ClinVar Genomic variation as it relates to human health
NM_002880.4(RAF1):c.770C>T (p.Ser257Leu)
No data submitted for somatic clinical impact
No data submitted for oncogenicity
Variant Details
- Identifiers
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NM_002880.4(RAF1):c.770C>T (p.Ser257Leu)
Variation ID: 13957 Accession: VCV000013957.95
- Type and length
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single nucleotide variant, 1 bp
- Location
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Cytogenetic: 3p25.2 3: 12604200 (GRCh38) [ NCBI UCSC ] 3: 12645699 (GRCh37) [ NCBI UCSC ]
- Timeline in ClinVar
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First in ClinVar Help The date this variant first appeared in ClinVar with each type of classification.
Last submission Help The date of the most recent submission for each type of classification for this variant.
Last evaluated Help The most recent date that a submitter evaluated this variant for each type of classification.
Germline Apr 4, 2013 Oct 20, 2024 Apr 3, 2017 - HGVS
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Nucleotide Protein Molecular
consequenceNM_002880.4:c.770C>T MANE Select Help Transcripts from the Matched Annotation from the NCBI and EMBL-EBI (MANE) collaboration.
NP_002871.1:p.Ser257Leu missense NM_001354689.3:c.770C>T NP_001341618.1:p.Ser257Leu missense NM_001354690.3:c.770C>T NP_001341619.1:p.Ser257Leu missense NM_001354691.3:c.527C>T NP_001341620.1:p.Ser176Leu missense NM_001354692.3:c.527C>T NP_001341621.1:p.Ser176Leu missense NM_001354693.3:c.671C>T NP_001341622.1:p.Ser224Leu missense NM_001354694.3:c.527C>T NP_001341623.1:p.Ser176Leu missense NM_001354695.3:c.428C>T NP_001341624.1:p.Ser143Leu missense NR_148940.3:n.1101C>T non-coding transcript variant NR_148941.3:n.1101C>T non-coding transcript variant NR_148942.3:n.1101C>T non-coding transcript variant NC_000003.12:g.12604200G>A NC_000003.11:g.12645699G>A NG_007467.1:g.64980C>T LRG_413:g.64980C>T LRG_413t1:c.770C>T LRG_413p1:p.Ser257Leu LRG_413t2:c.770C>T LRG_413p2:p.Ser257Leu P04049:p.Ser257Leu - Protein change
- S257L, S224L, S143L, S176L
- Other names
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p.S257L:TCG>TTG
NM_002880.3(RAF1):c.770C>T
- Canonical SPDI
- NC_000003.12:12604199:G:A
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Functional
consequence HelpThe effect of the variant on RNA or protein function, based on experimental evidence from submitters.
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Global minor allele
frequency (GMAF) HelpThe global minor allele frequency calculated by the 1000 Genomes Project. The minor allele at this location is indicated in parentheses and may be different from the allele represented by this VCV record.
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Allele frequency
Help
The frequency of the allele represented by this VCV record.
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- Links
Genes
Gene | OMIM | ClinGen Gene Dosage Sensitivity Curation |
Variation Viewer
Help
Links to Variation Viewer, a genome browser to view variation data from NCBI databases. |
Related variants | ||
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HI score
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The haploinsufficiency score for the gene, curated by ClinGen’s Dosage Sensitivity Curation task team. |
TS score
Help
The triplosensitivity score for the gene, curated by ClinGen’s Dosage Sensitivity Curation task team. |
Within gene
Help
The number of variants in ClinVar that are contained within this gene, with a link to view the list of variants. |
All
Help
The number of variants in ClinVar for this gene, including smaller variants within the gene and larger CNVs that overlap or fully contain the gene. |
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RAF1 | No evidence available | No evidence available |
GRCh38 GRCh37 |
1090 | 1145 |
Conditions - Germline
Condition
Help
The condition for this variant-condition (RCV) record in ClinVar. |
Classification
Help
The aggregate germline classification for this variant-condition (RCV) record in ClinVar. The number of submissions that contribute to this aggregate classification is shown in parentheses. (# of submissions) |
Review status
Help
The aggregate review status for this variant-condition (RCV) record in ClinVar. This value is calculated by NCBI based on data from submitters. Read our rules for calculating the review status. |
Last evaluated
Help
The most recent date that a submitter evaluated this variant for the condition. |
Variation/condition record
Help
The RCV accession number, with most recent version number, for the variant-condition record, with a link to the RCV web page. |
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Pathogenic (4) |
reviewed by expert panel
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Apr 3, 2017 | RCV000157426.14 | |
not provided (1) |
no classification provided
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- | RCV000020509.11 | |
Pathogenic (12) |
criteria provided, multiple submitters, no conflicts
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Dec 1, 2022 | RCV000157685.52 | |
Likely pathogenic (1) |
no assertion criteria provided
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May 31, 2016 | RCV000436233.9 | |
Pathogenic (9) |
criteria provided, multiple submitters, no conflicts
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May 22, 2022 | RCV000014985.47 | |
Pathogenic (2) |
criteria provided, single submitter
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May 20, 2019 | RCV000014986.34 | |
Likely pathogenic (1) |
no assertion criteria provided
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May 31, 2016 | RCV000435984.9 | |
Pathogenic (3) |
criteria provided, multiple submitters, no conflicts
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Dec 24, 2023 | RCV000149826.24 | |
Pathogenic (1) |
criteria provided, single submitter
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Jul 1, 2021 | RCV000515222.11 | |
Likely pathogenic (1) |
no assertion criteria provided
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May 31, 2016 | RCV000418940.9 | |
Likely pathogenic (1) |
no assertion criteria provided
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May 31, 2016 | RCV000428775.9 | |
RAF1-related disorder
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Pathogenic (1) |
criteria provided, single submitter
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Oct 21, 2020 | RCV001731288.9 |
Pathogenic (1) |
criteria provided, single submitter
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Aug 4, 2021 | RCV002399323.9 | |
Pathogenic (1) |
criteria provided, single submitter
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May 23, 2013 | RCV000824754.12 | |
Pathogenic/Likely pathogenic (4) |
criteria provided, multiple submitters, no conflicts
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- | RCV000856803.12 | |
Pathogenic (1) |
criteria provided, single submitter
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Apr 26, 2021 | RCV001813205.11 | |
See cases
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Pathogenic (1) |
criteria provided, single submitter
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Apr 4, 2023 | RCV003231105.8 |
click to load more click to collapse |
Submissions - Germline
Classification
Help
The submitted germline classification for each SCV record. (Last evaluated) |
Review status
Help
Stars represent the review status, or the level of review supporting the submitted (SCV) record. This value is calculated by NCBI based on data from the submitter. Read our rules for calculating the review status. This column also includes a link to the submitter’s assertion criteria if provided, and the collection method. (Assertion criteria) |
Condition
Help
The condition for the classification, provided by the submitter for this submitted (SCV) record. This column also includes the affected status and allele origin of individuals observed with this variant. |
Submitter
Help
The submitting organization for this submitted (SCV) record. This column also includes the SCV accession and version number, the date this SCV first appeared in ClinVar, and the date that this SCV was last updated in ClinVar. |
More information
Help
This column includes more information supporting the classification, including citations, the comment on classification, and detailed evidence provided as observations of the variant by the submitter. |
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Pathogenic
(Apr 03, 2017)
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reviewed by expert panel
Method: curation
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Noonan syndrome
(Autosomal dominant inheritance)
Affected status: unknown
Allele origin:
germline
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ClinGen RASopathy Variant Curation Expert Panel
FDA Recognized Database
Accession: SCV000616378.4 First in ClinVar: Dec 19, 2017 Last updated: Dec 11, 2022 |
Comment:
The c.770C>T (p.Ser257Leu) variant in RAF1 has been reported in the literature in at least 2 unconfirmed de novo occurrences in patients with clinical features … (more)
The c.770C>T (p.Ser257Leu) variant in RAF1 has been reported in the literature in at least 2 unconfirmed de novo occurrences in patients with clinical features of a RASopathy (PM6_Strong; PMID 17603482,22389993, 23877478, 23312806, 25706034). In vitro functional studies provide some evidence that the p.Ser257Leu variant may impact protein function (PS3; PMID 17603482). This variant was absent from large population studies (PM2; ExAC, http://exac.broadinstitute.org). The variant is located in the RAF1 gene, which has been defined by the ClinGen RASopathy Expert Panel as a gene with a low rate of benign missense variants and pathogenic missense variants are common (PP2; PMID: 29493581). Furthermore, the variant is in a location that has been defined by the ClinGen RASopathy Expert Panel to be a mutational hotspot or domain of RAF1 (PM1; PMID 29493581). In summary, this variant meets criteria to be classified as pathogenic for RASopathies in an autosomal dominant manner. ACMG/AMP criteria applied: PP2, PM1, PM2, PS3, PM6_Strong. (less)
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Pathogenic
(Oct 05, 2015)
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criteria provided, single submitter
Method: clinical testing
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Noonan syndrome
Affected status: yes
Allele origin:
germline
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Blueprint Genetics
Accession: SCV000207169.3
First in ClinVar: Feb 06, 2015 Last updated: Dec 19, 2017 |
Number of individuals with the variant: 2
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Pathogenic
(May 23, 2013)
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criteria provided, single submitter
Method: clinical testing
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Noonan syndrome
Noonan syndrome with multiple lentigines (Autosomal dominant inheritance)
Affected status: not provided
Allele origin:
germline
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Laboratory for Molecular Medicine, Mass General Brigham Personalized Medicine
Accession: SCV000200043.5
First in ClinVar: Jan 30, 2015 Last updated: Aug 26, 2019 |
Comment:
The p.Ser257Leu variant has been associated with the clinical features of RASopa thy disorders (Razzaque 2007, Pandit 2007). This variant has been reported to ha … (more)
The p.Ser257Leu variant has been associated with the clinical features of RASopa thy disorders (Razzaque 2007, Pandit 2007). This variant has been reported to ha ve occurred de novo in sporadic cases. Individuals with pathogenic variants in exon 7 or 17 in RAF1 have a high incidence of hypertrophic cardiomyopathy (80-95 %, Razzaque 2007, Pandit 2007). In summary, this variant meets criteria to be cl assified as pathogenic for RASopathy disorders in an autosomal dominant manner b ased upon published literature and de novo occurrence in affected individuals. (less)
Number of individuals with the variant: 23
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Pathogenic
(-)
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criteria provided, single submitter
Method: clinical testing
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Noonan syndrome 1
Affected status: yes
Allele origin:
unknown
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Institute for Genomic Statistics and Bioinformatics, University Hospital Bonn
Accession: SCV000999369.1
First in ClinVar: Dec 01, 2019 Last updated: Dec 01, 2019 |
Number of individuals with the variant: 1
Clinical Features:
Hypertrophic cardiomyopathy (present) , Hypertelorism (present) , High forehead (present) , Short stature (present) , Global developmental delay (present) , Depressed nasal bridge (present) , … (more)
Hypertrophic cardiomyopathy (present) , Hypertelorism (present) , High forehead (present) , Short stature (present) , Global developmental delay (present) , Depressed nasal bridge (present) , Failure to thrive in infancy (present) , Curly hair (present) , Polyhydramnios (present) , Low-set, posteriorly rotated ears (present) , Nevus flammeus (present) , Single umbilical artery (present) , Relative macrocephaly (present) , Strabismus (present) (less)
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Pathogenic
(Nov 16, 2017)
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criteria provided, single submitter
Method: research
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Noonan syndrome
Affected status: yes
Allele origin:
germline
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Agnes Ginges Centre for Molecular Cardiology, Centenary Institute
Accession: SCV000996383.2
First in ClinVar: Nov 02, 2019 Last updated: Nov 02, 2019 |
Comment:
The RAF1 Ser257Leu variant has been previously reported in multiple Noonan syndrome cases (see literature), including at least 6 cases where the variant was found … (more)
The RAF1 Ser257Leu variant has been previously reported in multiple Noonan syndrome cases (see literature), including at least 6 cases where the variant was found to arise de novo (Zarate YA, et al., 2013; Kobayashi T, et al., 2010; Pandit B, et al., 2007). We identified this variant in a young male patient diagnosed with Noonan syndrome. RAF1 Ser257Leu is absent in the Exome Aggregation Consortium dataset (http://exac.broadinstitute.org/), as well as the Genome Aggregation Database (http://gnomad.broadinstitute.org/). In silico tools SIFT and MutationTaster predict this variant to be deleterious, however PolyPhen-2 predicts this variant to be "benign". In summary, based on rarity in the general population, presence in multiple Noonan syndrome patients, the high rate of de novo occurrences and because the variant is located in a functional 'hotspot' we classify the RAF1 Ser257Leu as "pathogenic". (less)
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Pathogenic
(May 20, 2019)
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criteria provided, single submitter
Method: clinical testing
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LEOPARD syndrome 2
Affected status: yes
Allele origin:
unknown
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Centre for Mendelian Genomics, University Medical Centre Ljubljana
Accession: SCV001369226.2
First in ClinVar: Jul 06, 2020 Last updated: Dec 12, 2020 |
Comment:
This variant was classified as: Pathogenic. The following ACMG criteria were applied in classifying this variant: PS1,PS3,PM1,PM2,PM5,PP2,PP3.
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Pathogenic
(Jun 05, 2020)
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criteria provided, single submitter
Method: clinical testing
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not provided
Affected status: unknown
Allele origin:
germline
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ARUP Laboratories, Molecular Genetics and Genomics, ARUP Laboratories
Accession: SCV001473076.1
First in ClinVar: Jan 26, 2021 Last updated: Jan 26, 2021 |
Comment:
The RAF1 c.770C>T; p.Ser257Leu variant (rs80338796) has been reported in multiple individuals diagnosed with Noonan syndrome (Razzaque 2007, Pandit 2007, Kobayashi 2010, Zarate 2014, Hopper … (more)
The RAF1 c.770C>T; p.Ser257Leu variant (rs80338796) has been reported in multiple individuals diagnosed with Noonan syndrome (Razzaque 2007, Pandit 2007, Kobayashi 2010, Zarate 2014, Hopper 2015) or LEOPARD syndrome (Pandit 2007, Carcavilla 2013). The variant is reported as pathogenic in ClinVar by multiple sources (Variation ID: 13957) absent from general population databases (Exome Variant Server, Genome Aggregation Database), indicating it is not a common polymorphism. This variant is located in a region critical for the phosphorylation of serine-259 and its association with 14-3-3, which is involved in the negative regulation of RAF1 activity (Razzaque 2007, Kobayashi 2010). Functional characterization of the p.Ser257Leu variant protein indicates a loss of serine-259 phosphorylation and reduced association with 14-3-3 (Kobayashi 2010). This leads to an over-activation of MEK and ERK signaling (Razzaque 2007, Kobayashi 2010), consistent with the established disease mechanisms of Noonan Syndrome. Based on available information, this variant is considered to be pathogenic. References: Carcavilla A et al. LEOPARD syndrome: a variant of Noonan syndrome strongly associated with hypertrophic cardiomyopathy. Rev Esp Cardiol (Engl Ed). 2013 May;66(5):350-6. Hopper R et al. Neonatal pulmonary arterial hypertension and Noonan syndrome: two fatal cases with a specific RAF1 mutation. Am J Med Genet A. 2015 Apr;167A(4):882-5. Kobayashi T et al. Molecular and clinical analysis of RAF1 in Noonan syndrome and related disorders: dephosphorylation of serine 259 as the essential mechanism for mutant activation. Hum Mutat. 2010 Mar;31(3):284-94. Pandit B et al. Gain-of-function RAF1 mutations cause Noonan and LEOPARD syndromes with hypertrophic cardiomyopathy. Nat Genet. 2007 Aug;39(8):1007-12. Razzaque M et al Germline gain-of-function mutations in RAF1 cause Noonan syndrome. Nat Genet. 2007 Aug;39(8):1013-7 Zarate Y et al. Unique cerebrovascular anomalies in Noonan syndrome with RAF1 mutation. J Child Neurol. 2014 Aug;29(8):NP13-7. (less)
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Pathogenic
(Oct 21, 2020)
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criteria provided, single submitter
Method: clinical testing
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RAF1-related disorders
Affected status: yes
Allele origin:
germline
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Rady Children's Institute for Genomic Medicine, Rady Children's Hospital San Diego
Accession: SCV001984841.1
First in ClinVar: Oct 30, 2021 Last updated: Oct 30, 2021 |
Comment:
This variant has been previously reported as a de novo change in patients with Noonan Syndrome (PMID: 17603482, 23877478) and LEOPARD syndrome 2 (PMID: 22389993, … (more)
This variant has been previously reported as a de novo change in patients with Noonan Syndrome (PMID: 17603482, 23877478) and LEOPARD syndrome 2 (PMID: 22389993, 24775816). This variant has been classified as Pathogenic by the ClinGen Rasopathy Expert Panel. Functional studies indicate that the p.Ser257Leu produces a gain-of-function effect with higher kinase activity than wild-type protein (PMID: 17603482). It is absent from the gnomAD population database and thus is presumed to be rare. In silico tools used to predict the effect of this variant on protein function yield discordant results. Analysis of the parental samples was negative for the variant, indicating this variant likely occurred as a de novo event. Based on the available evidence, the c.770C>T (p.Ser257Leu) variant is classified as Pathogenic. (less)
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Pathogenic
(Feb 11, 2020)
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criteria provided, single submitter
Method: clinical testing
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Noonan syndrome 5
Affected status: yes
Allele origin:
germline
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Centogene AG - the Rare Disease Company
Accession: SCV002059455.1
First in ClinVar: Jan 15, 2022 Last updated: Jan 15, 2022 |
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Pathogenic
(Oct 19, 2020)
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criteria provided, single submitter
Method: clinical testing
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Noonan syndrome 5
Affected status: yes
Allele origin:
germline
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Victorian Clinical Genetics Services, Murdoch Childrens Research Institute
Additional submitter:
Shariant Australia, Australian Genomics
Accession: SCV002767731.1
First in ClinVar: Dec 24, 2022 Last updated: Dec 24, 2022 |
Comment:
A heterozygous missense variant was identified, NM_002880.3(RAF1):c.770C>T in exon 7 of the RAF1 gene. This substitution is predicted to create a major amino acid change … (more)
A heterozygous missense variant was identified, NM_002880.3(RAF1):c.770C>T in exon 7 of the RAF1 gene. This substitution is predicted to create a major amino acid change from a serine to a leucine at position 257 of the protein; NP_002871.1(RAF1):p.(Ser257Leu). The serine at this position has very high conservation (100 vertebrates, UCSC), and is not situated in a known functional domain (NCBI, PDB). In silico software predictions of the pathogenicity of this variant are conflicting (FATHMM, PolyPhen2, MutationAssessor, PROVEAN). The variant is not present in the gnomAD population database. It is located within a mutational hotspot and has been previously reported as pathogenic in patients with Noonan syndrome (ClinGen RASopathy Variant Curation Expert Panel). Analysis of parental samples indicated that this variant is de novo. Based on information available at the time of curation, this variant has been classified as PATHOGENIC. (less)
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Pathogenic
(Jul 01, 2021)
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criteria provided, single submitter
Method: clinical testing
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Noonan syndrome 5
LEOPARD syndrome 2 Dilated cardiomyopathy 1NN
Affected status: unknown
Allele origin:
unknown
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Fulgent Genetics, Fulgent Genetics
Accession: SCV000611310.2
First in ClinVar: Nov 11, 2017 Last updated: Dec 31, 2022 |
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Pathogenic
(Sep 09, 2022)
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criteria provided, single submitter
Method: clinical testing
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Not Provided
Affected status: yes
Allele origin:
germline
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GeneDx
Accession: SCV000209016.13
First in ClinVar: Feb 19, 2015 Last updated: Mar 04, 2023 |
Comment:
Published functional studies demonstrate that S257L produces a gain of function effect with higher kinase activity than wild-type protein (Razzaque et al., 2007; Lee et … (more)
Published functional studies demonstrate that S257L produces a gain of function effect with higher kinase activity than wild-type protein (Razzaque et al., 2007; Lee et al., 2011); Not observed in large population cohorts (gnomAD); The majority of missense variants in this gene are considered pathogenic (HGMD); In silico analysis supports that this missense variant has a deleterious effect on protein structure/function; This variant is associated with the following publications: (PMID: 26918529, 23877478, 30384889, 35050212, 32506814, 31219622, 34184824, 30417923, 25706034, 24033266, 23312806, 22389993, 17603483, 20052757, 24775816, 24803665, 28973083, 29084544, 28777121, 30732632, 30138938, 30055033, 30355600, 30105547, 21784453, 21440552, 28991257, 30050098, 29907801, 31395954, 31560489, 31324109, 31163979, 32573669, 32668055, 34136434, 33318624, 17603482, 32981126, 33673806, 32410215, 33240318, 32746448, 32368696, 34006472, 24957944, 9689060, 15520807, 29493581) (less)
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Pathogenic
(Mar 22, 2022)
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criteria provided, single submitter
Method: clinical testing
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Noonan syndrome 5
Affected status: yes
Allele origin:
de novo
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Medical Genetics Center, Maternal and Child Health Hospital of Hubei Province
Accession: SCV003915615.1
First in ClinVar: Apr 15, 2023 Last updated: Apr 15, 2023 |
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Pathogenic
(-)
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criteria provided, single submitter
Method: clinical testing
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Noonan syndrome 5
(Autosomal dominant inheritance)
Affected status: yes
Allele origin:
germline
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Neuberg Centre For Genomic Medicine, NCGM
Accession: SCV004047601.1
First in ClinVar: Oct 28, 2023 Last updated: Oct 28, 2023 |
Comment:
The missense variant c.770C>T (p.Ser257Leu) in RAF1 gene has been reported in heterozygous state in many individuals affected with Noonan syndrome, both with and without … (more)
The missense variant c.770C>T (p.Ser257Leu) in RAF1 gene has been reported in heterozygous state in many individuals affected with Noonan syndrome, both with and without multiple lentigines (Kobayashi T et al., 2010). Experimental studies have shown that this missense change leads to increased activation of MEK, ERK, and ELK in vitro (Razzaque et al., 2007). The p.Ser257Leu variant is novel (not in any individuals) in gnomAD Exomes and 1000 Genomes. This variant has been reported to the ClinVar database as Pathogenic. The amino acid Ser at position 257 is changed to a Leu changing protein sequence and it might alter its composition and physico-chemical properties. The amino acid change p.Ser257Leu in RAF1 is predicted as conserved by GERP++ and PhyloP across 100 vertebrates. The variant is predicted to be probably damaging by PolyPhen 2 and deleterious by SIFT. For these reasons, this variant has been classified as Pathogenic. (less)
Clinical Features:
Short stature (present) , Abnormal cardiovascular system morphology (present) , Enlarged thorax (present) , Prominent forehead (present) , Thickened skin (present) , Dry skin (present) … (more)
Short stature (present) , Abnormal cardiovascular system morphology (present) , Enlarged thorax (present) , Prominent forehead (present) , Thickened skin (present) , Dry skin (present) , Webbed neck (present) , Abnormal facial shape (present) (less)
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Pathogenic
(Jun 15, 2022)
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criteria provided, single submitter
Method: clinical testing
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Not provided
Affected status: unknown
Allele origin:
germline
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Mayo Clinic Laboratories, Mayo Clinic
Accession: SCV001714082.2
First in ClinVar: Jun 15, 2021 Last updated: Jan 26, 2024 |
Comment:
PP2, PM1, PM2, PS2_very_strong, PS3, PS4
Number of individuals with the variant: 14
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Pathogenic
(Dec 24, 2023)
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criteria provided, single submitter
Method: clinical testing
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RASopathy
Affected status: unknown
Allele origin:
germline
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Labcorp Genetics (formerly Invitae), Labcorp
Accession: SCV000287743.11
First in ClinVar: Jul 01, 2016 Last updated: Feb 14, 2024 |
Comment:
This sequence change replaces serine, which is neutral and polar, with leucine, which is neutral and non-polar, at codon 257 of the RAF1 protein (p.Ser257Leu). … (more)
This sequence change replaces serine, which is neutral and polar, with leucine, which is neutral and non-polar, at codon 257 of the RAF1 protein (p.Ser257Leu). This variant is not present in population databases (gnomAD no frequency). This missense change has been observed in individual(s) with Noonan syndrome, both with and without multiple lentigines (PMID: 17603482, 17603483, 20052757, 22389993, 23877478). In at least one individual the variant was observed to be de novo. ClinVar contains an entry for this variant (Variation ID: 13957). Advanced modeling of protein sequence and biophysical properties (such as structural, functional, and spatial information, amino acid conservation, physicochemical variation, residue mobility, and thermodynamic stability) performed at Invitae indicates that this missense variant is expected to disrupt RAF1 protein function with a positive predictive value of 95%. Experimental studies have shown that this missense change affects RAF1 function (PMID: 17603482, 20052757). For these reasons, this variant has been classified as Pathogenic. (less)
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Likely pathogenic
(-)
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criteria provided, single submitter
Method: clinical testing
|
Noonan syndrome 1
(Autosomal dominant inheritance)
Affected status: yes
Allele origin:
de novo
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Centre for Human Genetics
Accession: SCV005199934.1
First in ClinVar: Aug 25, 2024 Last updated: Aug 25, 2024 |
Comment:
The RAF1 c.770C>T (p.Ser257Leu) variant has been reported in multiple individuals diagnosed with Noonan syndrome (Razzaque 2007, Pandit 2007, Kobayashi 2010, Zarate 2014, Hopper 2015) … (more)
The RAF1 c.770C>T (p.Ser257Leu) variant has been reported in multiple individuals diagnosed with Noonan syndrome (Razzaque 2007, Pandit 2007, Kobayashi 2010, Zarate 2014, Hopper 2015) or LEOPARD syndrome (Pandit 2007, Carcavilla 2013). The variant is reported as pathogenic in ClinVar by multiple sources (Variation ID: 13957). (less)
Number of individuals with the variant: 1
Secondary finding: no
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Pathogenic
(Jul 21, 2015)
|
criteria provided, single submitter
Method: clinical testing
|
not provided
Affected status: yes
Allele origin:
unknown,
de novo
|
Molecular Diagnostics Lab, Nemours Children's Health, Delaware
Accession: SCV000263046.1
First in ClinVar: Feb 19, 2015 Last updated: Feb 19, 2015 |
Observation 1:
Number of individuals with the variant: 1
Clinical Features:
Ventricular septal defect (present) , Hypertrphic cardiomyopathy (present)
Age: 0-9 years
Sex: female
Ethnicity/Population group: unknown
Observation 2:
Number of individuals with the variant: 1
Age: 0-9 years
Sex: male
Ethnicity/Population group: unknown
Observation 3:
Number of individuals with the variant: 1
Clinical Features:
Failure to thrive (present) , Cardiac hypertrophy (present) , Disorders of both mitral and tricuspid valves (present) , Esophageal reflux (present) , Delayed milestones (present) … (more)
Failure to thrive (present) , Cardiac hypertrophy (present) , Disorders of both mitral and tricuspid valves (present) , Esophageal reflux (present) , Delayed milestones (present) , Nystagmus (present) , Down slanting palpebral fissures (present) , Mild deep palmar and plantar creases (present) , Increased extra axial cerebrospinal fluid (present) , Nasogastric tube as needed (present) , Mild ulnar deviation of wrist and fingers (present) , Short stature (<2nd centile) (present) , Relative macrocephaly (present) , Polyhydramnios (present) , Small pale optic nerve (present) (less)
Age: 0-9 years
Sex: male
Ethnicity/Population group: unknown
Observation 4:
Number of individuals with the variant: 1
Age: 0-9 years
Sex: male
Ethnicity/Population group: unknown
Observation 5:
Number of individuals with the variant: 1
Clinical Features:
Intra-uterine growth retardation (present) , Hypertrophic myocardiopathy (present) , Mental retardation (present) , Short stature (present) , Suggestive features (present)
Age: 0-9 years
Sex: male
Ethnicity/Population group: unknown
|
|
Pathogenic
(Nov 15, 2017)
|
criteria provided, single submitter
Method: clinical testing
|
Noonan syndrome 5
(Autosomal dominant inheritance)
Affected status: yes
Allele origin:
germline
|
Institute of Human Genetics Munich, Klinikum Rechts Der Isar, TU München
Accession: SCV000680354.1
First in ClinVar: Feb 08, 2018 Last updated: Feb 08, 2018 |
Sex: female
Tissue: blood
|
|
Pathogenic
(Apr 14, 2016)
|
criteria provided, single submitter
Method: clinical testing
|
not provided
Affected status: unknown
Allele origin:
germline
|
Eurofins Ntd Llc (ga)
Accession: SCV000341105.4
First in ClinVar: Dec 06, 2016 Last updated: Dec 15, 2018 |
Number of individuals with the variant: 1
Sex: mixed
|
|
Pathogenic
(Dec 11, 2018)
|
criteria provided, single submitter
Method: clinical testing
|
Rasopathy
Affected status: unknown
Allele origin:
germline
|
Women's Health and Genetics/Laboratory Corporation of America, LabCorp
Accession: SCV000918146.1
First in ClinVar: Jun 02, 2019 Last updated: Jun 02, 2019 |
Comment:
Variant summary: RAF1 c.770C>T (p.Ser257Leu) results in a non-conservative amino acid change located in the CR2 domain of the encoded protein sequence that is involved … (more)
Variant summary: RAF1 c.770C>T (p.Ser257Leu) results in a non-conservative amino acid change located in the CR2 domain of the encoded protein sequence that is involved in regulatory phosphorylation and association with the 14-3-3 protein (Razzaque 2007, Pandit 2007). Four of five in-silico tools predict a damaging effect of the variant on protein function. The variant was absent in 246848 control chromosomes (gnomAD). c.770C>T has been reported in the literature in multiple individuals affected with Noonan Syndrome and Related Conditions, where several of these individuals also had hypertrophic cardiomyopathy or other cardiac manifestations (e.g. Razzaque 2007, Pandit 2007, Denayer 2010, Alfieri 2008, Croonen 2013, Zarare 2013, Lee 2011, Xu 2017). The variant has also been reported in some patients with LEOPARD syndrome (see e.g. Pandit 2007, Carcavilla 2013, Xu 2017). In all confirmed cases the variant occurred in heterozygous state as a de novo mutation (see e.g. Pandit 2007, Denayer 2010, Croonen 2013, Zarare 2013, Xu 2017). These data indicate that the variant is very likely to be associated with disease. Several publications reported experimental evidence evaluating an impact on protein function, demonstrating increased kinase activity (Razzaque 2007), increased activation of MEK and ERK (Lee 2011) and altered signaling in cardiomyocytes consistent with that observed in cardiac hypertrophy (Dhandapany 2011). 11 clinical diagnostic laboratories have submitted clinical-significance assessments for this variant to ClinVar after 2014 without evidence for independent evaluation. All laboratories classified the variant as pathogenic (10x) / likely pathogenic (1x). Based on the evidence outlined above, the variant was classified as pathogenic. (less)
|
|
Pathogenic
(Apr 26, 2021)
|
criteria provided, single submitter
Method: clinical testing
|
Noonan syndrome and Noonan-related syndrome
Affected status: yes
Allele origin:
germline
|
Genome Diagnostics Laboratory, The Hospital for Sick Children
Accession: SCV002060975.1
First in ClinVar: Jan 22, 2022 Last updated: Jan 22, 2022 |
|
|
Pathogenic
(Feb 02, 2022)
|
criteria provided, single submitter
Method: clinical testing
|
not provided
Affected status: yes
Allele origin:
germline
|
Centro Nacional de Genética Medica "Dr. Eduardo E. Castilla", Administración Nacional de Laboratorios e Institutos de Salud
Accession: SCV002098092.1
First in ClinVar: Aug 29, 2022 Last updated: Aug 29, 2022 |
Clinical Features:
Prominent forehead with flat capillary malformation (present) , sparse hair (present) , descending palpebral fissure (present) , low nasal bridge (present) , slight retrognathia (present) … (more)
Prominent forehead with flat capillary malformation (present) , sparse hair (present) , descending palpebral fissure (present) , low nasal bridge (present) , slight retrognathia (present) , lowered rotated ears (present) , Hypertrophic cardiomyopathy (present) , Costello syndrome phenotype (present) (less)
Sex: female
Tissue: blood
Secondary finding: no
|
|
Pathogenic
(May 22, 2022)
|
criteria provided, single submitter
Method: clinical testing
|
Noonan syndrome 5
Affected status: yes
Allele origin:
germline
|
3billion
Accession: SCV002521319.1
First in ClinVar: Jun 05, 2022 Last updated: Jun 05, 2022 |
Comment:
The variant is not observed in the gnomAD v2.1.1 dataset. The missense variant is located in a mutational hot spot and/or well-established functional domain in … (more)
The variant is not observed in the gnomAD v2.1.1 dataset. The missense variant is located in a mutational hot spot and/or well-established functional domain in which established pathogenic variants have been reported. Missense changes are a common disease-causing mechanism. Functional studies provide strong evidence of the variant having a damaging effect on the gene or gene product (PMID: 17603482, 20052757). In silico tool predictions suggest damaging effect of the variant on gene or gene product (REVEL: 0.65; 3Cnet: 0.08). Same nucleotide change resulting in same amino acid change has been previously reported as pathogenic/likely pathogenic with strong evidence (ClinVar ID: VCV000013957). The variant has been previously reported as de novo in at least two similarly affected unrelated individuals (PMID: 17603483, 23877478) and as assumed (i.e. paternity and maternity not confirmed) de novo in at least two similarly affected unrelated individuals (PMID: 17603482, 22389993, 23877478, 25706034). Different missense changes at the same codon (p.Ser257Pro, p.Ser257Thr) have been reported as pathogenic/likely pathogenic with strong evidence (ClinVar ID: VCV000040600, VCV000618340). Therefore, this variant is classified as pathogenic according to the recommendation of ACMG/AMP guideline. (less)
Clinical Features:
Left ventricular hypertrophy (present)
|
|
Pathogenic
(Apr 04, 2023)
|
criteria provided, single submitter
Method: clinical testing
|
see cases
Affected status: yes
Allele origin:
unknown
|
Institute of Human Genetics, University Hospital Muenster
Accession: SCV003929505.1
First in ClinVar: Jun 10, 2023 Last updated: Jun 10, 2023 |
Comment:
ACMG categories: PS3,PM1,PM2,PP3,PP5
Number of individuals with the variant: 1
Clinical Features:
Global developmental delay (present) , Short stature (present) , Hypertrophic cardiomyopathy (present) , Cardiomyopathy (present) , Atrial septal defect (present) , Hypertelorism (present) , Low … (more)
Global developmental delay (present) , Short stature (present) , Hypertrophic cardiomyopathy (present) , Cardiomyopathy (present) , Atrial septal defect (present) , Hypertelorism (present) , Low anterior hairline (present) , Webbed neck (present) (less)
Age: 0-9 years
Sex: female
Tissue: blood
|
|
Pathogenic
(Aug 04, 2021)
|
criteria provided, single submitter
Method: clinical testing
|
Cardiovascular phenotype
Affected status: unknown
Allele origin:
germline
|
Ambry Genetics
Accession: SCV002669882.2
First in ClinVar: Nov 29, 2022 Last updated: May 01, 2024 |
Comment:
The p.S257L pathogenic mutation (also known as c.770C>T), located in coding exon 6 of the RAF1 gene, results from a C to T substitution at … (more)
The p.S257L pathogenic mutation (also known as c.770C>T), located in coding exon 6 of the RAF1 gene, results from a C to T substitution at nucleotide position 770. The serine at codon 257 is replaced by leucine, an amino acid with dissimilar properties. This alteration has been reported in numerous individuals with a diagnosis of Noonan syndrome or LEOPARD syndrome, including as a de novo alteration in two individuals in which paternity was confirmed (Pandit B et al. Nat Genet, 2007 Aug;39:1007-12; Razzaque MA et al. Nat Genet, 2007 Aug;39:1013-7; Kobayashi T et al. Hum Mutat, 2010 Mar;31:284-94; Carcavilla A et al. Rev Esp Cardiol (Engl Ed), 2013 May;66:350-6; Xu S et al. BMC Med Genomics, 2017 10;10:62; Vasilescu C et al. J Am Coll Cardiol, 2018 11;72:2324-2338; Chinton J et al. Arch Argent Pediatr, 2019 10;117:330-337). Based on the supporting evidence, this alteration is interpreted as a disease-causing mutation. (less)
|
|
Pathogenic
(Jul 13, 2022)
|
criteria provided, single submitter
Method: clinical testing
|
not provided
Affected status: yes
Allele origin:
germline
|
Clinical Genetics Laboratory, Skane University Hospital Lund
Accession: SCV005198036.1
First in ClinVar: Aug 25, 2024 Last updated: Aug 25, 2024 |
|
|
Pathogenic
(Dec 01, 2022)
|
criteria provided, single submitter
Method: clinical testing
|
not provided
Affected status: yes
Allele origin:
germline
|
CeGaT Center for Human Genetics Tuebingen
Accession: SCV002496785.18
First in ClinVar: Apr 11, 2022 Last updated: Oct 20, 2024 |
Comment:
RAF1: PS2:Very Strong, PM2, PS3:Supporting
Number of individuals with the variant: 2
|
|
Pathogenic
(-)
|
no assertion criteria provided
Method: clinical testing
|
Rasopathy
Affected status: yes
Allele origin:
unknown
|
Baylor Genetics
Accession: SCV000196668.1
First in ClinVar: Jan 17, 2015 Last updated: Jan 17, 2015 |
Comment:
Variant classified using ACMG guidelines
|
|
Pathogenic
(Jan 15, 2015)
|
no assertion criteria provided
Method: clinical testing
|
not provided
Affected status: unknown
Allele origin:
germline
|
Greenwood Genetic Center Diagnostic Laboratories, Greenwood Genetic Center
Accession: SCV000207668.1
First in ClinVar: Feb 19, 2015 Last updated: Feb 19, 2015 |
|
|
Pathogenic
(Aug 01, 2007)
|
no assertion criteria provided
Method: literature only
|
NOONAN SYNDROME 5
Affected status: not provided
Allele origin:
germline
|
OMIM
Accession: SCV000035241.2
First in ClinVar: Apr 04, 2013 Last updated: Oct 23, 2016 |
Comment on evidence:
In 7 unrelated patients with Noonan syndrome (NS5; 611553) and 1 patient with LEOPARD syndrome-2 (LPRD2; 611554), Pandit et al. (2007) identified heterozygosity for a … (more)
In 7 unrelated patients with Noonan syndrome (NS5; 611553) and 1 patient with LEOPARD syndrome-2 (LPRD2; 611554), Pandit et al. (2007) identified heterozygosity for a 770C-T transition in exon 7 of the RAF1 gene, resulting in a ser257-to-leu (S257L) substitution at a conserved residue in the CR2 domain. All patients had hypertrophic cardiomyopathy (CMH), including a 3.6-year-old girl with CMH at birth and a 35-year-old woman with LEOPARD syndrome. Ectopically expressed S257L mutants demonstrated increased kinase activity and enhanced ERK (see 176948) activation. Razzaque et al. (2007) identified the S257L mutation of the RAF1 gene in 4 unrelated patients with Noonan syndrome, 3 with obstructive and 1 with nonobstructive CMH. The mutation was not found in 100 control individuals or in 100 patients with CMH without Noonan syndrome. (less)
|
|
Pathogenic
(Aug 01, 2007)
|
no assertion criteria provided
Method: literature only
|
LEOPARD SYNDROME 2
Affected status: not provided
Allele origin:
germline
|
OMIM
Accession: SCV000035242.2
First in ClinVar: Apr 04, 2013 Last updated: Oct 23, 2016 |
Comment on evidence:
In 7 unrelated patients with Noonan syndrome (NS5; 611553) and 1 patient with LEOPARD syndrome-2 (LPRD2; 611554), Pandit et al. (2007) identified heterozygosity for a … (more)
In 7 unrelated patients with Noonan syndrome (NS5; 611553) and 1 patient with LEOPARD syndrome-2 (LPRD2; 611554), Pandit et al. (2007) identified heterozygosity for a 770C-T transition in exon 7 of the RAF1 gene, resulting in a ser257-to-leu (S257L) substitution at a conserved residue in the CR2 domain. All patients had hypertrophic cardiomyopathy (CMH), including a 3.6-year-old girl with CMH at birth and a 35-year-old woman with LEOPARD syndrome. Ectopically expressed S257L mutants demonstrated increased kinase activity and enhanced ERK (see 176948) activation. Razzaque et al. (2007) identified the S257L mutation of the RAF1 gene in 4 unrelated patients with Noonan syndrome, 3 with obstructive and 1 with nonobstructive CMH. The mutation was not found in 100 control individuals or in 100 patients with CMH without Noonan syndrome. (less)
|
|
Likely pathogenic
(May 31, 2016)
|
no assertion criteria provided
Method: literature only
|
Neoplasm of the large intestine
(Somatic mutation)
Affected status: yes
Allele origin:
somatic
|
Database of Curated Mutations (DoCM)
Accession: SCV000507277.1
First in ClinVar: Mar 08, 2017 Last updated: Mar 08, 2017 |
|
|
Likely pathogenic
(May 31, 2016)
|
no assertion criteria provided
Method: literature only
|
Gastric adenocarcinoma
(Somatic mutation)
Affected status: yes
Allele origin:
somatic
|
Database of Curated Mutations (DoCM)
Accession: SCV000507279.1
First in ClinVar: Mar 08, 2017 Last updated: Mar 08, 2017 |
|
|
Likely pathogenic
(May 13, 2016)
|
no assertion criteria provided
Method: literature only
|
Noonan syndrome
(Somatic mutation)
Affected status: yes
Allele origin:
somatic
|
Database of Curated Mutations (DoCM)
Accession: SCV000507276.1
First in ClinVar: Mar 08, 2017 Last updated: Mar 08, 2017 |
|
|
Likely pathogenic
(May 31, 2016)
|
no assertion criteria provided
Method: literature only
|
None
(Somatic mutation)
Affected status: yes
Allele origin:
somatic
|
Database of Curated Mutations (DoCM)
Accession: SCV000507278.1
First in ClinVar: Mar 08, 2017 Last updated: Mar 08, 2017 |
|
|
Likely pathogenic
(May 31, 2016)
|
no assertion criteria provided
Method: literature only
|
Malignant melanoma of skin
(Somatic mutation)
Affected status: yes
Allele origin:
somatic
|
Database of Curated Mutations (DoCM)
Accession: SCV000507280.1
First in ClinVar: Mar 08, 2017 Last updated: Mar 08, 2017 |
|
|
Pathogenic
(-)
|
no assertion criteria provided
Method: clinical testing
|
not provided
Affected status: yes
Allele origin:
germline
|
Joint Genome Diagnostic Labs from Nijmegen and Maastricht, Radboudumc and MUMC+
Additional submitter:
Diagnostic Laboratory, Department of Genetics, University Medical Center Groningen
Study: VKGL Data-share Consensus
Accession: SCV001956376.1 First in ClinVar: Oct 02, 2021 Last updated: Oct 02, 2021 |
|
|
Pathogenic
(-)
|
no assertion criteria provided
Method: clinical testing
|
not provided
Affected status: yes
Allele origin:
germline
|
Clinical Genetics DNA and cytogenetics Diagnostics Lab, Erasmus MC, Erasmus Medical Center
Additional submitter:
Diagnostic Laboratory, Department of Genetics, University Medical Center Groningen
Study: VKGL Data-share Consensus
Accession: SCV001974063.1 First in ClinVar: Oct 07, 2021 Last updated: Oct 07, 2021 |
|
|
Pathogenic
(-)
|
no assertion criteria provided
Method: research
|
Noonan syndrome 1
Affected status: yes
Allele origin:
unknown
|
Division of Human Genetics, National Health Laboratory Service/University of the Witwatersrand
Accession: SCV003840161.1
First in ClinVar: Mar 18, 2023 Last updated: Mar 18, 2023 |
Number of individuals with the variant: 1
|
|
Pathogenic
(May 31, 2019)
|
no assertion criteria provided
Method: research
|
Noonan syndrome 5
Affected status: yes
Allele origin:
de novo
|
Beijing Key Laboratory for Genetic Research of Skeletal Deformity, Peking Union Medical College Hospital
Accession: SCV001482333.1
First in ClinVar: Mar 07, 2021 Last updated: Mar 07, 2021 |
|
|
Pathogenic
(-)
|
no assertion criteria provided
Method: clinical testing
|
not provided
Affected status: yes
Allele origin:
germline
|
Diagnostic Laboratory, Department of Genetics, University Medical Center Groningen
Study: VKGL Data-share Consensus
Accession: SCV001743956.3 First in ClinVar: Jul 07, 2021 Last updated: Sep 08, 2021 |
|
|
Pathogenic
(-)
|
no assertion criteria provided
Method: clinical testing
|
Noonan syndrome 1
(Autosomal dominant inheritance)
Affected status: yes
Allele origin:
de novo
|
Molecular Genetics, Centre for Human Genetics
Accession: SCV004190086.1
First in ClinVar: Dec 24, 2023 Last updated: Dec 24, 2023 |
Number of individuals with the variant: 3
Secondary finding: no
|
|
not provided
(-)
|
no classification provided
Method: literature only
|
Noonan syndrome with multiple lentigines
Affected status: not provided
Allele origin:
unknown
|
GeneReviews
Accession: SCV000040960.2
First in ClinVar: Apr 04, 2013 Last updated: Oct 01, 2022 |
|
|
not provided
(-)
|
no classification provided
Method: not provided
|
Noonan syndrome 5
Affected status: not provided
Allele origin:
germline
|
Institute of Molecular Pathology and Immunology of the University of Porto (IPATIMUP)
Accession: SCV000143821.1
First in ClinVar: Apr 01, 2014 Last updated: Apr 01, 2014 |
|
|
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Germline Functional Evidence
There is no functional evidence in ClinVar for this variation. If you have generated functional data for this variation, please consider submitting that data to ClinVar. |
Citations for germline classification of this variant
HelpTitle | Author | Journal | Year | Link |
---|---|---|---|---|
Noonan Syndrome with Multiple Lentigines. | Adam MP | - | 2022 | PMID: 20301557 |
Not Only Diagnostic Yield: Whole-Exome Sequencing in Infantile Cardiomyopathies Impacts on Clinical and Family Management. | Pezzoli L | Journal of cardiovascular development and disease | 2021 | PMID: 35050212 |
Strategies in Rapid Genetic Diagnostics of Critically Ill Children: Experiences From a Dutch University Hospital. | Imafidon ME | Frontiers in pediatrics | 2021 | PMID: 34136434 |
Exome sequencing reveals genetic architecture in patients with isolated or syndromic short stature. | Fan X | Journal of genetics and genomics = Yi chuan xue bao | 2021 | PMID: 34006472 |
Diagnostic yield of genetic testing in a heterogeneous cohort of 1376 HCM patients. | Hathaway J | BMC cardiovascular disorders | 2021 | PMID: 33673806 |
Genotype-phenotype association by echocardiography offers incremental value in patients with Noonan Syndrome with Multiple Lentigines. | Kauffman H | Pediatric research | 2021 | PMID: 33318624 |
A report on the impact of rapid prenatal exome sequencing on the clinical management of 52 ongoing pregnancies: a retrospective review. | Dempsey E | BJOG : an international journal of obstetrics and gynaecology | 2021 | PMID: 32981126 |
Application of Next-Generation Sequencing for Genetic Diagnosis in Neonatal Intensive Care Units: Results of a Multicenter Study in China. | Zhu T | Frontiers in genetics | 2020 | PMID: 33240318 |
Exome sequencing improves genetic diagnosis of fetal increased nuchal translucency. | Yang X | Prenatal diagnosis | 2020 | PMID: 32668055 |
Feasibility of Ultra-Rapid Exome Sequencing in Critically Ill Infants and Children With Suspected Monogenic Conditions in the Australian Public Health Care System. | Australian Genomics Health Alliance Acute Care Flagship | JAMA | 2020 | PMID: 32573669 |
Maternal SLE and brachytelephalangic chondrodysplasia punctata in a patient with unrelated de novo RAF1 and SIX2 variants. | Alkhunaizi E | American journal of medical genetics. Part A | 2020 | PMID: 32506814 |
Prenatal exome sequencing in fetuses with congenital heart defects. | Li R | Clinical genetics | 2020 | PMID: 32410215 |
Clinical and molecular characterization of children with Noonan syndrome and other RASopathies in Argentina. | Chinton J | Archivos argentinos de pediatria | 2019 | PMID: 31560489 |
Infant mortality: the contribution of genetic disorders. | Wojcik MH | Journal of perinatology : official journal of the California Perinatal Association | 2019 | PMID: 31395954 |
Prenatal diagnosis of Noonan syndrome in fetuses with increased nuchal translucency and a normal karyotype. | Matyášová M | Ceska gynekologie | 2019 | PMID: 31324109 |
Clinical and mutation profile of pediatric patients with RASopathy-associated hypertrophic cardiomyopathy: results from a Chinese cohort. | Chen H | Orphanet journal of rare diseases | 2019 | PMID: 30732632 |
Dermatological manifestations in Noonan syndrome: a prospective multicentric study of 129 patients positive for mutation. | Bessis D | The British journal of dermatology | 2019 | PMID: 30417923 |
Genetic basis of hypertrophic cardiomyopathy in children. | Rupp S | Clinical research in cardiology : official journal of the German Cardiac Society | 2019 | PMID: 30105547 |
Comparative assessment of gene-specific variant distribution in prenatal and postnatal cohorts tested for Noonan syndrome and related conditions. | Leach NT | Genetics in medicine : official journal of the American College of Medical Genetics | 2019 | PMID: 29907801 |
Genetic Basis of Severe Childhood-Onset Cardiomyopathies. | Vasilescu C | Journal of the American College of Cardiology | 2018 | PMID: 30384889 |
Genetic Evaluation of 114 Chinese Short Stature Children in the Next Generation Era: a Single Center Study. | Huang Z | Cellular physiology and biochemistry : international journal of experimental cellular physiology, biochemistry, and pharmacology | 2018 | PMID: 30138938 |
Nonreentrant atrial tachycardia occurs independently of hypertrophic cardiomyopathy in RASopathy patients. | Levin MD | American journal of medical genetics. Part A | 2018 | PMID: 30055033 |
ClinGen's RASopathy Expert Panel consensus methods for variant interpretation. | Gelb BD | Genetics in medicine : official journal of the American College of Medical Genetics | 2018 | PMID: 29493581 |
Targeted/exome sequencing identified mutations in ten Chinese patients diagnosed with Noonan syndrome and related disorders. | Xu S | BMC medical genomics | 2017 | PMID: 29084544 |
Contribution of rare inherited and de novo variants in 2,871 congenital heart disease probands. | Jin SC | Nature genetics | 2017 | PMID: 28991257 |
Use of Exome Sequencing for Infants in Intensive Care Units: Ascertainment of Severe Single-Gene Disorders and Effect on Medical Management. | Meng L | JAMA pediatrics | 2017 | PMID: 28973083 |
RAF1 variants causing biventricular hypertrophic cardiomyopathy in two preterm infants: further phenotypic delineation and review of literature. | Thompson D | Clinical dysmorphology | 2017 | PMID: 28777121 |
Approaching the facts between genetic mutation and clinical practice of hypertrophic cardiomyopathy: A case report with RAF1 770C>T mutant. | Wang X | Medicine | 2016 | PMID: 27631234 |
Retrospective study of prenatal ultrasound findings in newborns with a Noonan spectrum disorder. | Hakami F | Prenatal diagnosis | 2016 | PMID: 26918529 |
Identifying recurrent mutations in cancer reveals widespread lineage diversity and mutational specificity. | Chang MT | Nature biotechnology | 2016 | PMID: 26619011 |
Neonatal pulmonary arterial hypertension and Noonan syndrome: two fatal cases with a specific RAF1 mutation. | Hopper RK | American journal of medical genetics. Part A | 2015 | PMID: 25706034 |
Structure-energy-based predictions and network modelling of RASopathy and cancer missense mutations. | Kiel C | Molecular systems biology | 2014 | PMID: 24803665 |
Unique cerebrovascular anomalies in Noonan syndrome with RAF1 mutation. | Zarate YA | Journal of child neurology | 2014 | PMID: 23877478 |
LEOPARD syndrome: a variant of Noonan syndrome strongly associated with hypertrophic cardiomyopathy. | Carcavilla A | Revista espanola de cardiologia (English ed.) | 2013 | PMID: 24775816 |
Prenatal diagnostic testing of the Noonan syndrome genes in fetuses with abnormal ultrasound findings. | Croonen EA | European journal of human genetics : EJHG | 2013 | PMID: 23321623 |
Two cases of LEOPARD syndrome--RAF1 mutations firstly described in children. | Kuburović V | The Turkish journal of pediatrics | 2011 | PMID: 22389993 |
Spectrum of mutations in Noonan syndrome and their correlation with phenotypes. | Lee BH | The Journal of pediatrics | 2011 | PMID: 21784453 |
Cyclosporine attenuates cardiomyocyte hypertrophy induced by RAF1 mutants in Noonan and LEOPARD syndromes. | Dhandapany PS | Journal of molecular and cellular cardiology | 2011 | PMID: 21440552 |
Molecular and clinical analysis of RAF1 in Noonan syndrome and related disorders: dephosphorylation of serine 259 as the essential mechanism for mutant activation. | Kobayashi T | Human mutation | 2010 | PMID: 20052757 |
Tumor spectrum in children with Noonan syndrome and SOS1 or RAF1 mutations. | Denayer E | Genes, chromosomes & cancer | 2010 | PMID: 19953625 |
Visual function in Noonan and LEOPARD syndrome. | Alfieri P | Neuropediatrics | 2008 | PMID: 19568997 |
Gain-of-function RAF1 mutations cause Noonan and LEOPARD syndromes with hypertrophic cardiomyopathy. | Pandit B | Nature genetics | 2007 | PMID: 17603483 |
Germline gain-of-function mutations in RAF1 cause Noonan syndrome. | Razzaque MA | Nature genetics | 2007 | PMID: 17603482 |
Activation of the Raf/MAP kinase cascade by the Ras-related protein TC21 is required for the TC21-mediated transformation of NIH 3T3 cells. | Rosário M | The EMBO journal | 1999 | PMID: 10064593 |
Downgrading of arts-centered education in state schools. | Partridge S | Nursing standard (Royal College of Nursing (Great Britain) : 1987) | 1991 | PMID: 1760348 |
http://docm.genome.wustl.edu/variants/ENST00000251849:c.770C>T | - | - | - | - |
http://www.egl-eurofins.com/emvclass/emvclass.php?approved_symbol=RAF1 | - | - | - | - |
https://erepo.clinicalgenome.org/evrepo/ui/interpretation/6eb64962-8efe-49ca-a5e1-499e4cddd80f | - | - | - | - |
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Text-mined citations for rs80338796 ...
HelpRecord last updated Nov 19, 2024
This date represents the last time this VCV record was updated. The update may be due to an update to one of the included submitted records (SCVs), or due to an update that ClinVar made to the variant such as adding HGVS expressions or a rs number. So this date may be different from the date of the “most recent submission” reported at the top of this page.