Susgun, S. Et Al. 2023. Reanalysis of exome sequencing data reveals a treatable neurometabolic origin in two previously undiagnosed siblings with neurodevelopmental disorder. NEUROLOGICAL SCIENCES , vol.44, no.7 , 2527-2540.

Susgun, S., Kesim, Y., Khalilov, D., Sirin, N. G., Gezegen, H., Salman, B., ... Yucesan, E.(2023). Reanalysis of exome sequencing data reveals a treatable neurometabolic origin in two previously undiagnosed siblings with neurodevelopmental disorder. NEUROLOGICAL SCIENCES , vol.44, no.7, 2527-2540.

Susgun, Seda Et Al. "Reanalysis of exome sequencing data reveals a treatable neurometabolic origin in two previously undiagnosed siblings with neurodevelopmental disorder," NEUROLOGICAL SCIENCES , vol.44, no.7, 2527-2540, 2023

Susgun, Seda Et Al. "Reanalysis of exome sequencing data reveals a treatable neurometabolic origin in two previously undiagnosed siblings with neurodevelopmental disorder." NEUROLOGICAL SCIENCES , vol.44, no.7, pp.2527-2540, 2023

Susgun, S. Et Al. (2023) . "Reanalysis of exome sequencing data reveals a treatable neurometabolic origin in two previously undiagnosed siblings with neurodevelopmental disorder." NEUROLOGICAL SCIENCES , vol.44, no.7, pp.2527-2540.

@article{article, author={Seda Susgun Et Al. }, title={Reanalysis of exome sequencing data reveals a treatable neurometabolic origin in two previously undiagnosed siblings with neurodevelopmental disorder}, journal={NEUROLOGICAL SCIENCES}, year=2023, pages={2527-2540} }