The aim of the present report was to describe the clinical presentation, diagnosis, and treatment of a case of carbamoyl phosphate synthetase 1 (CPS1) deficiency in a neonate, specifically, a 3 day-old female who visited Hunan Provincial People\'s Hospital due to anorexia and lethargy for 1 day. Physical and laboratory examination, and MRI were undertaken. Whole exome sequencing (WES) was applied for molecular etiology identification. Sanger sequencing was utilized to validate the variants detected by WES. Structural modeling was conducted for pathogenic analysis. Clinical examination revealed increased intracranial pressure, hyperammonemia, reduced citrulline, and increased glutamic acid levels. WES identified compound heterozygosity of c.713G>C, p.Arg238Pro and c.2339G>A, p.Arg780His in CPS1 (NCBI reference sequence, NM_001875.4) as candidate pathogenic variants. Sanger sequencing validated these variants. Structural modeling further confirmed the pathogenesis of these mutations. In conclusion, CPS1 deficiency in neonates is a serious condition that may be misdiagnosed due to severe infection. WES can be a helpful tool in facilitating the diagnosis of this disease.

Carbamoyl phosphate synthetase I (CPS1) deficiency (CPS1D), is a rare autosomal recessive disorder, characterized by life-threatening hyperammonemia. In this study, we presented the detailed clinical features and genetic analysis of two patients with neonatal-onset CPS1D carrying two compound heterozygous variants of c.1631C > T (p.T544M)/c.1981G > T (p.G661C), and c.2896G > T (p.E966X)/c622-3C > G in CPS1 gene, individually. Out of them, three variants are novel, unreported including a missense (c.1981G > T, p.G661C), a nonsense (c.2896G > T, p.E966X), and a splicing change of c.622-3C > G. We reviewed all available publications regarding CPS1 mutations, and in total 264 different variants have been reported, with majority of 157 (59.5%) missense, followed by 35 (13.2%) small deletions. This study expanded the mutational spectrum of CPS1. Moreover, our cases and review further support the idea that most (≥90%) of the mutations were \"private\" and only ∼10% recurred in unrelated families.