Xaa-Yaa repeats. The isoforms of ectodysplasin-A may correlate with differential roles during embryonic development.

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The Tabby phenotype is caused by mutation in a mouse homologue of the<i>EDA</i>gene that reveals novel mouse and human exons and encodes a protein (ectodysplasin-A) with collagenous domains

Abstract

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