Novel PAX9 mutation associated with syndromic tooth agenesis.

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Tooth agenesis is the most common anomaly of dental development . The purpose of the present study was to identify the causative mutation (s ) in a family with a syndromic form of hypodontia . The male proband lacked 19 permanent teeth and showed defects of hair , but lacked ectodermal symptoms of skin and nails . Direct sequencing of the coding regions , including exon /intron boundaries of the msh homeobox 1 (MSX 1 ), paired box 9 (PAX 9 ), ectodysplasin A (EDA ), and wingless-type MMTV integration site family , member 1 0 (WNT 10 A ) genes , was carried out in affected family members . All identified nucleotide variations were tested in 200 healthy individuals using high -resolution melting (HRM ) curve analysis to exclude the possibility that they represent rare polymorphisms . A novel heterozygous c .59 delC mutation , segregating in the autosomal-dominant model , was identified in the PAX 9 gene of the proband and the family members studied . This one -nucleotide deletion , located in a highly conserved paired box sequence , resulted in a frameshift (p .Pro 20 Argfs 65 ) and in premature termination of translation , yielding a truncated protein 258 amino acids shorter than the wildtype protein . No pathogenic mutations were found in the MSX 1 , EDA , and WNT 10 A genes . In conclusion , the novel PAX 9 deletion might be responsible for tooth agenesis and trichodysplasia in the investigated family . This c .59 delC mutation potentially leads to PAX 9 transcription factor haploinsufficiency .