Genetic Variant Interpretation Tool

To aid our variant interpretation process, we created an openly-available online tool to efficiently classify variants based on the evidence categories outlined in the article: Richards, et al. Standards and guidelines for the interpretation of sequence variants. 2015. This site displays the evidence categories and descriptions from Table 3 and Table 4 with simple checkboxes for selecting appropriate criteria. The site then incorporates the algorithm in Table 5 to automatically assign the pathogenicity or benign impact based on the selected evidence categories. Since our process often requires analyzing multiple variants per patient, we have also allowed the option of aggregating each variant into an exportable table at the foot of the website for easy documentation of the variant review process for our records. Although this tool is based on the ACMG/AMP Standards and Guidelines, it is not affiliated with ACMG, AMP, or any of the authors of the publication.

Click here to group evidence by category
Patient ID:
Variant ID:

PVS1 null variant (nonsense, frameshift, canonical ±1 or 2 splice sites, initiation codon, single or multiexon deletion) in a gene where LOF is a known mechanism of disease

PS1 Same amino acid change as a previously established pathogenic variant regardless of nucleotide change
PS2 De novo (both maternity and paternity confirmed) in a patient with the disease and no family history
PS3 Well-established in vitro or in vivo functional studies supportive of a damaging effect on the gene or gene product
PS4 The prevalence of the variant in affected individuals is significantly increased compared with the prevalence in controls
PP1 (Strong evidence) Cosegregation with disease in multiple affected family members in a gene definitively known to cause the disease

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 from controls (or at extremely low frequency if recessive) in Exome Sequencing Project, 1000 Genomes Project, or Exome Aggregation Consortium
PM3 For recessive disorders, detected in trans with a pathogenic variant
PM4 Protein length changes as a result of in-frame deletions/insertions in a nonrepeat region or stop-loss variants
PM5 Novel missense change at an amino acid residue where a different missense change determined to be pathogenic has been seen before
PM6 Assumed de novo, but without confirmation of paternity and maternity
PP1 (Moderate evidence) Cosegregation with disease in multiple affected family members in a gene definitively known to cause the disease

PP1 Cosegregation with disease in multiple affected family members in a gene definitively known to cause the disease
PP2 Missense variant in a gene that has a low rate of benign missense variation and in which missense variants are a common mechanism of disease
PP3 Multiple lines of computational evidence support a deleterious effect on the gene or gene product (conservation, evolutionary, splicing impact, etc.)
PP4 Patient’s phenotype or family history is highly specific for a disease with a single genetic etiology
PP5 Reputable source recently reports variant as pathogenic, but the evidence is not available to the laboratory to perform an independent evaluation

BP1 Missense variant in a gene for which primarily truncating variants are known to cause disease
BP2 Observed in trans with a pathogenic variant for a fully penetrant dominant gene/disorder or observed in cis with a pathogenic variant in any inheritance pattern
BP3 In-frame deletions/insertions in a repetitive region without a known function
BP4 Multiple lines of computational evidence suggest no impact on gene or gene product (conservation, evolutionary, splicing impact, etc.)
BP5 Variant found in a case with an alternate molecular basis for disease
BP6 Reputable source recently reports variant as benign, but the evidence is not available to the laboratory to perform an independent evaluation
BP7 A synonymous (silent) variant for which splicing prediction algorithms predict no impact to the splice consensus sequence nor the creation of a new splice site AND the nucleotide is not highly conserved

BS1 Allele frequency is greater than expected for disorder
BS2 Observed in a healthy adult individual for a recessive (homozygous), dominant (heterozygous), or X-linked (hemizygous) disorder, with full penetrance expected at an early age
BS3 Well-established in vitro or in vivo functional studies show no damaging effect on protein function or splicing
BS4 Lack of segregation in affected members of a family

BA1 Allele frequency is >5% in Exome Sequencing Project, 1000 Genomes Project, or Exome Aggregation Consortium

Sequencing artifact as determined by depth, quality, or other previously reviewed data

Variant Classification:
None

Patient Name
Variant Effect Evidence To delete



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Please note that the text of the variant evidence has been pulled directly from Richards, et al. Genet Med. 2015 May;17(5). This site does not claim authorship of any of the variant evidence descriptions.

This tool is based on the published ACMG/AMP Standards and Guidelines [Genet Med (2015)]. Anyone using this tool should be familiar with that publication. Individuals or institutions choosing to use this tool for clinical variant classification purposes assume legal responsibility for the consequences of its use. The authors make no warranty, express or implied, nor assume any legal liability or responsibility for any purpose for which the tool is used.

Please cite the following when using this tool in publications:
Kleinberger J, Maloney KA, Pollin TI, Jeng LJ. An openly available online tool
for implementing the ACMG/AMP standards and guidelines for the interpretation of
sequence variants. Genet Med. 2016 Mar 17. doi: 10.1038/gim.2016.13. [Epub ahead
of print] PubMed PMID: 26986878.

For use in publications, please contact:
Linda Jeng, MD, PhD, FACMG