Clinical whole exome sequencing from dried blood spot identifies novel genetic defect underlying asparagine synthetase deficiency

Avinash Abhyankar; Michelle Lamendola‐Essel; Kelly Brennan; Jessica L. Giordano; Cecilia Esteves; Vanessa Felice; Ronald Wapner; Vaidehi Jobanputra

Journal ArticleOPEN ACCESS

Clinical whole exome sequencing from dried blood spot identifies novel genetic defect underlying asparagine synthetase deficiency

Abhyankar A
Lamendola‐Essel M
Brennan K
et al.

Clinical Case Reports (2018) 6(1) 200-205

DOI: 10.1002/ccr3.1284

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Abstract

We add two novel variants to the existing mutation spectrum of ASNS gene. Loss of ASNS function should be suspected in newborns presenting with congenital microcephaly, intellectual disability, progressive cerebral atrophy, and intractable seizures. Acquisition and sequencing of stored newborn blood spot can be a valuable option when no biological samples are available from a deceased child.

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Abhyankar, A., Lamendola‐Essel, M., Brennan, K., Giordano, J. L., Esteves, C., Felice, V., … Jobanputra, V. (2018). Clinical whole exome sequencing from dried blood spot identifies novel genetic defect underlying asparagine synthetase deficiency. Clinical Case Reports, 6(1), 200–205. https://doi.org/10.1002/ccr3.1284

Clinical whole exome sequencing from dried blood spot identifies novel genetic defect underlying asparagine synthetase deficiency

Abstract

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