Table 2.
cDNA change (NM_012479.3) | Protein change (NP_036611.2) | Phenotype | MAF | Inheritance | Damaging prediction‡ | ΔΔGAffinity (kcal/mol)§ | PIS | ACMG (scoring) |
---|---|---|---|---|---|---|---|---|
c.124C>T† | p.Arg42Ter | FS+, myoclonic seizures | 0 | Family | – | – | – | P (PVS1 + PM2 + PP1) |
c.373A>G† | p.Lys125Glu | FS+, myoclonic seizures | 0 | de novo | 18 | −0.635 | No | LP (PS2 + PM2 + PP3) |
c.44A>C | p.Glu15Ala | Epileptic encephalopathy | 0 | de novo | 15 | −0.620 | Yesa | LP (PS2 + PM2 + PP3) |
c.169C>G | p.Arg57Gly | Epileptic encephalopathy | 0 | de novo | 19 | −0.517 | Yesb | LP (PS2 + PM2 + PP3) |
c.169C>T | p.Arg57Cys | Epileptic encephalopathy | 0 | de novo | 19 | −0.360 | Yesb | LP (PS2 + PM2 + PP3) |
c.387C>G | p.Asp129Glu | Epileptic encephalopathy | 0 | de novo | 19 | −0.969 | Yesb | LP (PS2 + PM2 + PP3) |
c.394C>T | p.Arg132Cys | Epileptic encephalopathy | 0 | de novo | 18 | −1.288 | Yesb | LP (PS2 + PM2 + PP3) |
c.398A>C | p.Tyr133Ser | Developmental delay, epileptic encephalopathy | 0 | de novo | 19 | −0.611 | Yesb | LP (PS2 + PM2 + PP3) |
c.529C>A | p.Leu177Ile | Epileptic encephalopathy | 0 | de novo | 18 | −1.193 | Yesc | LP (PS2 + PM2 + PP3) |
c.532A>G | p.Asn178Asp | Epileptic encephalopathy | 0 | de novo | 18 | −0.010 | Yesb | LP (PS2 + PM2 + PP3) |
c.148A>C | p.Lys50Gln | Autism spectrum disorder | 0 | de novo | 18 | −0.534 | No | LP (PS2 + PM2 + PP3) |
ACMG, American College of Medical Genetics and Genomics (P, pathogenic; LP, likely pathogenic); FS+, febrile seizure plus; MAF, minor allele frequency from gnomAD; PIS, primary interaction sites; PVS1, Predicted null variant in a gene where loss-of-function is a known mechanism of disease; PS2, De novo in a patient with the disease and no family history; PM1, Located in a mutational hot spot and/or critical and well-established functional domain (e.g., active site of an enzyme) without benign variation; PM2, Absent in population databases; PP1, Cosegregation with disease in multiple affected family members in a gene definitively known to cause the disease; PP3, Multiple lines of computational evidence support a deleterious effect on the gene/gene product.
Variant identified in this study.
Variant predicted to be damaging out of 21 prediction tools.
Protein-protein affinity change upon variant indicated by free energy change.
A crucial site involved in 14-3-3γ dimerization.
A part of conserved triads (Arg132-Arg57-Tyr133 and Asp129-Asn178-Asn229) for fixing the orientation of the phosphopeptides.
A part of conserved hydrophobic patch (Leu-177-Leu-221-Ile-222) complements the hydrophobic character of the peptide.