The c.3113G>A (p.Trp1038Ter) variant in PALB2 occurs at the last nucleotide of exon 10. It is predicted to cause skipping of biologically-relevant exon 10, as well as partial deletion of exon 10, resulting in a frameshift leading to nonsense mediated decay in a gene in which loss-of-function is an established disease mechanism. This prediction is confirmed by RT-PCR analysis (PMID: 21285249, 23448497). This alteration results in a termination codon upstream of the most C-terminus pathogenic alteration (PALB2 p.Tyr1183*), as classified by the HBOP VCEP, and is expected to be more deleterious. This variant is non-functional in multiple different protein assays (PMID 31757951); however due to a lack of positive missense controls with known clinical impact, these protein assays do not meet the requirements for use by the HBOP VCEP. The prevalence of the variant in affected individuals is significantly increased compared with the prevalence in controls [OR=4.21, 95% CI:1.84 - 9.60] (PMID: 27595995). The highest population filtering allele frequency in gnomAD v2.1.1 is 0.00006665 in the European (Non-Finnish) population (PM2_Supporting, BS1, and BA1 are not met). In summary, this variant meets criteria to be classified as pathogenic for autosomal dominant hereditary breast and pancreatic cancer and autosomal recessive FANCN based on the ACMG/AMP criteria applied, as specified by the HBOP VCEP. (PVS1(RNA), PS4, PM5_Supporting).
ClinVar Genomic variation as it relates to human health
NM_024675.4(PALB2):c.3113G>A (p.Trp1038Ter)
Germline
Top reviewed classifications are shown here.
Submission summary:
Reviewed by expert panel
Pathogenic
Somatic
No data submitted for somatic clinical impact
Somatic
No data submitted for oncogenicity
Variant Details
- Identifiers
-
NM_024675.4(PALB2):c.3113G>A (p.Trp1038Ter)
Variation ID: 126711 Accession: VCV000126711.53
- Type and length
-
single nucleotide variant, 1 bp
- Location
-
Cytogenetic: 16p12.2 16: 23621362 (GRCh38) [ NCBI UCSC ] 16: 23632683 (GRCh37) [ NCBI UCSC ]
- Timeline in ClinVar
-
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 19, 2014 Oct 8, 2024 Apr 5, 2023 - HGVS
-
... more HGVS ... less HGVSNucleotide Protein Molecular
consequenceNM_024675.4:c.3113G>A MANE Select Help Transcripts from the Matched Annotation from the NCBI and EMBL-EBI (MANE) collaboration.
NP_078951.2:p.Trp1038Ter nonsense NC_000016.10:g.23621362C>T NC_000016.9:g.23632683C>T NG_007406.1:g.24996G>A LRG_308:g.24996G>A LRG_308t1:c.3113G>A LRG_308p1:p.Trp1038Ter - Protein change
- W1038*
- Other names
-
PALB2, TRP1038TER (rs180177132)
p.W1038*:TGG>TAG
NM_024675.3(PALB2):c.3113G>A
p.Trp1038Ter
- Canonical SPDI
- NC_000016.10:23621361:C:T
-
Functional
consequence HelpThe effect of the variant on RNA or protein function, based on experimental evidence from submitters.
- -
-
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.
- -
-
Allele frequency
Help
The frequency of the allele represented by this VCV record.
-
Exome Aggregation Consortium (ExAC) 0.00002
The Genome Aggregation Database (gnomAD) 0.00002
Trans-Omics for Precision Medicine (TOPMed) 0.00002
The Genome Aggregation Database (gnomAD), exomes 0.00006
- 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 | ||
|---|---|---|---|---|---|---|
| HI score
Help
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. |
|||
| PALB2 | - | - |
GRCh38 GRCh37 |
5913 | 5955 | |
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. |
|---|---|---|---|---|
| Pathogenic (9) |
reviewed by expert panel
|
Apr 5, 2023 | RCV000114591.34 | |
| Pathogenic (5) |
criteria provided, multiple submitters, no conflicts
|
Jan 17, 2024 | RCV000116096.23 | |
| risk factor (1) |
no assertion criteria provided
|
Feb 28, 2013 | RCV000144703.5 | |
| Pathogenic (6) |
criteria provided, multiple submitters, no conflicts
|
Feb 9, 2022 | RCV000212822.18 | |
| not provided (1) |
no classification provided
|
- | RCV001535480.3 | |
| Pathogenic (1) |
no assertion criteria provided
|
Sep 1, 2019 | RCV001171469.4 | |
| Pathogenic (1) |
criteria provided, single submitter
|
Nov 13, 2023 | RCV003389455.1 | |
| Pathogenic (1) |
criteria provided, single submitter
|
May 8, 2017 | RCV000588093.2 | |
|
PALB2-related disorder
|
Pathogenic (2) |
criteria provided, single submitter
|
Sep 19, 2018 | RCV004528792.2 |
| Pathogenic (1) |
criteria provided, single submitter
|
Sep 13, 2022 | RCV003492443.1 | |
|
NICE approved PARP inhibitor treatment
|
Pathogenic (1) |
criteria provided, single submitter
|
Apr 30, 2024 | RCV004577322.1 |
|
Inherited breast cancer and ovarian cancer
|
Pathogenic (1) |
criteria provided, single submitter
|
May 14, 2024 | RCV004584191.1 |
|
Inherited ovarian cancer (without breast cancer)
|
Pathogenic (1) |
criteria provided, single submitter
|
May 3, 2024 | RCV004584192.1 |
| 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. |
|
|---|---|---|---|---|---|
|
Pathogenic
(Apr 05, 2023)
|
reviewed by expert panel
Method: curation
|
Familial cancer of breast
(Autosomal dominant inheritance)
Affected status: unknown
Allele origin:
germline
|
ClinGen Hereditary Breast, Ovarian and Pancreatic Cancer Variant Curation Expert Panel, ClinGen
FDA Recognized Database
Accession: SCV003915565.1 First in ClinVar: Apr 15, 2023 Last updated: Apr 15, 2023 |
Comment:
The c.3113G>A (p.Trp1038Ter) variant in PALB2 occurs at the last nucleotide of exon 10. It is predicted to cause skipping of biologically-relevant exon 10, as … (more)
The c.3113G>A (p.Trp1038Ter) variant in PALB2 occurs at the last nucleotide of exon 10. It is predicted to cause skipping of biologically-relevant exon 10, as well as partial deletion of exon 10, resulting in a frameshift leading to nonsense mediated decay in a gene in which loss-of-function is an established disease mechanism. This prediction is confirmed by RT-PCR analysis (PMID: 21285249, 23448497). This alteration results in a termination codon upstream of the most C-terminus pathogenic alteration (PALB2 p.Tyr1183*), as classified by the HBOP VCEP, and is expected to be more deleterious. This variant is non-functional in multiple different protein assays (PMID 31757951); however due to a lack of positive missense controls with known clinical impact, these protein assays do not meet the requirements for use by the HBOP VCEP. The prevalence of the variant in affected individuals is significantly increased compared with the prevalence in controls [OR=4.21, 95% CI:1.84 - 9.60] (PMID: 27595995). The highest population filtering allele frequency in gnomAD v2.1.1 is 0.00006665 in the European (Non-Finnish) population (PM2_Supporting, BS1, and BA1 are not met). In summary, this variant meets criteria to be classified as pathogenic for autosomal dominant hereditary breast and pancreatic cancer and autosomal recessive FANCN based on the ACMG/AMP criteria applied, as specified by the HBOP VCEP. (PVS1(RNA), PS4, PM5_Supporting). (less)
|
|
|
Pathogenic
(Nov 20, 2015)
|
criteria provided, single submitter
Method: clinical testing
|
Hereditary cancer-predisposing syndrome
Affected status: yes
Allele origin:
germline
|
University of Washington Department of Laboratory Medicine, University of Washington
Accession: SCV000266105.1
First in ClinVar: Mar 20, 2016 Last updated: Mar 20, 2016 |
Number of individuals with the variant: 1
Clinical Features:
melanoma (present)
Age: 40-49 years
|
|
|
Likely pathogenic
(Jun 01, 2015)
|
criteria provided, single submitter
Method: case-control
|
Familial cancer of breast
Cases recruited through familial
(more...)
Affected status: yes, no
Allele origin:
germline
|
Cancer Genetics Laboratory, Peter MacCallum Cancer Centre
Accession: SCV000267971.1
First in ClinVar: May 11, 2016 Last updated: May 11, 2016 |
Observation 1:
Number of individuals with the variant: 7
Sex: female
Geographic origin: Australia
Observation 2:
Number of individuals with the variant: 1
Sex: female
Geographic origin: Australia
|
|
|
Pathogenic
(Mar 06, 2018)
|
criteria provided, single submitter
Method: clinical testing
|
not provided
Affected status: unknown
Allele origin:
germline
|
Eurofins Ntd Llc (ga)
Accession: SCV000225072.5
First in ClinVar: Jun 28, 2015 Last updated: Dec 15, 2018 |
Number of individuals with the variant: 3
Sex: mixed
|
|
|
Pathogenic
(Feb 11, 2020)
|
criteria provided, single submitter
Method: clinical testing
|
Not Provided
Affected status: yes
Allele origin:
germline
|
GeneDx
Accession: SCV000150005.17
First in ClinVar: May 17, 2014 Last updated: Mar 04, 2023 |
Comment:
Observed in multiple individuals with a personal and/or family history of breast cancer and is considered a pathogenic founder variant in the British population (Rahman … (more)
Observed in multiple individuals with a personal and/or family history of breast cancer and is considered a pathogenic founder variant in the British population (Rahman 2007, Southey 2010, Wong 2011, Teo 2013, Hartley 2014, Southey 2016, Winship 2016); Published functional studies demonstrate a damaging effect: reduced RAD51 foci formation, abnormal cellular localization, diminished homology repair efficiency, weak protein expression (Pauty 2017, Boonen 2019); This variant is associated with the following publications: (PMID: 21165770, 17200668, 21409391, 23471749, 18302019, 19264984, 22241545, 26283626, 24206657, 25099575, 19763819, 26250988, 23787919, 23448497, 26786923, 27621404, 25575445, 28158555, 32081490, 32581362, 25525159, 25225577, 24415441, 23935381, 21932393, 24870022, 20346647, 24556926, 24136930, 24061862, 26534844, 25356972, 17200671, 21182766, 21285249, 26787237, 27547810, 27595995, 28019080, 28135136, 27099641, 26985847, 27296296, 27433846, 26681312, 26315354, 28864920, 28779002, 29431189, 29909963, 30665703, 29961768, 30322717, 31090900, 31757951, 31263054, 29625052, 26689913, 32426482, 31447099, 32832836, 32338768) (less)
|
|
|
Pathogenic
(Nov 13, 2023)
|
criteria provided, single submitter
Method: clinical testing
|
Breast-ovarian cancer, familial, susceptibility to, 5
(Autosomal dominant inheritance)
Affected status: yes
Allele origin:
germline
|
KCCC/NGS Laboratory, Kuwait Cancer Control Center
Accession: SCV004101687.1
First in ClinVar: Nov 20, 2023 Last updated: Nov 20, 2023 |
Comment:
A known pathogenic mutation was detected in the PALB2 gene (c.3113G>A).This sequence change creates a premature translational stop signal (p.Trp1038*) in the PALB2 gene. It … (more)
A known pathogenic mutation was detected in the PALB2 gene (c.3113G>A).This sequence change creates a premature translational stop signal (p.Trp1038*) in the PALB2 gene. It is expected to result in an absent or disrupted protein product. Loss-of-function variants in PALB2 are known to be pathogenic (PMID: 17200668, 17200671, 17200672, 24136930, 25099575). This variant is present in population databases (rs180177132, gnomAD 0.01%). This premature translational stop signal has been observed in individual(s) with breast cancer (PMID: 21165770, 17200668, 21409391, 23471749, 18302019, 19264984, 22241545, 26283626, 24206657, 25099575, 19763819, 26250988, 23787919, 23448497, 26786923, 27621404, 25575445, 28158555, 32081490, 32581362, 25525159, 25225577, 24415441, 23935381, 21932393, 24870022, 20346647, 24556926, 24136930, 24061862, 26534844, 25356972, 17200671, 21182766, 21285249, 26787237, 27547810, 27595995, 28019080, 28135136, 27099641, 26985847, 27296296, 27433846, 26681312, 26315354, 28864920, 28779002, 29431189, 29909963, 30665703, 29961768, 30322717, 31090900, 31757951, 31263054, 29625052, 26689913, 32426482, 31447099, 32832836, 32338768) . It has also been observed to segregate with disease in related individuals. ClinVar contains an entry for this variant (Variation ID: 126711). Published functional studies demonstrate a damaging effect, abnormal cellular localization, diminished homology repair efficiency, weak protein expression (PMID: 21285249, 23448497). For these reasons, this variant has been classified as Pathogenic. (less)
Age: 50-59 years
Sex: female
|
|
|
Pathogenic
(Aug 01, 2023)
|
criteria provided, single submitter
Method: clinical testing
|
Hereditary cancer-predisposing syndrome
Affected status: unknown
Allele origin:
germline
|
Institute for Biomarker Research, Medical Diagnostic Laboratories, L.L.C.
Accession: SCV004228120.1
First in ClinVar: Jan 06, 2024 Last updated: Jan 06, 2024 |
|
|
|
Pathogenic
(Sep 13, 2022)
|
criteria provided, single submitter
Method: clinical testing
|
Breast and/or ovarian cancer
Affected status: unknown
Allele origin:
germline
|
CHEO Genetics Diagnostic Laboratory, Children's Hospital of Eastern Ontario
Accession: SCV004239562.1
First in ClinVar: Feb 04, 2024 Last updated: Feb 04, 2024 |
|
|
|
Pathogenic
(Jan 17, 2024)
|
criteria provided, single submitter
Method: clinical testing
|
Hereditary cancer-predisposing syndrome
Affected status: unknown
Allele origin:
germline
|
Color Diagnostics, LLC DBA Color Health
Accession: SCV000292142.5
First in ClinVar: Jul 08, 2016 Last updated: Feb 14, 2024 |
Comment:
This variant causes a nonsense mutation in exon 10 and is also predicted to disrupt splicing at the intron 10 splice donor site in the … (more)
This variant causes a nonsense mutation in exon 10 and is also predicted to disrupt splicing at the intron 10 splice donor site in the PALB2 gene. RNA studies have reported that this variant causes splicing defects resulting in an in-frame deletion of exon 10 or exons 9 and 10, impacting the WD40 domain of PALB2, or an out-of-frame transcript due to the use of a cryptic donor site within exon 10 that results in a premature translational stop signal. Normally spliced transcript from the mutant allele has a nonsense mutation due to the coding sequence change (PMID: 21285249, 23448497, 31843900). This variant has been observed in over a dozen individuals affected with early-onset breast cancer with positive history of breast and other cancers (PMID: 17200668, 21182766, 21285249, 22241545, 23471749, 25225577, 28864920; DOI: 10.1016/j.gimo.2023.100849), an individual affected with familial pancreatic cancer (PMID: 25356972), and in two individuals affected with ovarian cancer and two unaffected individuals (PMID: 26315354). This variant has been detected in a breast cancer case-control meta-analysis in 31/60466 cases and 6/53461 unaffected individuals with an estimated odds ratio of 4.57 (95% CI 1.906 to 10.955) (PMID: 33471991; Leiden Open Variation Database DB-ID PALB2_010150). This variant has been shown to segregate with breast cancer in families (PMID: 21182766, 26534844). This variant has been identified in 17/282756 chromosomes in the general population by the Genome Aggregation Database (gnomAD), predominantly in non-Finnish Europeans and also in African-Americans. Loss of PALB2 function is a known mechanism of disease (clinicalgenome.org). Based on the available evidence, this variant is classified as Pathogenic. (less)
|
|
|
Pathogenic
(Mar 29, 2024)
|
criteria provided, single submitter
Method: clinical testing
|
Familial cancer of breast
Affected status: unknown
Allele origin:
unknown
|
Baylor Genetics
Accession: SCV004202029.2
First in ClinVar: Dec 30, 2023 Last updated: Jun 17, 2024 |
|
|
|
Pathogenic
(May 08, 2017)
|
criteria provided, single submitter
Method: clinical testing
|
Hereditary breast ovarian cancer syndrome
Affected status: unknown
Allele origin:
germline
|
Women's Health and Genetics/Laboratory Corporation of America, LabCorp
Accession: SCV000699583.1
First in ClinVar: Mar 17, 2018 Last updated: Mar 17, 2018 |
|
|
|
Pathogenic
(Sep 19, 2018)
|
criteria provided, single submitter
Method: clinical testing
|
PALB2-Related Disorders
Affected status: unknown
Allele origin:
germline
|
Illumina Laboratory Services, Illumina
Accession: SCV000914711.1
First in ClinVar: May 27, 2019 Last updated: May 27, 2019 |
Comment:
The PALB2 c.3113G>A (p.Trp1038Ter) variant is a stop-gained variant that is predicted to result in a premature termination of the protein. Across a selection of … (more)
The PALB2 c.3113G>A (p.Trp1038Ter) variant is a stop-gained variant that is predicted to result in a premature termination of the protein. Across a selection of the available literature, the c.3113G>A (p.Trp1038Ter) variant has been identified in a heterozygous state in at least 21 probands from 13 unrelated families (Rahman et al. 2007; Southey et al. 2010; Teo et al. 2013; Hartley et al. 2014). Affected individuals were found to have a variety of cancers including breast, ovarian, and pancreatic. The p.Trp1038Ter variant was absent from 1724 healthy control subjects and is reported at a frequency of 0.000125 in the African population of the Genome Aggregation Database. Experimental studies on RNA isolated from patient derived lymphoblastoid cell lines have shown that the p.Trp1038Ter variant caused altered splicing (Casadei et al. 2011; Teo et al. 2013). Although this variant has not been reported in any probands with Fanconi anemia, it is known that PALB2 heterozygous variants can also confer carrier status for Fanconi anemia. Due to the potential impact of stop-gained variants and the evidence from the literature, this variant is classified as pathogenic for PALB2-related disorders. This variant was observed by ICSL as part of a predisposition screen in an ostensibly healthy population. (less)
|
|
|
Pathogenic
(Jan 15, 2021)
|
criteria provided, single submitter
Method: clinical testing
|
not provided
Affected status: yes
Allele origin:
germline
|
Genetic Services Laboratory, University of Chicago
Accession: SCV002069665.1
First in ClinVar: Jan 29, 2022 Last updated: Jan 29, 2022 |
Comment:
DNA sequence analysis of the PALB2 gene demonstrated a sequence change, c.3113G>A, located in the consensus splice site of the exon. Functional studies have demonstrated … (more)
DNA sequence analysis of the PALB2 gene demonstrated a sequence change, c.3113G>A, located in the consensus splice site of the exon. Functional studies have demonstrated that this sequence change affects normal splicing and creates different PALB2 transcripts in lymphoblastoid cells derived from individuals with breast cancer, including one with complete skipping of exon 10 (deletion of 117 bp), another with an alternative splice site within exon 10 (out-of-frame deletion of 31 bp), and one which results in an immediate stop at amino acid position 1038 (p.Trp1038*) (PMID: 21285249, 23448497). The p.Trp1038* change has been reported in individuals and families with breast cancer, with evidence of co-segregation with disease (PMID: 17200668, 21182766, 21285249, 23471749). This sequence change has been observed in the gnomAD database with a frequency of 0.011% in the European sub-population (dbSNP rs180177132). These collective evidences suggest that this sequence change is pathogenic. (less)
|
|
|
Pathogenic
(Jul 11, 2022)
|
criteria provided, single submitter
Method: clinical testing
|
Familial cancer of breast
Affected status: unknown
Allele origin:
germline
|
Greenwood Genetic Center Diagnostic Laboratories, Greenwood Genetic Center
Accession: SCV002583786.1
First in ClinVar: Oct 22, 2022 Last updated: Oct 22, 2022 |
Comment:
PVS1, PS4
Secondary finding: yes
|
|
|
Pathogenic
(Mar 18, 2016)
|
criteria provided, single submitter
Method: clinical testing
|
Familial cancer of breast
Affected status: unknown
Allele origin:
unknown
|
Counsyl
Accession: SCV000488411.2
First in ClinVar: Jul 01, 2016 Last updated: Dec 24, 2022 |
|
|
|
Pathogenic
(Sep 30, 2019)
|
criteria provided, single submitter
Method: clinical testing
|
not provided
Affected status: unknown
Allele origin:
unknown
|
Quest Diagnostics Nichols Institute San Juan Capistrano
Accession: SCV000601775.4
First in ClinVar: Sep 28, 2017 Last updated: Dec 31, 2022 |
Comment:
This nonsense variant causes the premature termination of PALB2 protein synthesis. In the published literature, the variant has been reported in one healthy individual, in … (more)
This nonsense variant causes the premature termination of PALB2 protein synthesis. In the published literature, the variant has been reported in one healthy individual, in a control group, and in individuals affected with breast or prostate cancer (PMIDs: 30665703 (2019), 27433846 (2016), 26283626 (2015), 25225577 (2014), and 21182766 (2010)). Additionally, splicing studies have shown that this variant produces three alternate transcripts which either result in premature termination of protein synthesis or deletion of exon 10 (PMIDs: 23471749 (2013) and 21285249 (2011)). Based on this information, this variant is classified as pathogenic. (less)
|
|
|
Pathogenic
(Mar 31, 2023)
|
criteria provided, single submitter
Method: clinical testing
|
Familial cancer of breast
Affected status: unknown
Allele origin:
unknown
|
Myriad Genetics, Inc.
Accession: SCV004019609.1
First in ClinVar: Jul 29, 2023 Last updated: Jul 29, 2023 |
Comment:
This variant is considered pathogenic. This variant creates a termination codon and is predicted to result in premature protein truncation.
|
|
|
Pathogenic
(Jan 31, 2024)
|
criteria provided, single submitter
Method: clinical testing
|
Familial cancer of breast
Affected status: unknown
Allele origin:
germline
|
Labcorp Genetics (formerly Invitae), Labcorp
Accession: SCV000166660.15
First in ClinVar: Jun 15, 2014 Last updated: Feb 20, 2024 |
Comment:
This sequence change creates a premature translational stop signal (p.Trp1038*) in the PALB2 gene. RNA analysis indicates that this premature translational stop signal induces altered … (more)
This sequence change creates a premature translational stop signal (p.Trp1038*) in the PALB2 gene. RNA analysis indicates that this premature translational stop signal induces altered splicing and may result in an absent or disrupted protein product. This variant is present in population databases (rs180177132, gnomAD 0.01%). This premature translational stop signal has been observed in individual(s) with breast cancer (PMID: 17200668, 21182766, 21285249, 23471749). It has also been observed to segregate with disease in related individuals. ClinVar contains an entry for this variant (Variation ID: 126711). Studies have shown that this premature translational stop signal results in activation of a cryptic splice site and introduces a premature termination codon (Invitae). The resulting mRNA is expected to undergo nonsense-mediated decay. For these reasons, this variant has been classified as Pathogenic. (less)
|
|
|
Pathogenic
(Oct 26, 2022)
|
criteria provided, single submitter
Method: clinical testing
|
Hereditary cancer-predisposing syndrome
Affected status: unknown
Allele origin:
germline
|
Ambry Genetics
Accession: SCV000183829.10
First in ClinVar: Aug 06, 2014 Last updated: May 01, 2024 |
Comment:
The c.3113G>A pathogenic mutation (also known as p.W1038*), located in coding exon 10 of the PALB2 gene, results from a G to A substitution at … (more)
The c.3113G>A pathogenic mutation (also known as p.W1038*), located in coding exon 10 of the PALB2 gene, results from a G to A substitution at nucleotide position 3113. This changes the amino acid from a tryptophan to a stop codon within coding exon 10. This change occurs in the last base pair of coding exon 10, and has been shown to generate three aberrant mRNA isoforms: one with complete skipping of exon 10 (deletion of 117 bp), another which uses an alternative splice site within exon 10 (out-of-frame deletion of 31 bp) (Casadei S et al. Cancer Res. 2011 Mar;71:2222-9; Teo ZL et al. Breast Cancer Res. 2013 Feb;15:R17; Casadei S et al. Proc Natl Acad Sci U S A, 2019 Dec). In addition, this mutation has been identified in multiple early-onset breast cancer probands with significant breast cancer family histories (Hartley T et al. Hered Cancer Clin Pract. 2014;12:19; Teo ZL et al. Fam. Cancer. 2013 Dec;12:587-95; Rahman N et al. Nat. Genet. 2007 Feb;39:165-7; Wong MW et al. Breast Cancer Res. Treat. 2011 Jun;127:853-9; Zhen DB et al. Genet. Med. 2015 Jul;17:569-77; Nguyen-Dumont T et al. Breast Cancer Res. Treat. 2015 Jan;149:547-54; Thompson ER et al. Breast Cancer Res. 2015 Aug;17:111; Ding YC et al. Fam. Cancer. 2018 Apr;17:187-195). This alteration has also been reported in a kindred with at least two family members affected with pancreatic cancer (Zhen DB et al. Genet. Med. 2015 Jul;17:569-77). In addition to the clinical data presented in the literature, this alteration is expected to result in loss of function by premature protein truncation or nonsense-mediated mRNA decay. As such, this alteration is interpreted as a disease-causing mutation. (less)
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Pathogenic
(Apr 30, 2024)
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criteria provided, single submitter
Method: clinical testing
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NICE approved PARP inhibitor treatment
Affected status: yes
Allele origin:
germline
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Cambridge Genomics Laboratory, East Genomic Laboratory Hub, NHS Genomic Medicine Service
Additional submitter:
Genomics and Molecular Medicine Service, East Genomic Laboratory Hub, NHS Genomic Medicine Service
Accession: SCV005061418.1
First in ClinVar: Jun 23, 2024 Last updated: Jun 23, 2024 |
Comment:
PVS1,PS4
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Pathogenic
(May 03, 2024)
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criteria provided, single submitter
Method: clinical testing
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Inherited ovarian cancer (without breast cancer)
Affected status: yes
Allele origin:
germline
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Genomics and Molecular Medicine Service, East Genomic Laboratory Hub, NHS Genomic Medicine Service
Accession: SCV005068345.1
First in ClinVar: Jul 07, 2024 Last updated: Jul 07, 2024 |
Comment:
PVS1,PS4
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Pathogenic
(May 14, 2024)
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criteria provided, single submitter
Method: clinical testing
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Inherited breast cancer and ovarian cancer
Affected status: yes
Allele origin:
germline
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Genomics and Molecular Medicine Service, East Genomic Laboratory Hub, NHS Genomic Medicine Service
Accession: SCV005068369.1
First in ClinVar: Jul 07, 2024 Last updated: Jul 07, 2024 |
Comment:
PVS1,PS4
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Pathogenic
(Apr 03, 2017)
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criteria provided, single submitter
Method: clinical testing
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Familial cancer of breast
Affected status: unknown
Allele origin:
germline
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Human Genome Sequencing Center Clinical Lab, Baylor College of Medicine
Accession: SCV000840027.1
First in ClinVar: Oct 13, 2018 Last updated: Oct 13, 2018 |
Comment:
This c.3113G>A (p.Trp1038*) variant has previously been reported in 16 (out of 4,178 total) patients with breast cancer [PMID 17200668, 21285249, 25575445, 23448497, 26283626, 21409391, … (more)
This c.3113G>A (p.Trp1038*) variant has previously been reported in 16 (out of 4,178 total) patients with breast cancer [PMID 17200668, 21285249, 25575445, 23448497, 26283626, 21409391, 23471749]. The cumulative risk for carrier of this variant was estimated as 91% by age 70 with a median age of onset of 42 years old reported in an Australian population [PMID 23471749]. This c.3113G>A is located in exon 10 of the PALB2 gene at the exon/intron junction with intron 10. Transcripts analysis showed that this variant not only produces a stop codon at amino acid position 1038 but also produces two additional PALB2 transcripts including an alternative splicing and a complete deletion of exon 10, all three leading to a loss of function of the protein [PMID 23471749]. The c.3113G>A (p.Trp1038*) variant has been observed in two Europeans and one African individual at the heterozygous state in the ExAC population database (http://exac.broadinstitute.org/variant/16-23632683-C-T). It is thus interpreted as a pathogenic variant. (less)
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Pathogenic
(Jan 26, 2018)
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criteria provided, single submitter
Method: research
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Hereditary cancer-predisposing syndrome
Affected status: yes
Allele origin:
germline
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Academic Department of Medical Genetics, University of Cambridge
Accession: SCV000992220.1
First in ClinVar: Sep 09, 2019 Last updated: Sep 09, 2019
Comment:
Identified as part of research study of individuals with multiple primary tumours referred for genetic assessment
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Comment:
Application of AMCG guidelines 2015. Used other ClinVar submission evidence where relevant. Loss of heterozygosity in tumours or immunohistochemistry abnormalities considered functional evidence of pathogenicity.
Observation 1:
Clinical Features:
Cutaneous melanoma (present) , Breast carcinoma (present)
Observation 2:
Clinical Features:
Anal canal squamous cell carcinoma (present) , Breast carcinoma (present)
Observation 3:
Clinical Features:
Cutaneous melanoma (present) , Breast carcinoma (present)
Observation 4:
Clinical Features:
Malignant tumor of prostate (present)
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Pathogenic
(Feb 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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AiLife Diagnostics, AiLife Diagnostics
Accession: SCV002502281.1
First in ClinVar: Apr 23, 2022 Last updated: Apr 23, 2022 |
Number of individuals with the variant: 1
Secondary finding: no
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risk factor
(Feb 28, 2013)
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no assertion criteria provided
Method: literature only
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BREAST CANCER, SUSCEPTIBILITY TO
Affected status: not provided
Allele origin:
germline
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OMIM
Accession: SCV000190693.2
First in ClinVar: Oct 27, 2014 Last updated: Apr 22, 2019 |
Comment on evidence:
In probands from 2 families with breast cancer (114480), Rahman et al. (2007) identified a 3113G-A transition in the PALB2 gene that resulted in a … (more)
In probands from 2 families with breast cancer (114480), Rahman et al. (2007) identified a 3113G-A transition in the PALB2 gene that resulted in a trp1038-to-ter (W1038) amino acid substitution. One proband had been diagnosed at the age of 43 years and had 3 relatives with breast cancer; the other proband had been diagnosed at the age of 49 years and had 4 affected relatives. In 8 of 747 multiplex breast cancer families from Australia and New Zealand, Teo et al. (2013) identified segregation of the c.3113G-A transition in the PALB2 gene. The median age of diagnosis in those carrying this mutation was 48.5 years, with a range of 32 to 79 years. Teo et al. (2013) identified 2 alternative transcripts in RT-PCR assays of the 3113G-A mutation. One involved the deletion of exon 10 (117 bp; r.2997_3113del, Gly1000_Gly1038del), and the other a 31-bp deletion in exon 10 (r.3083_3113del, Gly1028fsTer3). (less)
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Pathogenic
(Aug 30, 2024)
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no assertion criteria provided
Method: clinical testing
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PALB2-related condition
Affected status: unknown
Allele origin:
germline
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PreventionGenetics, part of Exact Sciences
Accession: SCV005360544.1
First in ClinVar: Oct 08, 2024 Last updated: Oct 08, 2024 |
Comment:
The PALB2 c.3113G>A variant is predicted to result in premature protein termination (p.Trp1038*). This variant has been reported in multiple individuals with a personal and/or … (more)
The PALB2 c.3113G>A variant is predicted to result in premature protein termination (p.Trp1038*). This variant has been reported in multiple individuals with a personal and/or family history of breast cancer (Rahman et al. 2007. PubMed ID: 17200668; Southey et al. 2010. PubMed ID: 21182766; Teo et al. 2013. PubMed ID: 23448497; Teo et al. 2013. PubMed ID: 23471749; Hartley et al. 2014. PubMed ID: 25225577). Functional studies showed that this variant alters splicing and results in three different mRNA transcripts (Casadei et al. 2011. PubMed ID: 21285249). This variant is reported in 0.012% of alleles in individuals of African descent in gnomAD and is interpreted as pathogenic in ClinVar by the ClinGen Hereditary Breast, Ovarian and Pancreatic Cancer Variant Curation Expert Panel (https://www.ncbi.nlm.nih.gov/clinvar/variation/126711/). Nonsense variants in PALB2 are expected to be pathogenic. This variant is interpreted as pathogenic. (less)
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Pathogenic
(Sep 30, 2019)
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no assertion criteria provided
Method: curation
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not provided
Affected status: no
Allele origin:
germline
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Leiden Open Variation Database
Accession: SCV001193348.1
First in ClinVar: Apr 06, 2020 Last updated: Apr 06, 2020 |
Comment:
Curators: Marc Tischkowitz, Arleen D. Auerbach. Submitters to LOVD: James Whitworth, kConFab - Heather Thorne, Marc Tischkowitz.
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Pathogenic
(Sep 01, 2019)
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no assertion criteria provided
Method: research
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Familial cancer of breast
Hereditary cancer-predisposing syndrome
Affected status: yes
Allele origin:
germline
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King Laboratory, University of Washington
Accession: SCV001251380.1
First in ClinVar: Jun 08, 2020 Last updated: Jun 08, 2020
Comment:
Transcript analysis by cBROCA
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Pathogenic
(Nov 06, 2014)
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no assertion criteria provided
Method: clinical testing
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Breast carcinoma
Affected status: unknown
Allele origin:
germline
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Pathway Genomics
Accession: SCV000207350.1
First in ClinVar: Feb 06, 2015 Last updated: Feb 06, 2015 |
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not provided
(-)
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no classification provided
Method: phenotyping only
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Malignant tumor of breast
Fanconi anemia complementation group N Pancreatic cancer, susceptibility to, 3
Explanation for multiple conditions: Uncertain.
The variant was classified for several related diseases, possibly a spectrum of disease; the variant may be associated with one or more the diseases.
Affected status: unknown
Allele origin:
unknown
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GenomeConnect - Invitae Patient Insights Network
Accession: SCV001749413.2
First in ClinVar: Jul 18, 2021 Last updated: Jun 17, 2024 |
Comment:
Variant interpreted as Pathogenic and reported on 04-13-2020 by Invitae. GenomeConnect-Invitae Patient Insights Network assertions are reported exactly as they appear on the patient-provided report … (more)
Variant interpreted as Pathogenic and reported on 04-13-2020 by Invitae. GenomeConnect-Invitae Patient Insights Network assertions are reported exactly as they appear on the patient-provided report from the testing laboratory. Registry team members make no attempt to reinterpret the clinical significance of the variant. Phenotypic details are available under supporting information. (less)
Clinical Features:
Breast carcinoma (present)
Indication for testing: Diagnostic
Age: 50-59 years
Sex: female
Method: Sanger Sequencing
Testing laboratory: Invitae
Date variant was reported to submitter: 2020-04-13
Testing laboratory interpretation: Pathogenic
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Comment:
Comment on condition
Cases recruited through familial breast cancer clinics in Australia; assessed as having a high probability of familial breast cancer
Comment:
Observed in multiple individuals with a personal and/or family history of breast cancer and is considered a pathogenic founder variant in the British population (Rahman 2007, Southey 2010, Wong 2011, Teo 2013, Hartley 2014, Southey 2016, Winship 2016); Published functional studies demonstrate a damaging effect: reduced RAD51 foci formation, abnormal cellular localization, diminished homology repair efficiency, weak protein expression (Pauty 2017, Boonen 2019); This variant is associated with the following publications: (PMID: 21165770, 17200668, 21409391, 23471749, 18302019, 19264984, 22241545, 26283626, 24206657, 25099575, 19763819, 26250988, 23787919, 23448497, 26786923, 27621404, 25575445, 28158555, 32081490, 32581362, 25525159, 25225577, 24415441, 23935381, 21932393, 24870022, 20346647, 24556926, 24136930, 24061862, 26534844, 25356972, 17200671, 21182766, 21285249, 26787237, 27547810, 27595995, 28019080, 28135136, 27099641, 26985847, 27296296, 27433846, 26681312, 26315354, 28864920, 28779002, 29431189, 29909963, 30665703, 29961768, 30322717, 31090900, 31757951, 31263054, 29625052, 26689913, 32426482, 31447099, 32832836, 32338768)
Comment:
A known pathogenic mutation was detected in the PALB2 gene (c.3113G>A).This sequence change creates a premature translational stop signal (p.Trp1038*) in the PALB2 gene. It is expected to result in an absent or disrupted protein product. Loss-of-function variants in PALB2 are known to be pathogenic (PMID: 17200668, 17200671, 17200672, 24136930, 25099575). This variant is present in population databases (rs180177132, gnomAD 0.01%). This premature translational stop signal has been observed in individual(s) with breast cancer (PMID: 21165770, 17200668, 21409391, 23471749, 18302019, 19264984, 22241545, 26283626, 24206657, 25099575, 19763819, 26250988, 23787919, 23448497, 26786923, 27621404, 25575445, 28158555, 32081490, 32581362, 25525159, 25225577, 24415441, 23935381, 21932393, 24870022, 20346647, 24556926, 24136930, 24061862, 26534844, 25356972, 17200671, 21182766, 21285249, 26787237, 27547810, 27595995, 28019080, 28135136, 27099641, 26985847, 27296296, 27433846, 26681312, 26315354, 28864920, 28779002, 29431189, 29909963, 30665703, 29961768, 30322717, 31090900, 31757951, 31263054, 29625052, 26689913, 32426482, 31447099, 32832836, 32338768) . It has also been observed to segregate with disease in related individuals. ClinVar contains an entry for this variant (Variation ID: 126711). Published functional studies demonstrate a damaging effect, abnormal cellular localization, diminished homology repair efficiency, weak protein expression (PMID: 21285249, 23448497). For these reasons, this variant has been classified as Pathogenic.
Comment:
This variant causes a nonsense mutation in exon 10 and is also predicted to disrupt splicing at the intron 10 splice donor site in the PALB2 gene. RNA studies have reported that this variant causes splicing defects resulting in an in-frame deletion of exon 10 or exons 9 and 10, impacting the WD40 domain of PALB2, or an out-of-frame transcript due to the use of a cryptic donor site within exon 10 that results in a premature translational stop signal. Normally spliced transcript from the mutant allele has a nonsense mutation due to the coding sequence change (PMID: 21285249, 23448497, 31843900). This variant has been observed in over a dozen individuals affected with early-onset breast cancer with positive history of breast and other cancers (PMID: 17200668, 21182766, 21285249, 22241545, 23471749, 25225577, 28864920; DOI: 10.1016/j.gimo.2023.100849), an individual affected with familial pancreatic cancer (PMID: 25356972), and in two individuals affected with ovarian cancer and two unaffected individuals (PMID: 26315354). This variant has been detected in a breast cancer case-control meta-analysis in 31/60466 cases and 6/53461 unaffected individuals with an estimated odds ratio of 4.57 (95% CI 1.906 to 10.955) (PMID: 33471991; Leiden Open Variation Database DB-ID PALB2_010150). This variant has been shown to segregate with breast cancer in families (PMID: 21182766, 26534844). This variant has been identified in 17/282756 chromosomes in the general population by the Genome Aggregation Database (gnomAD), predominantly in non-Finnish Europeans and also in African-Americans. Loss of PALB2 function is a known mechanism of disease (clinicalgenome.org). Based on the available evidence, this variant is classified as Pathogenic.
Comment:
The PALB2 c.3113G>A (p.Trp1038Ter) variant is a stop-gained variant that is predicted to result in a premature termination of the protein. Across a selection of the available literature, the c.3113G>A (p.Trp1038Ter) variant has been identified in a heterozygous state in at least 21 probands from 13 unrelated families (Rahman et al. 2007; Southey et al. 2010; Teo et al. 2013; Hartley et al. 2014). Affected individuals were found to have a variety of cancers including breast, ovarian, and pancreatic. The p.Trp1038Ter variant was absent from 1724 healthy control subjects and is reported at a frequency of 0.000125 in the African population of the Genome Aggregation Database. Experimental studies on RNA isolated from patient derived lymphoblastoid cell lines have shown that the p.Trp1038Ter variant caused altered splicing (Casadei et al. 2011; Teo et al. 2013). Although this variant has not been reported in any probands with Fanconi anemia, it is known that PALB2 heterozygous variants can also confer carrier status for Fanconi anemia. Due to the potential impact of stop-gained variants and the evidence from the literature, this variant is classified as pathogenic for PALB2-related disorders. This variant was observed by ICSL as part of a predisposition screen in an ostensibly healthy population.
Comment:
DNA sequence analysis of the PALB2 gene demonstrated a sequence change, c.3113G>A, located in the consensus splice site of the exon. Functional studies have demonstrated that this sequence change affects normal splicing and creates different PALB2 transcripts in lymphoblastoid cells derived from individuals with breast cancer, including one with complete skipping of exon 10 (deletion of 117 bp), another with an alternative splice site within exon 10 (out-of-frame deletion of 31 bp), and one which results in an immediate stop at amino acid position 1038 (p.Trp1038*) (PMID: 21285249, 23448497). The p.Trp1038* change has been reported in individuals and families with breast cancer, with evidence of co-segregation with disease (PMID: 17200668, 21182766, 21285249, 23471749). This sequence change has been observed in the gnomAD database with a frequency of 0.011% in the European sub-population (dbSNP rs180177132). These collective evidences suggest that this sequence change is pathogenic.
Comment:
PVS1, PS4
Comment:
This nonsense variant causes the premature termination of PALB2 protein synthesis. In the published literature, the variant has been reported in one healthy individual, in a control group, and in individuals affected with breast or prostate cancer (PMIDs: 30665703 (2019), 27433846 (2016), 26283626 (2015), 25225577 (2014), and 21182766 (2010)). Additionally, splicing studies have shown that this variant produces three alternate transcripts which either result in premature termination of protein synthesis or deletion of exon 10 (PMIDs: 23471749 (2013) and 21285249 (2011)). Based on this information, this variant is classified as pathogenic.
Comment:
This variant is considered pathogenic. This variant creates a termination codon and is predicted to result in premature protein truncation.
Comment:
This sequence change creates a premature translational stop signal (p.Trp1038*) in the PALB2 gene. RNA analysis indicates that this premature translational stop signal induces altered splicing and may result in an absent or disrupted protein product. This variant is present in population databases (rs180177132, gnomAD 0.01%). This premature translational stop signal has been observed in individual(s) with breast cancer (PMID: 17200668, 21182766, 21285249, 23471749). It has also been observed to segregate with disease in related individuals. ClinVar contains an entry for this variant (Variation ID: 126711). Studies have shown that this premature translational stop signal results in activation of a cryptic splice site and introduces a premature termination codon (Invitae). The resulting mRNA is expected to undergo nonsense-mediated decay. For these reasons, this variant has been classified as Pathogenic.
Comment:
The c.3113G>A pathogenic mutation (also known as p.W1038*), located in coding exon 10 of the PALB2 gene, results from a G to A substitution at nucleotide position 3113. This changes the amino acid from a tryptophan to a stop codon within coding exon 10. This change occurs in the last base pair of coding exon 10, and has been shown to generate three aberrant mRNA isoforms: one with complete skipping of exon 10 (deletion of 117 bp), another which uses an alternative splice site within exon 10 (out-of-frame deletion of 31 bp) (Casadei S et al. Cancer Res. 2011 Mar;71:2222-9; Teo ZL et al. Breast Cancer Res. 2013 Feb;15:R17; Casadei S et al. Proc Natl Acad Sci U S A, 2019 Dec). In addition, this mutation has been identified in multiple early-onset breast cancer probands with significant breast cancer family histories (Hartley T et al. Hered Cancer Clin Pract. 2014;12:19; Teo ZL et al. Fam. Cancer. 2013 Dec;12:587-95; Rahman N et al. Nat. Genet. 2007 Feb;39:165-7; Wong MW et al. Breast Cancer Res. Treat. 2011 Jun;127:853-9; Zhen DB et al. Genet. Med. 2015 Jul;17:569-77; Nguyen-Dumont T et al. Breast Cancer Res. Treat. 2015 Jan;149:547-54; Thompson ER et al. Breast Cancer Res. 2015 Aug;17:111; Ding YC et al. Fam. Cancer. 2018 Apr;17:187-195). This alteration has also been reported in a kindred with at least two family members affected with pancreatic cancer (Zhen DB et al. Genet. Med. 2015 Jul;17:569-77). In addition to the clinical data presented in the literature, this alteration is expected to result in loss of function by premature protein truncation or nonsense-mediated mRNA decay. As such, this alteration is interpreted as a disease-causing mutation.
Comment:
PVS1,PS4
Comment:
PVS1,PS4
Comment:
PVS1,PS4
Comment:
This c.3113G>A (p.Trp1038*) variant has previously been reported in 16 (out of 4,178 total) patients with breast cancer [PMID 17200668, 21285249, 25575445, 23448497, 26283626, 21409391, 23471749]. The cumulative risk for carrier of this variant was estimated as 91% by age 70 with a median age of onset of 42 years old reported in an Australian population [PMID 23471749]. This c.3113G>A is located in exon 10 of the PALB2 gene at the exon/intron junction with intron 10. Transcripts analysis showed that this variant not only produces a stop codon at amino acid position 1038 but also produces two additional PALB2 transcripts including an alternative splicing and a complete deletion of exon 10, all three leading to a loss of function of the protein [PMID 23471749]. The c.3113G>A (p.Trp1038*) variant has been observed in two Europeans and one African individual at the heterozygous state in the ExAC population database (http://exac.broadinstitute.org/variant/16-23632683-C-T). It is thus interpreted as a pathogenic variant.
Comment:
Application of AMCG guidelines 2015. Used other ClinVar submission evidence where relevant. Loss of heterozygosity in tumours or immunohistochemistry abnormalities considered functional evidence of pathogenicity.
Comment:
The PALB2 c.3113G>A variant is predicted to result in premature protein termination (p.Trp1038*). This variant has been reported in multiple individuals with a personal and/or family history of breast cancer (Rahman et al. 2007. PubMed ID: 17200668; Southey et al. 2010. PubMed ID: 21182766; Teo et al. 2013. PubMed ID: 23448497; Teo et al. 2013. PubMed ID: 23471749; Hartley et al. 2014. PubMed ID: 25225577). Functional studies showed that this variant alters splicing and results in three different mRNA transcripts (Casadei et al. 2011. PubMed ID: 21285249). This variant is reported in 0.012% of alleles in individuals of African descent in gnomAD and is interpreted as pathogenic in ClinVar by the ClinGen Hereditary Breast, Ovarian and Pancreatic Cancer Variant Curation Expert Panel (https://www.ncbi.nlm.nih.gov/clinvar/variation/126711/). Nonsense variants in PALB2 are expected to be pathogenic. This variant is interpreted as pathogenic.
Comment:
Curators: Marc Tischkowitz, Arleen D. Auerbach. Submitters to LOVD: James Whitworth, kConFab - Heather Thorne, Marc Tischkowitz.
Comment:
Variant interpreted as Pathogenic and reported on 04-13-2020 by Invitae. GenomeConnect-Invitae Patient Insights Network assertions are reported exactly as they appear on the patient-provided report from the testing laboratory. Registry team members make no attempt to reinterpret the clinical significance of the variant. Phenotypic details are available under supporting information.
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. |
Comment:
The c.3113G>A (p.Trp1038Ter) variant in PALB2 occurs at the last nucleotide of exon 10. It is predicted to cause skipping of biologically-relevant exon 10, as well as partial deletion of exon 10, resulting in a frameshift leading to nonsense mediated decay in a gene in which loss-of-function is an established disease mechanism. This prediction is confirmed by RT-PCR analysis (PMID: 21285249, 23448497). This alteration results in a termination codon upstream of the most C-terminus pathogenic alteration (PALB2 p.Tyr1183*), as classified by the HBOP VCEP, and is expected to be more deleterious. This variant is non-functional in multiple different protein assays (PMID 31757951); however due to a lack of positive missense controls with known clinical impact, these protein assays do not meet the requirements for use by the HBOP VCEP. The prevalence of the variant in affected individuals is significantly increased compared with the prevalence in controls [OR=4.21, 95% CI:1.84 - 9.60] (PMID: 27595995). The highest population filtering allele frequency in gnomAD v2.1.1 is 0.00006665 in the European (Non-Finnish) population (PM2_Supporting, BS1, and BA1 are not met). In summary, this variant meets criteria to be classified as pathogenic for autosomal dominant hereditary breast and pancreatic cancer and autosomal recessive FANCN based on the ACMG/AMP criteria applied, as specified by the HBOP VCEP. (PVS1(RNA), PS4, PM5_Supporting).
Comment on condition
Cases recruited through familial breast cancer clinics in Australia; assessed as having a high probability of familial breast cancer
Comment:
Observed in multiple individuals with a personal and/or family history of breast cancer and is considered a pathogenic founder variant in the British population (Rahman 2007, Southey 2010, Wong 2011, Teo 2013, Hartley 2014, Southey 2016, Winship 2016); Published functional studies demonstrate a damaging effect: reduced RAD51 foci formation, abnormal cellular localization, diminished homology repair efficiency, weak protein expression (Pauty 2017, Boonen 2019); This variant is associated with the following publications: (PMID: 21165770, 17200668, 21409391, 23471749, 18302019, 19264984, 22241545, 26283626, 24206657, 25099575, 19763819, 26250988, 23787919, 23448497, 26786923, 27621404, 25575445, 28158555, 32081490, 32581362, 25525159, 25225577, 24415441, 23935381, 21932393, 24870022, 20346647, 24556926, 24136930, 24061862, 26534844, 25356972, 17200671, 21182766, 21285249, 26787237, 27547810, 27595995, 28019080, 28135136, 27099641, 26985847, 27296296, 27433846, 26681312, 26315354, 28864920, 28779002, 29431189, 29909963, 30665703, 29961768, 30322717, 31090900, 31757951, 31263054, 29625052, 26689913, 32426482, 31447099, 32832836, 32338768)
Comment:
A known pathogenic mutation was detected in the PALB2 gene (c.3113G>A).This sequence change creates a premature translational stop signal (p.Trp1038*) in the PALB2 gene. It is expected to result in an absent or disrupted protein product. Loss-of-function variants in PALB2 are known to be pathogenic (PMID: 17200668, 17200671, 17200672, 24136930, 25099575). This variant is present in population databases (rs180177132, gnomAD 0.01%). This premature translational stop signal has been observed in individual(s) with breast cancer (PMID: 21165770, 17200668, 21409391, 23471749, 18302019, 19264984, 22241545, 26283626, 24206657, 25099575, 19763819, 26250988, 23787919, 23448497, 26786923, 27621404, 25575445, 28158555, 32081490, 32581362, 25525159, 25225577, 24415441, 23935381, 21932393, 24870022, 20346647, 24556926, 24136930, 24061862, 26534844, 25356972, 17200671, 21182766, 21285249, 26787237, 27547810, 27595995, 28019080, 28135136, 27099641, 26985847, 27296296, 27433846, 26681312, 26315354, 28864920, 28779002, 29431189, 29909963, 30665703, 29961768, 30322717, 31090900, 31757951, 31263054, 29625052, 26689913, 32426482, 31447099, 32832836, 32338768) . It has also been observed to segregate with disease in related individuals. ClinVar contains an entry for this variant (Variation ID: 126711). Published functional studies demonstrate a damaging effect, abnormal cellular localization, diminished homology repair efficiency, weak protein expression (PMID: 21285249, 23448497). For these reasons, this variant has been classified as Pathogenic.
Comment:
This variant causes a nonsense mutation in exon 10 and is also predicted to disrupt splicing at the intron 10 splice donor site in the PALB2 gene. RNA studies have reported that this variant causes splicing defects resulting in an in-frame deletion of exon 10 or exons 9 and 10, impacting the WD40 domain of PALB2, or an out-of-frame transcript due to the use of a cryptic donor site within exon 10 that results in a premature translational stop signal. Normally spliced transcript from the mutant allele has a nonsense mutation due to the coding sequence change (PMID: 21285249, 23448497, 31843900). This variant has been observed in over a dozen individuals affected with early-onset breast cancer with positive history of breast and other cancers (PMID: 17200668, 21182766, 21285249, 22241545, 23471749, 25225577, 28864920; DOI: 10.1016/j.gimo.2023.100849), an individual affected with familial pancreatic cancer (PMID: 25356972), and in two individuals affected with ovarian cancer and two unaffected individuals (PMID: 26315354). This variant has been detected in a breast cancer case-control meta-analysis in 31/60466 cases and 6/53461 unaffected individuals with an estimated odds ratio of 4.57 (95% CI 1.906 to 10.955) (PMID: 33471991; Leiden Open Variation Database DB-ID PALB2_010150). This variant has been shown to segregate with breast cancer in families (PMID: 21182766, 26534844). This variant has been identified in 17/282756 chromosomes in the general population by the Genome Aggregation Database (gnomAD), predominantly in non-Finnish Europeans and also in African-Americans. Loss of PALB2 function is a known mechanism of disease (clinicalgenome.org). Based on the available evidence, this variant is classified as Pathogenic.
Comment:
The PALB2 c.3113G>A (p.Trp1038Ter) variant is a stop-gained variant that is predicted to result in a premature termination of the protein. Across a selection of the available literature, the c.3113G>A (p.Trp1038Ter) variant has been identified in a heterozygous state in at least 21 probands from 13 unrelated families (Rahman et al. 2007; Southey et al. 2010; Teo et al. 2013; Hartley et al. 2014). Affected individuals were found to have a variety of cancers including breast, ovarian, and pancreatic. The p.Trp1038Ter variant was absent from 1724 healthy control subjects and is reported at a frequency of 0.000125 in the African population of the Genome Aggregation Database. Experimental studies on RNA isolated from patient derived lymphoblastoid cell lines have shown that the p.Trp1038Ter variant caused altered splicing (Casadei et al. 2011; Teo et al. 2013). Although this variant has not been reported in any probands with Fanconi anemia, it is known that PALB2 heterozygous variants can also confer carrier status for Fanconi anemia. Due to the potential impact of stop-gained variants and the evidence from the literature, this variant is classified as pathogenic for PALB2-related disorders. This variant was observed by ICSL as part of a predisposition screen in an ostensibly healthy population.
Comment:
DNA sequence analysis of the PALB2 gene demonstrated a sequence change, c.3113G>A, located in the consensus splice site of the exon. Functional studies have demonstrated that this sequence change affects normal splicing and creates different PALB2 transcripts in lymphoblastoid cells derived from individuals with breast cancer, including one with complete skipping of exon 10 (deletion of 117 bp), another with an alternative splice site within exon 10 (out-of-frame deletion of 31 bp), and one which results in an immediate stop at amino acid position 1038 (p.Trp1038*) (PMID: 21285249, 23448497). The p.Trp1038* change has been reported in individuals and families with breast cancer, with evidence of co-segregation with disease (PMID: 17200668, 21182766, 21285249, 23471749). This sequence change has been observed in the gnomAD database with a frequency of 0.011% in the European sub-population (dbSNP rs180177132). These collective evidences suggest that this sequence change is pathogenic.
Comment:
PVS1, PS4
Comment:
This nonsense variant causes the premature termination of PALB2 protein synthesis. In the published literature, the variant has been reported in one healthy individual, in a control group, and in individuals affected with breast or prostate cancer (PMIDs: 30665703 (2019), 27433846 (2016), 26283626 (2015), 25225577 (2014), and 21182766 (2010)). Additionally, splicing studies have shown that this variant produces three alternate transcripts which either result in premature termination of protein synthesis or deletion of exon 10 (PMIDs: 23471749 (2013) and 21285249 (2011)). Based on this information, this variant is classified as pathogenic.
Comment:
This variant is considered pathogenic. This variant creates a termination codon and is predicted to result in premature protein truncation.
Comment:
This sequence change creates a premature translational stop signal (p.Trp1038*) in the PALB2 gene. RNA analysis indicates that this premature translational stop signal induces altered splicing and may result in an absent or disrupted protein product. This variant is present in population databases (rs180177132, gnomAD 0.01%). This premature translational stop signal has been observed in individual(s) with breast cancer (PMID: 17200668, 21182766, 21285249, 23471749). It has also been observed to segregate with disease in related individuals. ClinVar contains an entry for this variant (Variation ID: 126711). Studies have shown that this premature translational stop signal results in activation of a cryptic splice site and introduces a premature termination codon (Invitae). The resulting mRNA is expected to undergo nonsense-mediated decay. For these reasons, this variant has been classified as Pathogenic.
Comment:
The c.3113G>A pathogenic mutation (also known as p.W1038*), located in coding exon 10 of the PALB2 gene, results from a G to A substitution at nucleotide position 3113. This changes the amino acid from a tryptophan to a stop codon within coding exon 10. This change occurs in the last base pair of coding exon 10, and has been shown to generate three aberrant mRNA isoforms: one with complete skipping of exon 10 (deletion of 117 bp), another which uses an alternative splice site within exon 10 (out-of-frame deletion of 31 bp) (Casadei S et al. Cancer Res. 2011 Mar;71:2222-9; Teo ZL et al. Breast Cancer Res. 2013 Feb;15:R17; Casadei S et al. Proc Natl Acad Sci U S A, 2019 Dec). In addition, this mutation has been identified in multiple early-onset breast cancer probands with significant breast cancer family histories (Hartley T et al. Hered Cancer Clin Pract. 2014;12:19; Teo ZL et al. Fam. Cancer. 2013 Dec;12:587-95; Rahman N et al. Nat. Genet. 2007 Feb;39:165-7; Wong MW et al. Breast Cancer Res. Treat. 2011 Jun;127:853-9; Zhen DB et al. Genet. Med. 2015 Jul;17:569-77; Nguyen-Dumont T et al. Breast Cancer Res. Treat. 2015 Jan;149:547-54; Thompson ER et al. Breast Cancer Res. 2015 Aug;17:111; Ding YC et al. Fam. Cancer. 2018 Apr;17:187-195). This alteration has also been reported in a kindred with at least two family members affected with pancreatic cancer (Zhen DB et al. Genet. Med. 2015 Jul;17:569-77). In addition to the clinical data presented in the literature, this alteration is expected to result in loss of function by premature protein truncation or nonsense-mediated mRNA decay. As such, this alteration is interpreted as a disease-causing mutation.
Comment:
PVS1,PS4
Comment:
PVS1,PS4
Comment:
PVS1,PS4
Comment:
This c.3113G>A (p.Trp1038*) variant has previously been reported in 16 (out of 4,178 total) patients with breast cancer [PMID 17200668, 21285249, 25575445, 23448497, 26283626, 21409391, 23471749]. The cumulative risk for carrier of this variant was estimated as 91% by age 70 with a median age of onset of 42 years old reported in an Australian population [PMID 23471749]. This c.3113G>A is located in exon 10 of the PALB2 gene at the exon/intron junction with intron 10. Transcripts analysis showed that this variant not only produces a stop codon at amino acid position 1038 but also produces two additional PALB2 transcripts including an alternative splicing and a complete deletion of exon 10, all three leading to a loss of function of the protein [PMID 23471749]. The c.3113G>A (p.Trp1038*) variant has been observed in two Europeans and one African individual at the heterozygous state in the ExAC population database (http://exac.broadinstitute.org/variant/16-23632683-C-T). It is thus interpreted as a pathogenic variant.
Comment:
Application of AMCG guidelines 2015. Used other ClinVar submission evidence where relevant. Loss of heterozygosity in tumours or immunohistochemistry abnormalities considered functional evidence of pathogenicity.
Comment:
The PALB2 c.3113G>A variant is predicted to result in premature protein termination (p.Trp1038*). This variant has been reported in multiple individuals with a personal and/or family history of breast cancer (Rahman et al. 2007. PubMed ID: 17200668; Southey et al. 2010. PubMed ID: 21182766; Teo et al. 2013. PubMed ID: 23448497; Teo et al. 2013. PubMed ID: 23471749; Hartley et al. 2014. PubMed ID: 25225577). Functional studies showed that this variant alters splicing and results in three different mRNA transcripts (Casadei et al. 2011. PubMed ID: 21285249). This variant is reported in 0.012% of alleles in individuals of African descent in gnomAD and is interpreted as pathogenic in ClinVar by the ClinGen Hereditary Breast, Ovarian and Pancreatic Cancer Variant Curation Expert Panel (https://www.ncbi.nlm.nih.gov/clinvar/variation/126711/). Nonsense variants in PALB2 are expected to be pathogenic. This variant is interpreted as pathogenic.
Comment:
Curators: Marc Tischkowitz, Arleen D. Auerbach. Submitters to LOVD: James Whitworth, kConFab - Heather Thorne, Marc Tischkowitz.
Comment:
Variant interpreted as Pathogenic and reported on 04-13-2020 by Invitae. GenomeConnect-Invitae Patient Insights Network assertions are reported exactly as they appear on the patient-provided report from the testing laboratory. Registry team members make no attempt to reinterpret the clinical significance of the variant. Phenotypic details are available under supporting information.
Citations for germline classification of this variant
Help| Title | Author | Journal | Year | Link |
|---|---|---|---|---|
| Breast Cancer Risk Genes - Association Analysis in More than 113,000 Women. | Breast Cancer Association Consortium | The New England journal of medicine | 2021 | PMID: 33471991 |
| Germline Sequencing DNA Repair Genes in 5545 Men With Aggressive and Nonaggressive Prostate Cancer. | Darst BF | Journal of the National Cancer Institute | 2021 | PMID: 32853339 |
| Pathogenic Variants in Cancer Predisposition Genes and Prostate Cancer Risk in Men of African Ancestry. | Matejcic M | JCO precision oncology | 2020 | PMID: 32832836 |
| Whole-genome sequencing of patients with rare diseases in a national health system. | Turro E | Nature | 2020 | PMID: 32581362 |
| Defined lifestyle and germline factors predispose Asian populations to gastric cancer. | Suzuki A | Science advances | 2020 | PMID: 32426482 |
| Rare germline genetic variants and risk of aggressive prostate cancer. | Nguyen-Dumont T | International journal of cancer | 2020 | PMID: 32338768 |
| Whole Exome Sequencing Identifies Candidate Genes Associated with Hereditary Predisposition to Uveal Melanoma. | Abdel-Rahman MH | Ophthalmology | 2020 | PMID: 32081490 |
| Characterization of splice-altering mutations in inherited predisposition to cancer. | Casadei S | Proceedings of the National Academy of Sciences of the United States of America | 2019 | PMID: 31843900 |
| Functional analysis of genetic variants in the high-risk breast cancer susceptibility gene PALB2. | Boonen RACM | Nature communications | 2019 | PMID: 31757951 |
| Harmonizing Clinical Sequencing and Interpretation for the eMERGE III Network. | eMERGE Consortium. Electronic address: agibbs@bcm.edu | American journal of human genetics | 2019 | PMID: 31447099 |
| Frequency of Pathogenic Germline Variants in CDH1, BRCA2, CHEK2, PALB2, BRCA1, and TP53 in Sporadic Lobular Breast Cancer. | Petridis C | Cancer epidemiology, biomarkers & prevention : a publication of the American Association for Cancer Research, cosponsored by the American Society of Preventive Oncology | 2019 | PMID: 31263054 |
| Whole-genome sequencing reveals clinically relevant insights into the aetiology of familial breast cancers. | Nones K | Annals of oncology : official journal of the European Society for Medical Oncology | 2019 | PMID: 31090900 |
| Assessing the Pathogenicity, Penetrance, and Expressivity of Putative Disease-Causing Variants in a Population Setting. | Wright CF | American journal of human genetics | 2019 | PMID: 30665703 |
| Germline cancer susceptibility gene variants, somatic second hits, and survival outcomes in patients with resected pancreatic cancer. | Yurgelun MB | Genetics in medicine : official journal of the American College of Medical Genetics | 2019 | PMID: 29961768 |
| Germline pathogenic variants identified in women with ovarian tumors. | Carter NJ | Gynecologic oncology | 2018 | PMID: 30322717 |
| Comprehensive Cancer-Predisposition Gene Testing in an Adult Multiple Primary Tumor Series Shows a Broad Range of Deleterious Variants and Atypical Tumor Phenotypes. | Whitworth J | American journal of human genetics | 2018 | PMID: 29909963 |
| Pathogenic Germline Variants in 10,389 Adult Cancers. | Huang KL | Cell | 2018 | PMID: 29625052 |
| Molecular analysis of PALB2-associated breast cancers. | Lee JEA | The Journal of pathology | 2018 | PMID: 29431189 |
| Discovery of mutations in homologous recombination genes in African-American women with breast cancer. | Ding YC | Familial cancer | 2018 | PMID: 28864920 |
| Rare, protein-truncating variants in ATM, CHEK2 and PALB2, but not XRCC2, are associated with increased breast cancer risks. | Decker B | Journal of medical genetics | 2017 | PMID: 28779002 |
| Cancer-causing mutations in the tumor suppressor PALB2 reveal a novel cancer mechanism using a hidden nuclear export signal in the WD40 repeat motif. | Pauty J | Nucleic acids research | 2017 | PMID: 28158555 |
| PALB2, CHEK2 and ATM rare variants and cancer risk: data from COGS. | Southey MC | Journal of medical genetics | 2016 | PMID: 27595995 |
| Inherited DNA-Repair Gene Mutations in Men with Metastatic Prostate Cancer. | Pritchard CC | The New England journal of medicine | 2016 | PMID: 27433846 |
| Pathogenic and likely pathogenic variant prevalence among the first 10,000 patients referred for next-generation cancer panel testing. | Susswein LR | Genetics in medicine : official journal of the American College of Medical Genetics | 2016 | PMID: 26681312 |
| Targeted massively parallel sequencing of a panel of putative breast cancer susceptibility genes in a large cohort of multiple-case breast and ovarian cancer families. | Li J | Journal of medical genetics | 2016 | PMID: 26534844 |
| Patterns and functional implications of rare germline variants across 12 cancer types. | Lu C | Nature communications | 2015 | PMID: 26689913 |
| Germline Mutations in the BRIP1, BARD1, PALB2, and NBN Genes in Women With Ovarian Cancer. | Ramus SJ | Journal of the National Cancer Institute | 2015 | PMID: 26315354 |
| Prevalence of PALB2 mutations in Australian familial breast cancer cases and controls. | Thompson ER | Breast cancer research : BCR | 2015 | PMID: 26283626 |
| Mutation screening of PALB2 in clinically ascertained families from the Breast Cancer Family Registry. | Nguyen-Dumont T | Breast cancer research and treatment | 2015 | PMID: 25575445 |
| RNA splicing. The human splicing code reveals new insights into the genetic determinants of disease. | Xiong HY | Science (New York, N.Y.) | 2015 | PMID: 25525159 |
| BRCA1, BRCA2, PALB2, and CDKN2A mutations in familial pancreatic cancer: a PACGENE study. | Zhen DB | Genetics in medicine : official journal of the American College of Medical Genetics | 2015 | PMID: 25356972 |
| Mutation analysis of PALB2 in BRCA1 and BRCA2-negative breast and/or ovarian cancer families from Eastern Ontario, Canada. | Hartley T | Hereditary cancer in clinical practice | 2014 | PMID: 25225577 |
| Breast-cancer risk in families with mutations in PALB2. | Antoniou AC | The New England journal of medicine | 2014 | PMID: 25099575 |
| Comprehensive sequencing of PALB2 in patients with breast cancer suggests PALB2 mutations explain a subset of hereditary breast cancer. | Fernandes PH | Cancer | 2014 | PMID: 24415441 |
| Hi-Plex for high-throughput mutation screening: application to the breast cancer susceptibility gene PALB2. | Nguyen-Dumont T | BMC medical genomics | 2013 | PMID: 24206657 |
| Tumour morphology predicts PALB2 germline mutation status. | Teo ZL | British journal of cancer | 2013 | PMID: 23787919 |
| The incidence of PALB2 c.3113G>A in women with a strong family history of breast and ovarian cancer attending familial cancer centres in Australia. | Teo ZL | Familial cancer | 2013 | PMID: 23471749 |
| Prevalence of PALB2 mutations in Australasian multiple-case breast cancer families. | Teo ZL | Breast cancer research : BCR | 2013 | PMID: 23448497 |
| Rare germline mutations in PALB2 and breast cancer risk: a population-based study. | Tischkowitz M | Human mutation | 2012 | PMID: 22241545 |
| BRIP1, PALB2, and RAD51C mutation analysis reveals their relative importance as genetic susceptibility factors for breast cancer. | Wong MW | Breast cancer research and treatment | 2011 | PMID: 21409391 |
| Contribution of inherited mutations in the BRCA2-interacting protein PALB2 to familial breast cancer. | Casadei S | Cancer research | 2011 | PMID: 21285249 |
| A PALB2 mutation associated with high risk of breast cancer. | Southey MC | Breast cancer research : BCR | 2010 | PMID: 21182766 |
| Exomic sequencing identifies PALB2 as a pancreatic cancer susceptibility gene. | Jones S | Science (New York, N.Y.) | 2009 | PMID: 19264984 |
| Analysis of FANCB and FANCN/PALB2 fanconi anemia genes in BRCA1/2-negative Spanish breast cancer families. | García MJ | Breast cancer research and treatment | 2009 | PMID: 18302019 |
| PALB2, which encodes a BRCA2-interacting protein, is a breast cancer susceptibility gene. | Rahman N | Nature genetics | 2007 | PMID: 17200668 |
| [Endemic goiter and the physical development of children]. | Januszko T | Roczniki Akademii Medycznej im. Juliana Marchlewskiego w Bialymstoku | 1977 | PMID: 100849 |
| http://www.egl-eurofins.com/emvclass/emvclass.php?approved_symbol=PALB2 | - | - | - | - |
| https://erepo.clinicalgenome.org/evrepo/ui/interpretation/213dcc73-14c2-426c-a6e0-46d72f288c00 | - | - | - | - |
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Text-mined citations for rs180177132 ...
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Record last updated Nov 10, 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.