A three-step molecular protocol employing DNA obtained from dried blood spots for neonatal screening for 45,X Turner syndrome

Mylene Neves Rocha, Murilo Rezende Melo, Carlos Alberto Longui, Daniela Vilariço Alves de Oliveira, Carolina Costa Figueiredo, Paulo Roberto Pacchi
Published December 9, 2005
Genet. Mol. Res. 4 (4): 749-754 (2005)

About the Authors
Mylene Neves Rocha, Murilo Rezende Melo, Carlos Alberto Longui, Daniela Vilariço Alves de Oliveira, Carolina Costa Figueiredo, Paulo Roberto Pacchi

Corresponding author
M.N. Rocha
Email: mylene.rocha@fcmscsp.edu.br

ABSTRACT

Turner syndrome (TS) is one of the most common human chromosomal abnormalities; it is characterized by the presence of one normal X chromosome and the complete or partial loss of the second X chromosome. The early recognition of TS patients allows for adequate therapy for short stature and pubertal sex steroid substitution. We developed a cost-effective molecular diagnostic tool that can be used to identify 45,X TS patients from dried blood spots, for possible use in neonatal screening for TS. We used a three-step method for 45,X TS detection: i) DNA extraction from dried blood spot samples, ii) pre-PCR HpaII digestion (methylation-sensitive enzyme) and iii) GeneScan analysis of selected cases. DAX-1 gene amplification was used to recognize DNA integrity, and the androgen receptor gene (Xq11-12), which is both a highly polymorphic and methylated gene, was used to determine the number of X chromosome alleles. Using this three-step diagnostic procedure, we detected apparent TS in 1/304 (0.33%) samples; such individuals should be submitted to clinical examination and karyotype confirmation. The three-step 45,X TS neonatal screening protocol is a simple, reliable, fast (under 30 h) and cost-effective diagnostic tool, useful for the neonatal detection of TS.

Key words: Turner syndrome, Neonatal screening, Androgen receptor, Methylation.

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