[Paragraph-level] PMCID: PMC3293822 Section: RESULTS PassageIndex: 22

Evidence Type(s): Functional, Oncogenic

Justification: Functional: The passage discusses how the variants P269S, P390L, P514S, and S515G alter transactivational activity in response to DHT, indicating a change in molecular function. Oncogenic: The mention of the variants impacting AR signaling suggests a role in tumor development or progression, as alterations in androgen receptor signaling are often associated with cancer.

Gene→Variant (gene-first): 367:P269S 367:P390L 367:P514S 10514:S515G

Genes: 367 10514

Variants: P269S P390L P514S S515G

[Paragraph-level] PMCID: PMC3293822 Section: RESULTS PassageIndex: 21

Evidence Type(s): Functional, Oncogenic

Justification: Functional: The passage discusses how the S296R mutation alters interaction with the co-repressor N-CoR, causing reduced transactivational activity, and how the P340L mutation affects binding with TFIIF, indicating changes in molecular function. Oncogenic: The passage describes how the P340L mutation can drive prostate cancer progression through reduced growth suppression, indicating its role in tumor development.

Gene→Variant (gene-first): 207:D221H 367:D528G 367:E198G 367:P269S 2232:P340L 9611:P504L 367:S296R 367:S334P

Genes: 207 367 2232 9611

Variants: D221H D528G E198G P269S P340L P504L S296R S334P

[Paragraph-level] PMCID: PMC3293822 Section: RESULTS PassageIndex: 20

Evidence Type(s): Functional, Oncogenic

Justification: Functional: The passage discusses how the mutations L57Q, E198G, D221H, A234T, S296R, S334P, P340L, P504L, and D528G result in loss of function, indicating that these variants alter molecular or biochemical function. Oncogenic: The mention of mutations leading to loss of function and their association with transactivational ability suggests a role in tumor development or progression, particularly in the context of the mutations being present in AIS (androgens insensitivity syndrome).

Gene→Variant (gene-first): 1387:A234T 207:D221H 367:D528G 367:E198G 367:L57Q 2232:P340L 9611:P504L 367:S296R 367:S334P

Genes: 1387 207 367 2232 9611

Variants: A234T D221H D528G E198G L57Q P340L P504L S296R S334P

[Paragraph-level] PMCID: PMC3293822 Section: RESULTS PassageIndex: 19

Evidence Type(s): Functional, Oncogenic

Justification: Functional: The passage indicates that the mutation M537R shows a 23% gain of function at a specific concentration of DHT, suggesting an alteration in molecular or biochemical function. Oncogenic: The mention of gain of function in a low androgen environment implies that the variant may contribute to tumor development or progression, characteristic of oncogenic behavior.

Gene→Variant (gene-first): 367:G166S 367:M537R

Genes: 367

Variants: G166S M537R

[Paragraph-level] PMCID: PMC6547681 Section: RESULTS PassageIndex: 13

Evidence Type(s): Functional, Oncogenic

Justification: Functional: The passage discusses how the G101V variant alters the binding affinity of the BCL-2 protein to the drug S55746, indicating a change in molecular function related to drug interaction. Oncogenic: The G101V variant is implicated in the context of tumor development as it affects the binding of a therapeutic agent, suggesting its role in cancer progression.

Gene→Variant (gene-first): 596:E152 596:E152A 596:G101V 596:V101

Genes: 596

Variants: E152 E152A G101V V101

[Paragraph-level] PMCID: PMC3219854 Section: ABSTRACT PassageIndex: 1

Evidence Type(s): Oncogenic, Diagnostic

Justification: Oncogenic: The passage describes a missense point mutation (Trp557Gly) identified in the KIT gene associated with neurofibromatosis type 1-related gastrointestinal stromal tumors (GISTs), indicating its contribution to tumor development. Diagnostic: The variant Trp557Gly is mentioned in the context of identifying and characterizing the tumors associated with neurofibromatosis type 1, suggesting its role in defining the disease subtype.

Gene→Variant (gene-first): 3815:Trp557Gly

Genes: 3815

Variants: Trp557Gly

[Paragraph-level] PMCID: PMC4477877 Section: RESULTS PassageIndex: 6

Evidence Type(s): Diagnostic, Oncogenic

Justification: Diagnostic: The passage discusses the identification of a heterozygous deletion in ETV6 that is associated with the diagnosis of acute lymphoblastic leukemia (ALL) in the proband, indicating its role in defining the disease. Oncogenic: The variant N385fs is described as leading to a truncation of the ETV6 protein, which is implicated in tumor development, specifically in the context of acute lymphoblastic leukemia (ALL).

Gene→Variant (gene-first): 2120:N385fs 2120:c.1153-5_1153_1delAACAG

Genes: 2120

Variants: N385fs c.1153-5_1153_1delAACAG

[Paragraph-level] PMCID: PMC4477877 Section: RESULTS PassageIndex: 5

Evidence Type(s): Diagnostic, Predisposing, Oncogenic

Justification: Diagnostic: The variant 415 T>C is associated with thrombocytopenia and leukemia, as it was identified in all affected family members and absent in unaffected individuals, indicating its role in defining the disease. Predisposing: The passage describes the variant as being present in affected individuals and absent in unaffected individuals, suggesting it confers inherited risk for developing the disease, although it does not explicitly state that it is germline. Oncogenic: The variant is described in the context of leukemia, indicating its potential role in tumor development or progression, particularly as it is a missense mutation in a gene associated with leukemia.

Gene→Variant (gene-first): 10320:415 T>C 2120:L349P 2120:c. T1046C 2120:proline for leucine at codon 349

Genes: 10320 2120

Variants: 415 T>C L349P c. T1046C proline for leucine at codon 349

[Paragraph-level] PMCID: PMC4477877 Section: ABSTRACT PassageIndex: 1

Evidence Type(s): Predisposing, Oncogenic, Functional

Justification: Predisposing: The passage describes a germline ETV6 p. L349P mutation identified in a kindred affected by thrombocytopenia and ALL, indicating an inherited risk for developing the disease. Oncogenic: The ETV6 p. N385fs mutation was found in leukemic cells and is associated with the deletion of wild type ETV6, suggesting its contribution to tumor development in the context of leukemia. Functional: The enforced expression of the ETV6 mutants showed impaired nuclear localization and a significantly reduced ability to regulate the transcription of ETV6 target genes, indicating an alteration in molecular function.

Gene→Variant (gene-first): 2120:p. L349P 2120:p. N385fs

Genes: 2120

Variants: p. L349P p. N385fs

[Paragraph-level] PMCID: PMC8307492 Section: RESULTS PassageIndex: 18

Evidence Type(s): Predictive, Oncogenic

Justification: Predictive: The passage discusses the T790M mutation as a mechanism of resistance to the EGFR inhibitor osimertinib, indicating its correlation with treatment response. Oncogenic: The T790M mutation is described as contributing to resistance in patients treated with EGFR inhibitors, suggesting its role in tumor progression.

Gene→Variant (gene-first): 1956:G719S 1956:L858R 1956:L861Q 1956:T790M

Genes: 1956

Variants: G719S L858R L861Q T790M

[Paragraph-level] PMCID: PMC8307492 Section: RESULTS PassageIndex: 9

Evidence Type(s): Diagnostic, Oncogenic

Justification: Diagnostic: The passage discusses the prevalence of EGFR mutations, including L858R and L861X, in patients at initial diagnosis, indicating their association with the disease and their use in defining the mutation status of patients. Oncogenic: The variants L858R and L861X are described as actionable mutations within the context of EGFR, suggesting their role in tumor development or progression.

Gene→Variant (gene-first): 1956:L858R 1956:L861X

Genes: 1956

Variants: L858R L861X

[Paragraph-level] PMCID: PMC6547725 Section: RESULTS PassageIndex: 25

Evidence Type(s): Functional, Oncogenic

Justification: Functional: The passage discusses how the HRAS p.G12V variant alters the signaling capability by affecting GTP hydrolysis and inducing phosphorylation of ERK and AKT, indicating a change in molecular function. Oncogenic: The HRAS p.G12V variant is implicated in inducing signaling pathways that are associated with tumor development, as evidenced by the increased levels of phosphorylated ERK and AKT in the transfected cells.

Gene→Variant (gene-first): 3845:p.G12V

Genes: 3845

Variants: p.G12V

[Paragraph-level] PMCID: PMC6547725 Section: RESULTS PassageIndex: 22

Evidence Type(s): Oncogenic, Functional

Justification: Oncogenic: The passage discusses the classical oncogenic variant KRAS p.G12V in the context of its effect on GTP hydrolysis, indicating its role in tumor development or progression. Functional: The passage describes how the variant KRAS p.G12V affects the biochemical function of GTP hydrolysis, demonstrating its impact on molecular activity in the presence of RAS-GAP.

Gene→Variant (gene-first): 3845:p.G12V

Genes: 3845

Variants: p.G12V

[Paragraph-level] PMCID: PMC6547725 Section: RESULTS PassageIndex: 21

Evidence Type(s): Functional, Oncogenic

Justification: Functional: The passage discusses how the p.G12V variant alters the intrinsic GTP hydrolysis rates, indicating a change in molecular function related to protein activity. Oncogenic: The p.G12V variant is described as a classical oncogenic variant, suggesting its role in tumor development or progression.

Gene→Variant (gene-first): 3845:p.G12V

Genes: 3845

Variants: p.G12V

[Paragraph-level] PMCID: PMC6547725 Section: RESULTS PassageIndex: 18

Evidence Type(s): Oncogenic, Functional

Justification: Oncogenic: KRAS p.G12V is described as a classical oncogenic variant, indicating its contribution to tumor development or progression. Functional: The passage discusses how KRAS p.G12V alters the intrinsic dissociation rate of mGppNHp compared to wild type, indicating a change in molecular function.

Gene→Variant (gene-first): 3845:p.G12V

Genes: 3845

Variants: p.G12V

[Paragraph-level] PMCID: PMC6547725 Section: RESULTS PassageIndex: 11

Evidence Type(s): Functional, Oncogenic

Justification: Functional: The passage discusses the impact of the p.Q61L variant on nucleotide exchange, effector binding, and GTP hydrolysis, indicating that it alters molecular or biochemical function. Oncogenic: The p.Q61L variant is described as a classic pathogenic missense mutation, suggesting its contribution to tumor development or progression.

Gene→Variant (gene-first): 4893:p.Q61L

Genes: 4893

Variants: p.Q61L

[Paragraph-level] PMCID: PMC6547725 Section: RESULTS PassageIndex: 5

Evidence Type(s): Oncogenic, Functional

Justification: Oncogenic: The passage discusses mutations in RAS genes, including p.G12A, p.G13H, and p.Q22K, which are described as classical oncogenic mutations that affect tumor development and progression. Functional: The passage indicates that the p.Q22K mutation is associated with increased GTP loading, suggesting that it alters molecular function related to protein activity.

Gene→Variant (gene-first): 3845:p.G12A 3845:p.G13H 3845:p.Q22K

Genes: 3845

Variants: p.G12A p.G13H p.Q22K

[Paragraph-level] PMCID: PMC3058384 Section: ABSTRACT PassageIndex: 1

Evidence Type(s): Predictive, Oncogenic

Justification: Predictive: The B-RAFV600E mutation predicts a dependency on the MAPK signaling cascade in melanoma, and this is validated by the success of RAF and MEK inhibitors in clinical trials, indicating a correlation with treatment response. Oncogenic: The passage discusses oncogenic mutations in B-RAF, specifically the B-RAFV600E mutation, which is implicated in tumor development and progression in malignant melanomas.

Gene→Variant (gene-first): 673:B-RAFV600E 673:serine/threonine

Genes: 673

Variants: B-RAFV600E serine/threonine

[Paragraph-level] PMCID: PMC10390864 Section: RESULTS PassageIndex: 15

Evidence Type(s): Functional, Oncogenic

Justification: Functional: The passage discusses how several variants, including K131, R168G, G130R, and others, alter the molecular function of RAD51C by disrupting the ATP-binding site and influencing RAD51C activity, as demonstrated in HDR assays. Oncogenic: The passage indicates that the variants are deleterious and influence RAD51C function, which is relevant to tumor development or progression, particularly in the context of HDR assays.

Gene→Variant (gene-first): 5889:16 A 5889:C135Y 5889:E94K 5889:G130R 5889:G302V 5889:K131 5889:L138F 5889:P21S 5889:Q133E 5889:R168 5889:R168G 5889:R312 5889:R312W 5889:T132I 5889:T132R 5892:T86I 5889:V140E 5889:p.Cys135Tyr 5889:p.Thr132Ile 5889:p.Val140Glu

Genes: 5889 5892

Variants: 16 A C135Y E94K G130R G302V K131 L138F P21S Q133E R168 R168G R312 R312W T132I T132R T86I V140E p.Cys135Tyr p.Thr132Ile p.Val140Glu

[Paragraph-level] PMCID: PMC10390864 Section: RESULTS PassageIndex: 13

Evidence Type(s): Functional, Oncogenic

Justification: Functional: The passage discusses how various RAD51C variants affect the ability to form protein complexes involved in DNA damage repair, indicating that these variants alter molecular function. Oncogenic: The mention of deleterious variants that lose the ability to form complexes suggests a role in tumor development or progression, as these variants are associated with impaired DNA repair mechanisms.

Gene→Variant (gene-first): 5889:A126T 5889:D109Y 5889:D159N 5889:G162E 5889:G302V 5889:L138F 5889:L27P 5889:Q133E 5889:R258H 5889:S163R 5889:T336P 5892:T86I 5889:p.Gly162Glu 5889:p.Ser163Arg 5889:p.Thr336Pro 5892:p.Thr86Ile

Genes: 5889 5892

Variants: A126T D109Y D159N G162E G302V L138F L27P Q133E R258H S163R T336P T86I p.Gly162Glu p.Ser163Arg p.Thr336Pro p.Thr86Ile

[Paragraph-level] PMCID: PMC10390864 Section: RESULTS PassageIndex: 11

Evidence Type(s): Functional, Oncogenic

Justification: Functional: The passage discusses how RAD51C variants alter cell proliferation and the formation of RAD51 foci in response to ionizing radiation, indicating changes in molecular function related to DNA damage signaling and repair. Oncogenic: The variants are implicated in a proliferation defect and disruption of homologous recombination (HR) repair, suggesting their role in tumor development or progression.

Gene→Variant (gene-first): 5889:G130R 5889:G302V 5889:K131I 5889:L138F 5889:Q133E 5889:R168G 5889:T132R

Genes: 5889

Variants: G130R G302V K131I L138F Q133E R168G T132R

[Paragraph-level] PMCID: PMC10390864 Section: RESULTS PassageIndex: 3

Evidence Type(s): Functional, Oncogenic

Justification: Functional: The passage discusses the influence of missense mutations on RAD51C HR DNA repair activity, indicating that the variants alter molecular function as assessed by HDR activity in a cell-based assay. Oncogenic: The mention of deleterious variants categorized based on their impact on HDR activity suggests that these somatic variants contribute to tumor development or progression through their effects on DNA repair mechanisms.

Gene→Variant (gene-first): 5889:A126T 5889:C135Y 5889:D159N 5889:G125V 5889:G153D 5889:G264S 5889:G264V 5889:G3R 5889:L138F 5889:L219S 5889:Q143R 5889:R214C 5889:R258H 5889:R312W 5889:R366Q 5889:T287A 5889:V169A 5889:p.Arg214Cys 5889:p.Arg258His 5889:p.Arg312Trp 5889:p.Arg366Gln 5889:p.Asp159Asn 5889:p.Gln143Arg 5889:p.Gly125Val 5889:p.Gly153Asp 5889:p.Gly264Ser 5889:p.Gly264Val 5889:p.Gly3Arg 5889:p.Leu219Ser 5889:p.Thr287Ala 5889:p.Val169Ala

Genes: 5889

Variants: A126T C135Y D159N G125V G153D G264S G264V G3R L138F L219S Q143R R214C R258H R312W R366Q T287A V169A p.Arg214Cys p.Arg258His p.Arg312Trp p.Arg366Gln p.Asp159Asn p.Gln143Arg p.Gly125Val p.Gly153Asp p.Gly264Ser p.Gly264Val p.Gly3Arg p.Leu219Ser p.Thr287Ala p.Val169Ala

[Paragraph-level] PMCID: PMC4868698 Section: RESULTS PassageIndex: 14

Evidence Type(s): Predictive, Oncogenic

Justification: Predictive: The passage discusses the treatment of ruxolitinib and its effects on the phosphorylation level of STAT3 in tumors with the JAK1 S703I mutation, indicating a correlation with treatment response. Oncogenic: The mention of the JAK1 S703I mutation in the context of tumor models suggests that this somatic variant contributes to tumor development or progression.

Gene→Variant (gene-first): 3716:S703I

Genes: 3716

Variants: S703I

[Paragraph-level] PMCID: PMC4868698 Section: RESULTS PassageIndex: 11

Evidence Type(s): Predictive, Oncogenic

Justification: Predictive: The passage discusses the sensitivity of the JAK1S703I mutation to the JAK1/2 inhibitor ruxolitinib, indicating a correlation with treatment response. Oncogenic: The passage suggests that the JAK1S703I mutation may play a critical role in tumorigenesis, indicating its contribution to tumor development.

Gene→Variant (gene-first): 3716:S703I

Genes: 3716

Variants: S703I

[Paragraph-level] PMCID: PMC4868698 Section: RESULTS PassageIndex: 10

Evidence Type(s): Predictive, Oncogenic

Justification: Predictive: The passage discusses the anti-tumor activity of ruxolitinib in a model with the JAK1 S703I mutation, indicating a correlation with response to therapy. Oncogenic: The mention of the JAK1 S703I mutation in the context of a PDX model suggests that this somatic variant contributes to tumor development or progression.

Gene→Variant (gene-first): 3716:S703I

Genes: 3716

Variants: S703I

[Paragraph-level] PMCID: PMC4868698 Section: RESULTS PassageIndex: 9

Evidence Type(s): Oncogenic, Functional

Justification: Oncogenic: The passage discusses the transformation ability of JAK1 mutations, specifically noting that JAK1S703I and JAK1S729C are capable of continual proliferation in the absence of IL-3, indicating their contribution to tumor development or progression. Functional: The passage mentions that JAK1S703I activates the JAK-STAT signaling pathway, which indicates an alteration in molecular function related to the variant.

Gene→Variant (gene-first): 3716:E483D 3716:S703I 3716:S729C

Genes: 3716

Variants: E483D S703I S729C

[Paragraph-level] PMCID: PMC4868698 Section: RESULTS PassageIndex: 8

Evidence Type(s): Functional, Oncogenic

Justification: Functional: The passage discusses how the introduction of JAK1 mutations, including E483D, S703I, and S729C, alters the expression levels of phosphorylated JAK1 and STAT proteins, indicating a change in molecular function. Oncogenic: The passage mentions that JAK1S729C is a known and recurrent activating mutation, suggesting its role in tumor development or progression.

Gene→Variant (gene-first): 3716:E483D 3716:S703I 3716:S729C

Genes: 3716

Variants: E483D S703I S729C

[Paragraph-level] PMCID: PMC4868698 Section: RESULTS PassageIndex: 4

Evidence Type(s): Oncogenic, Functional

Justification: Oncogenic: The passage indicates that the S703I mutation is an activating mutation of the JAK1 gene and was found in tumors, suggesting it contributes to tumor development or progression. Functional: The S703I mutation is described as potentially causing disruption of auto-inhibition of the JAK1 kinase, indicating an alteration in molecular or biochemical function.

Gene→Variant (gene-first): 3716:A1086S 3716:E483D 728378:N451S 3716:S703I

Genes: 3716 728378

Variants: A1086S E483D N451S S703I

[Paragraph-level] PMCID: PMC7472556 Section: RESULTS PassageIndex: 23

Evidence Type(s): Predictive, Oncogenic

Justification: Predictive: The passage discusses how NRG1 levels increase after androgen deprivation therapy (ADT) and suggests that these elevated levels are sufficient to promote resistance to ADT, indicating a correlation with treatment response. Oncogenic: The mention of NRG1 promoting resistance to ADT implies a role in tumor development or progression, which aligns with the definition of an oncogenic variant.

Gene→Variant (gene-first): 8850:S7C

Genes: 8850

Variants: S7C

[Paragraph-level] PMCID: PMC4899144 Section: ABSTRACT PassageIndex: 1

Evidence Type(s): Oncogenic, Functional

Justification: Oncogenic: The passage describes how the somatic mutations Y641F and Y646F in the EZH2 gene contribute to tumor development, specifically leading to high-penetrance lymphoma and melanoma in a mouse model. Functional: The variant Ezh2Y641F is shown to alter molecular function by increasing global H3K27 trimethylation and causing a redistribution of this mark, which affects transcription at various loci.

Gene→Variant (gene-first): 2146:Y641F 2146:Y646F

Genes: 2146

Variants: Y641F Y646F

[Paragraph-level] PMCID: PMC5029699 Section: ABSTRACT PassageIndex: 1

Evidence Type(s): Predictive, Oncogenic

Justification: Predictive: The passage discusses the impact of FGFR3 kinase domain variants on drug responses and highlights the distinct changes in efficacy of inhibitors based on specific activating mutations, indicating a correlation with treatment response. Oncogenic: The mention of FGFR3 variants as drivers in diverse tumors suggests that these somatic mutations contribute to tumor development or progression.

Gene→Variant (gene-first): 2261:K650E 2261:N540K 2261:R669G

Genes: 2261

Variants: K650E N540K R669G

[Paragraph-level] PMCID: PMC5029699 Section: RESULTS PassageIndex: 32

Evidence Type(s): Predictive, Oncogenic

Justification: Predictive: The passage discusses the effect of the K650E and N540K variants on the efficacy of FGFR-specific inhibitors, indicating a correlation with treatment response. Oncogenic: The variants K650E and N540K are discussed in the context of their impact on cellular transformation and response to inhibitors, suggesting their role in tumor development or progression.

Gene→Variant (gene-first): 2261:K650E 2261:N540K

Genes: 2261

Variants: K650E N540K

[Paragraph-level] PMCID: PMC5029699 Section: RESULTS PassageIndex: 29

Evidence Type(s): Predictive, Oncogenic

Justification: Predictive: The passage discusses how mutations in protein kinases, such as V555M, can affect drug binding and implies a relationship between these mutations and drug efficacy, indicating a potential impact on treatment response. Oncogenic: The mention of V555M as an acquired mutation in FGFR3 suggests its role in tumor development or progression, particularly in the context of drug resistance.

Gene→Variant (gene-first): 2261:V555M

Genes: 2261

Variants: V555M

[Paragraph-level] PMCID: PMC5029699 Section: RESULTS PassageIndex: 24

Evidence Type(s): Functional, Oncogenic

Justification: Functional: The passage discusses how the K650E, R675G, and R669G mutations alter the allosteric communication and molecular interactions within the FGFR kinases, indicating a change in molecular function. Oncogenic: The mention of mutations that force an active conformation and alter the position of the alphaC-helix suggests that these variants contribute to tumor development or progression.

Gene→Variant (gene-first): 2261:K650E 2261:R669G 2260:R675 2260:R675G

Genes: 2261 2260

Variants: K650E R669G R675 R675G

[Paragraph-level] PMCID: PMC5029699 Section: RESULTS PassageIndex: 21

Evidence Type(s): Functional, Oncogenic

Justification: Functional: The passage discusses the R to G replacement and its impact on the activity of the FGFR1 KD variant, indicating that the variant alters molecular function. Oncogenic: The mention of the R669 and R675G variants being mutated in cancer suggests their contribution to tumor development or progression.

Gene→Variant (gene-first): 2260:R to G 2261:R669 2260:R675G

Genes: 2260 2261

Variants: R to G R669 R675G

[Paragraph-level] PMCID: PMC5029699 Section: RESULTS PassageIndex: 19

Evidence Type(s): Functional, Oncogenic

Justification: Functional: The passage discusses how the variants E466K, D617G, and G637W are predicted to reduce protein production or completely inactivate the kinase, indicating an alteration in molecular function. Oncogenic: The mention of R669 being within an identified cluster of observed A-loop cancer mutations suggests that it contributes to tumor development or progression.

Gene→Variant (gene-first): 2261:D617G 2263:E466K 2260:G637W 2261:R669

Genes: 2261 2263 2260

Variants: D617G E466K G637W R669

[Paragraph-level] PMCID: PMC5029699 Section: RESULTS PassageIndex: 17

Evidence Type(s): Functional, Oncogenic

Justification: Functional: The passage discusses how the G697C mutation does not affect kinase activity directly as measured in vitro, indicating that it alters molecular function, specifically FGFR3 function, which can only be detected in a cellular setting. Oncogenic: The comparison of the FGFR3 G697C cell line with those expressing K650E and N540K shows that G697C does not lead to a transformed phenotype or anchorage-independent growth, suggesting it does not contribute to tumor development or progression like the other variants.

Gene→Variant (gene-first): 2261:G697C 2261:K650E 2261:N540K

Genes: 2261

Variants: G697C K650E N540K

[Paragraph-level] PMCID: PMC5029699 Section: RESULTS PassageIndex: 16

Evidence Type(s): Functional, Oncogenic

Justification: Functional: The passage discusses how the K650E variant alters kinase activity, indicating a change in molecular function related to activation. Oncogenic: The mention of the K650E variant in the context of kinase activation suggests its potential role in tumor development or progression.

Gene→Variant (gene-first): 2261:K650E

Genes: 2261

Variants: K650E

[Paragraph-level] PMCID: PMC5029699 Section: RESULTS PassageIndex: 15

Evidence Type(s): Functional, Oncogenic

Justification: Functional: The passage discusses how the mutations D617G and G637W abolish kinase activity, indicating that these variants alter the molecular function of the protein. Oncogenic: The passage mentions that the importance of these inactivating mutations for cancer development remains unclear, suggesting a potential role in tumor development or progression.

Gene→Variant (gene-first): 2261:D617 2261:D617G 2261:G to W 2260:G637 2260:G637W

Genes: 2261 2260

Variants: D617 D617G G to W G637 G637W

[Paragraph-level] PMCID: PMC5029699 Section: RESULTS PassageIndex: 14

Evidence Type(s): Functional, Oncogenic

Justification: Functional: The passage discusses the effect of the G697C mutation on FGFR3 KD activity, indicating that it alters molecular function. Oncogenic: The mention of G697C as one of the hotspots suggests its potential role in tumor development or progression, which aligns with oncogenic behavior.

Gene→Variant (gene-first): 2261:G697C

Genes: 2261

Variants: G697C

[Paragraph-level] PMCID: PMC5029699 Section: RESULTS PassageIndex: 12

Evidence Type(s): Functional, Oncogenic

Justification: Functional: The passage discusses how different mutations in FGFR3 KD variants affect auto-phosphorylation and kinase activity, indicating that these variants alter molecular function. Oncogenic: The context of the passage suggests that the mutations contribute to tumor development or progression by enhancing kinase activity, which is a characteristic of oncogenic variants.

Gene→Variant (gene-first): 2263:I538V 2261:K650E 2261:K650N 2261:N540K 2261:N540S 2261:R669G 2261:R669Q

Genes: 2263 2261

Variants: I538V K650E K650N N540K N540S R669G R669Q

[Paragraph-level] PMCID: PMC5029699 Section: RESULTS PassageIndex: 7

Evidence Type(s): Oncogenic

Justification: Oncogenic: The passage discusses FGFR3 cancer mutations, indicating that the variants K650, R669, N540, and I538 are associated with cancer, suggesting their role in tumor development or progression.

Gene→Variant (gene-first): 2263:I538 2261:K650 2261:N540 2261:R669

Genes: 2263 2261

Variants: I538 K650 N540 R669

[Paragraph-level] PMCID: PMC5029699 Section: RESULTS PassageIndex: 5

Evidence Type(s): Diagnostic, Oncogenic

Justification: Diagnostic: The passage discusses mutations in FGFR3, including K650 and N540, in the context of developmental syndromes such as bone dysplasia, indicating their association with specific disease states. Oncogenic: The mention of FGFR3 mutations, including K650 and N540, being prevalent in bladder cancer suggests that these somatic variants contribute to tumor development or progression.

Gene→Variant (gene-first): 2261:K650 2261:N540 2261:N540K

Genes: 2261

Variants: K650 N540 N540K

[Paragraph-level] PMCID: PMC5029699 Section: RESULTS PassageIndex: 4

Evidence Type(s): Oncogenic, Functional

Justification: Oncogenic: The passage discusses frequently mutated positions in FGFR3, specifically K650, G697, and N540, indicating their involvement in cancer, which suggests they contribute to tumor development or progression. Functional: The passage describes the specific amino acid replacements at the mutated positions, indicating alterations in molecular function related to FGFR3, which can affect its activity in cancer.

Gene→Variant (gene-first): 2261:G697 2261:G697C 2261:K650 2261:N540

Genes: 2261

Variants: G697 G697C K650 N540

[Paragraph-level] PMCID: PMC6627713 Section: RESULTS PassageIndex: 20

Evidence Type(s): Diagnostic, Prognostic, Predictive, Oncogenic

Justification: Diagnostic: The passage discusses the frequencies of MAP2K1 variants in CRC patients and their association with specific tumor characteristics, indicating their role in defining or classifying the disease. Prognostic: The variants are correlated with worse disease/progression-free survival, suggesting they have prognostic implications independent of therapy. Predictive: The passage mentions that MAP2K1 mutations are associated with de novo and acquired resistance to anti-EGFR MoAbs, indicating a predictive relationship with therapy response. Oncogenic: The variants are described as contributing to a gain of function of the MEK1 protein, which is indicative of their role in tumor development or progression.

Gene→Variant (gene-first): 5604:c.169A>G 5604:c.199G>A 5604:p.Asp67Asn 5604:p.Lys57Glu

Genes: 5604

Variants: c.169A>G c.199G>A p.Asp67Asn p.Lys57Glu

[Paragraph-level] PMCID: PMC6627713 Section: RESULTS PassageIndex: 14

Evidence Type(s): Prognostic, Oncogenic

Justification: Prognostic: The passage indicates that two missense mutations are associated with patients having a shorter progression-free survival (PFS), suggesting a correlation with disease outcome. Oncogenic: The FBXW7 p.Arg505Cys mutation is reported to lead to loss of function of the protein and has been associated with several cancer types, indicating its contribution to tumor development or progression.

Gene→Variant (gene-first): 55294:c.1513C>T 1956:c.1798G>A 55294:p.Arg505Cys 673:p.Asp600Asn

Genes: 55294 1956 673

Variants: c.1513C>T c.1798G>A p.Arg505Cys p.Asp600Asn

[Paragraph-level] PMCID: PMC6627713 Section: RESULTS PassageIndex: 13

Evidence Type(s): Oncogenic, Prognostic

Justification: Oncogenic: The variants in NF1 are described as contributing to tumor development by leading to a loss of function and increased activation of the RAS signaling pathway, indicating their role in oncogenesis. Prognostic: The passage provides progression-free survival (PFS) times for the patients with the variants, suggesting a correlation between the variants and disease outcome.

Gene→Variant (gene-first): 4763:c.5101A>T 4763:c.638_639insA 4763:p.Asn214Lys fs*2 4763:p.Lys1701Ter

Genes: 4763

Variants: c.5101A>T c.638_639insA p.Asn214Lys fs*2 p.Lys1701Ter

[Paragraph-level] PMCID: PMC6627713 Section: RESULTS PassageIndex: 12

Evidence Type(s): Functional, Oncogenic

Justification: Functional: The variant c.169A>G results in an amino acid substitution (p.Lys57Glu) that is associated with a gain of function of the MEK1 protein, indicating an alteration in molecular function. Oncogenic: The variant is discussed in the context of its role in the MAP2K1 gene, which is known to contribute to tumor development or progression, suggesting its oncogenic potential.

Gene→Variant (gene-first): 5604:c.169A>G 5604:p.Lys57Glu

Genes: 5604

Variants: c.169A>G p.Lys57Glu

[Paragraph-level] PMCID: PMC6627713 Section: RESULTS PassageIndex: 11

Evidence Type(s): Oncogenic

Justification: Oncogenic: The passage discusses the KRAS variant (c.183A>T; p.Gln61His) identified in tumor tissue, indicating its role in tumor development or progression as it is associated with a specific patient's tumor.

Gene→Variant (gene-first): 3845:c.183A>T 3845:p.Gln61His

Genes: 3845

Variants: c.183A>T p.Gln61His

[Paragraph-level] PMCID: PMC6627713 Section: RESULTS PassageIndex: 5

Evidence Type(s): Diagnostic, Oncogenic

Justification: Diagnostic: The passage discusses the presence of specific variants in patients and their association with APC and TP53 mutations, indicating their role in defining or classifying the disease context. Oncogenic: The variants mentioned are associated with tumors, suggesting that they contribute to tumor development or progression, which aligns with the definition of oncogenic variants.

Gene→Variant (gene-first): 7157:c.275_276insGGCC 324:c.4098_4099delTCinsAT 324:c.4467_4468insCATTTTG 324:c.589_590insGAGTT 324:c.837_838InsG

Genes: 7157 324

Variants: c.275_276insGGCC c.4098_4099delTCinsAT c.4467_4468insCATTTTG c.589_590insGAGTT c.837_838InsG

[Paragraph-level] PMCID: PMC10283448 Section: RESULTS PassageIndex: 10

Evidence Type(s): Predictive, Oncogenic

Justification: Predictive: The passage discusses the response of the ROS1-G2032R mutation to various therapies, specifically mentioning the effectiveness of cabozantinib and repotrectinib in inhibiting growth, which correlates with treatment response. Oncogenic: The ROS1-G2032R mutation is implicated in tumor growth, as indicated by the investigation of its effects in Ba/F3 cells and the context of progression on crizotinib treatment, suggesting its role in tumor development.

Gene→Variant (gene-first): 6098:G2032R

Genes: 6098

Variants: G2032R

[Paragraph-level] PMCID: PMC3260002 Section: RESULTS PassageIndex: 3

Evidence Type(s): Diagnostic, Oncogenic

Justification: Diagnostic: The passage discusses the detection of DNMT3A exon 23 mutations in AML patients, indicating that these mutations are associated with the disease, which supports their use in defining or confirming the disease. Oncogenic: The mention of DNMT3A mutations in AML patients suggests that these somatic variants contribute to tumor development or progression, as they are identified in a cancer context.

Gene→Variant (gene-first): 1788:R882 1788:R882C 1788:R882H 1788:R882P 1788:W893 1788:W893S

Genes: 1788

Variants: R882 R882C R882H R882P W893 W893S

[Paragraph-level] PMCID: PMC4695055 Section: RESULTS PassageIndex: 4

Evidence Type(s): Diagnostic, Oncogenic

Justification: Diagnostic: The passage indicates that the variant c.3082+811A TTTTAACA > GGTTTGAT is found in all GI cancer samples, suggesting its association with the disease. Oncogenic: The presence of the variant in GI cancer samples implies a potential role in tumor development or progression, as it is discussed in the context of mutations in cancer.

Gene→Variant (gene-first): 7157:c.3082+811A TTTTAACA > GGTTTGAT

Genes: 7157

Variants: c.3082+811A TTTTAACA > GGTTTGAT

[Paragraph-level] PMCID: PMC4884999 Section: RESULTS PassageIndex: 3

Evidence Type(s): Diagnostic, Oncogenic

Justification: Diagnostic: The passage discusses the frequency of KRAS mutations, specifically mentioning that the majority occur in codon 12 with G12C being the most common, indicating its association with lung cancer subtypes. Oncogenic: The mention of KRAS mutations, including G12C, in the context of lung adenocarcinoma suggests that this somatic variant contributes to tumor development or progression.

Gene→Variant (gene-first): 3845:G12C

Genes: 3845

Variants: G12C

[Paragraph-level] PMCID: PMC7568619 Section: ABSTRACT PassageIndex: 2

Evidence Type(s): Predictive, Oncogenic

Justification: Predictive: The variant L1196Q is associated with the development of resistance to ALK inhibitors, and its identification guided the prescription of a newer ALK inhibitor, ceritinib, which resulted in a partial response in the patient. Oncogenic: The passage indicates that the L1196Q mutation is a secondary mutation that developed in the context of drug resistance, suggesting it contributes to tumor progression and the development of resistance to therapy.

Gene→Variant (gene-first): 238:L1196Q

Genes: 238

Variants: L1196Q

[Paragraph-level] PMCID: PMC3422615 Section: ABSTRACT PassageIndex: 1

Evidence Type(s): Diagnostic, Prognostic, Oncogenic

Justification: Diagnostic: K27M-H3.3 mutation defines clinically and biologically distinct subgroups in DIPG, indicating its use in classifying the disease. Prognostic: K27M-H3.3 is universally associated with short survival in DIPG, while patients wild-type for H3.3 show improved survival, indicating its correlation with disease outcome. Oncogenic: The K27M-H3.3 mutation contributes to tumor development or progression in pediatric glioblastomas, as indicated by its prevalence in DIPG and association with specific copy number changes.

Gene→Variant (gene-first): 3021:G34V 3021:G34V/R 3021:K27M

Genes: 3021

Variants: G34V G34V/R K27M

[Paragraph-level] PMCID: PMC3100313 Section: ABSTRACT PassageIndex: 1

Evidence Type(s): Oncogenic, Functional

Justification: Oncogenic: The passage discusses heterozygous somatic mutations in IDH1, specifically the R132H variant, and its association with tumorigenesis in gliomas, indicating that this variant contributes to tumor development or progression. Functional: The passage mentions that mutations in IDH1, including R132H, cause loss of normal enzyme function and gain-of-function, leading to the accumulation of D-2-hydroxyglutarate, which alters the biochemical function of the enzyme.

Gene→Variant (gene-first): 3417:R132H

Genes: 3417

Variants: R132H

[Paragraph-level] PMCID: PMC3100313 Section: RESULTS PassageIndex: 2

Evidence Type(s): Diagnostic, Oncogenic

Justification: Diagnostic: The passage discusses the frequency of heterozygous mutations of IDH1, specifically the c.395G>A variant, in glioblastomas, indicating its association with this disease subtype. Oncogenic: The presence of the IDH1 mutation (p.R132H) in glioblastomas suggests that this somatic variant contributes to tumor development or progression.

Gene→Variant (gene-first): 728294:R132 79944:arginine to histidine 728294:c.395G>A 3417:p.R132H

Genes: 728294 79944 3417

Variants: R132 arginine to histidine c.395G>A p.R132H

[Paragraph-level] PMCID: PMC4823825 Section: ABSTRACT PassageIndex: 1

Evidence Type(s): Oncogenic, Diagnostic

Justification: Oncogenic: The passage discusses how the K27M mutation contributes to tumorigenesis in DIPGs, indicating its role in tumor development and progression. Diagnostic: The K27M mutation is associated with the diagnosis of DIPGs, as it helps guide diagnosis and targeted therapies in these tumors.

Gene→Variant (gene-first): 8358:K27M

Genes: 8358

Variants: K27M

[Paragraph-level] PMCID: PMC2570525 Section: ABSTRACT PassageIndex: 1

Evidence Type(s): Diagnostic, Oncogenic, Functional

Justification: Diagnostic: The passage discusses the identification of the AKT1 (E17K) mutation in various cancer types, indicating its association with melanoma and suggesting its role in defining the presence of this mutation in cancer specimens. Oncogenic: The passage states that the AKT1 E17K mutation is an activating mutation that contributes to tumor development, as evidenced by its identification in melanoma specimens and cell lines, indicating its role in cancer progression. Functional: The passage mentions that the AKT3 E17K mutation results in the activation of AKT when expressed in human melanoma cells, demonstrating a change in molecular function related to the variant.

Gene→Variant (gene-first): 207:AKT1 (E17K 207:E17K

Genes: 207

Variants: AKT1 (E17K E17K

[Paragraph-level] PMCID: PMC10161095 Section: ABSTRACT PassageIndex: 3

Evidence Type(s): Oncogenic, Functional

Justification: Oncogenic: The passage discusses how the lysine-to-methionine mutation at lysine 27 (H3K27M) contributes to tumor development and progression in diffuse midline gliomas, indicating its role as a somatic variant in cancer. Functional: The variant alters molecular function by affecting the levels of proteins in the SWI/SNF complex and influencing chromatin modifications, demonstrating its impact on biochemical processes within the tumor cells.

Gene→Variant (gene-first): 3021:lysine 27 55193:lysine-to-methionine

Genes: 3021 55193

Variants: lysine 27 lysine-to-methionine

[Paragraph-level] PMCID: PMC9859631 Section: RESULTS PassageIndex: 12

Evidence Type(s): Predictive, Oncogenic

Justification: Predictive: The passage discusses various mutations, including Y1230H, D1288N L1195I, and L1195V, which are described as secondary mutations associated with MET TKI resistance, indicating a correlation with treatment response. Oncogenic: The mention of mutations contributing to resistance against targeted therapies suggests that these variants may play a role in tumor development or progression, particularly in the context of lung cancer.

Gene→Variant (gene-first): 79811:D1288N L1195I 79811:L1195V 79811:Y1230H 2064:c.1899-936_1946+520del

Genes: 79811 2064

Variants: D1288N L1195I L1195V Y1230H c.1899-936_1946+520del

[Paragraph-level] PMCID: PMC9859631 Section: RESULTS PassageIndex: 11

Evidence Type(s): Predictive, Oncogenic

Justification: Predictive: The passage discusses the presence of the EGFR L858R variant in a patient with advanced LUAD and its association with resistance to osimertinib, indicating a correlation with treatment response. Oncogenic: The mention of the EGFR L858R variant and its role in the context of advanced LUAD suggests that it contributes to tumor development or progression, particularly as it is associated with resistance mechanisms.

Gene→Variant (gene-first): 2064:D769Y 2064:L755S 1956:L858R 2064:c.1899-32_1909del

Genes: 2064 1956

Variants: D769Y L755S L858R c.1899-32_1909del

[Paragraph-level] PMCID: PMC5111006 Section: ABSTRACT PassageIndex: 1

Evidence Type(s): Oncogenic, Functional

Justification: Oncogenic: The passage indicates that the homozygous CHEK2 variant p.R474C was contributory to familial cancer, and the inactivation of CHEK2 in mice led to cancers in multiple organs, suggesting a role in tumor development. Functional: The variant p.R474C alters the tertiary structure of the CHK2 protein by disrupting a salt bridge, and subsequent analysis showed that it was unstable and scarcely activated, indicating a change in molecular function.

Gene→Variant (gene-first): 11200:p.R474 11200:p.R474C

Genes: 11200

Variants: p.R474 p.R474C

[Paragraph-level] PMCID: PMC5111006 Section: RESULTS PassageIndex: 15

Evidence Type(s): Functional, Oncogenic

Justification: Functional: The passage discusses how the p.R474C variant alters the molecular function of the CHK2 protein, demonstrating that it is poorly expressed and activated by DNA damage compared to the wild-type protein. Oncogenic: The context implies that the p.R474C variant contributes to tumor development or progression by affecting the function of a cell cycle checkpoint regulator, which is critical in the context of cancer biology.

Gene→Variant (gene-first): 11200:p.R474C

Genes: 11200

Variants: p.R474C

[Paragraph-level] PMCID: PMC5111006 Section: RESULTS PassageIndex: 11

Evidence Type(s): Functional, Oncogenic

Justification: Functional: The passage discusses how the variant p.R474C alters the salt bridge formation and is likely to make the protein unstable, indicating an alteration in molecular function. Oncogenic: The variant p.R474C is described as "disease causing" and likely interferes with protein function, suggesting a role in tumor development or progression.

Gene→Variant (gene-first): 11200:p.R474 11200:p.R474C

Genes: 11200

Variants: p.R474 p.R474C

[Paragraph-level] PMCID: PMC5111006 Section: RESULTS PassageIndex: 4

Evidence Type(s): Oncogenic

Justification: Oncogenic: The passage discusses the presence of the L858R mutation in the context of lung cancer, indicating its potential role in tumor development or progression.

Gene→Variant (gene-first): 1956:L858R

Genes: 1956

Variants: L858R

[Paragraph-level] PMCID: PMC6333965 Section: ABSTRACT PassageIndex: 6

Evidence Type(s): Diagnostic, Oncogenic

Justification: Diagnostic: The passage mentions that PIK3CA E545K and CDKN2A R58X are potentially targetable alterations, indicating their association with specific tumor characteristics or responses, which aligns with diagnostic evidence. Oncogenic: The variants PIK3CA E545K and CDKN2A R58X are described as potentially targetable alterations, suggesting their role in tumor development or progression, which supports oncogenic evidence.

Gene→Variant (gene-first): 5290:E545K 1029:R58X

Genes: 5290 1029

Variants: E545K R58X

[Paragraph-level] PMCID: PMC5509015 Section: RESULTS PassageIndex: 14

Evidence Type(s): Diagnostic, Oncogenic

Justification: Diagnostic: The passage discusses the frequency and types of mutations observed in human ccRCC, indicating that these mutations are associated with the disease, thus providing evidence for their role in defining or classifying the disease. Oncogenic: The passage describes mutations in primary cilium-related genes that contribute to the formation of ccRCC precursor lesions in mice, indicating that these somatic variants play a role in tumor development.

Gene→Variant (gene-first): 7428:A>G 7428:C>A 7428:C>T 7428:G>A 7428:G>T 7428:T>C

Genes: 7428

Variants: A>G C>A C>T G>A G>T T>C

[Paragraph-level] PMCID: PMC5509015 Section: RESULTS PassageIndex: 5

Evidence Type(s): Oncogenic, Functional

Justification: Oncogenic: The passage discusses the deletion of Trp53 in mice and its contribution to tumor development, as evidenced by the increased incidence and earlier onset of tumors in VhlDelta/DeltaTrp53Delta/DeltaRb1Delta/Delta mice compared to other genotypes. Functional: The deletion of Trp53 is described in the context of its role in the p53/G1-S network, indicating that it alters the molecular function related to cell cycle control and tumorigenesis.

Gene→Variant (gene-first): 7428:Trp53 deletion

Genes: 7428

Variants: Trp53 deletion

[Paragraph-level] PMCID: PMC4748120 Section: RESULTS PassageIndex: 15

Evidence Type(s): Predictive, Oncogenic

Justification: Predictive: The passage discusses the sensitivity of cells expressing K-RasG12D to specific therapies, indicating a correlation between the variant and response to treatment with MEK and PI3K inhibitors. Oncogenic: The mention of K-RasG12D in the context of transformed Ba/F3 cells suggests that this somatic variant contributes to tumor development or progression, as it is involved in cytokine-independent growth.

Gene→Variant (gene-first): 3845:K-RasG12D

Genes: 3845

Variants: K-RasG12D

[Paragraph-level] PMCID: PMC4748120 Section: RESULTS PassageIndex: 13

Evidence Type(s): Functional, Oncogenic

Justification: Functional: The passage discusses the ability of mutant K-Ras proteins to bind to effectors in vitro, indicating that the variants alter molecular interactions, specifically the binding to FLAG-p110alpha. Oncogenic: The mention of K-RasG12D and the other mutant variants in the context of their binding interactions suggests that these somatic variants contribute to tumor development or progression through their altered functional properties.

Gene→Variant (gene-first): 5295:A66dup 3845:K-RasG12D 5290:Y64G

Genes: 5295 3845 5290

Variants: A66dup K-RasG12D Y64G

[Paragraph-level] PMCID: PMC4748120 Section: RESULTS PassageIndex: 12

Evidence Type(s): Functional, Oncogenic

Justification: Functional: The passage discusses how the K-RasG12D variant alters the levels of pERK and pAkt, indicating a change in molecular function related to signaling pathways. Oncogenic: The K-RasG12D variant is implicated in modulating effector pathway activation, which suggests its role in tumor development or progression.

Gene→Variant (gene-first): 3845:K-RasG12D

Genes: 3845

Variants: K-RasG12D

[Paragraph-level] PMCID: PMC4748120 Section: RESULTS PassageIndex: 11

Evidence Type(s): Oncogenic, Functional

Justification: Oncogenic: The passage describes how the K-RasG12D variant and tandem duplication mutants transform Ba/F3 cells to cytokine-independent growth, indicating their role in tumor development or progression. Functional: The passage mentions that Ba/F3 cells expressing K-RasG12D and the tandem duplication mutants had elevated levels of Ras-GTP, suggesting that these variants alter molecular function related to Ras signaling.

Gene→Variant (gene-first): 5295:A66dup 3845:K-RasG12D

Genes: 5295 3845

Variants: A66dup K-RasG12D

[Paragraph-level] PMCID: PMC4748120 Section: RESULTS PassageIndex: 9

Evidence Type(s): Functional, Oncogenic

Justification: Functional: The passage discusses how the variants K-RasG60_A66dup and K-RasE62_A66dup alter the biochemical properties of K-Ras, specifically their GTPase activity and response to GAP stimulation, indicating a change in molecular function. Oncogenic: The variants are described in the context of their role in accumulating in the active GTP conformation and exhibiting impaired GTPase activity, which suggests their contribution to tumor development or progression.

Gene→Variant (gene-first): 5295:A66dup 3845:K-RasG12D

Genes: 5295 3845

Variants: A66dup K-RasG12D

[Paragraph-level] PMCID: PMC4748120 Section: RESULTS PassageIndex: 7

Evidence Type(s): Functional, Oncogenic

Justification: Functional: The passage discusses how the variant Glutamine 61 (Q61) may alter protein-protein interactions and the structural dynamics of Ras, indicating a change in molecular function due to the predicted effects of switch 2 insertions. Oncogenic: The analysis suggests that the alterations in the Ras protein structure, particularly involving Q61, may contribute to the GTP conformation of Ras, which is associated with tumor development and progression.

Gene→Variant (gene-first): 3845:Glutamine 61 3845:Q61

Genes: 3845

Variants: Glutamine 61 Q61

[Paragraph-level] PMCID: PMC4748120 Section: RESULTS PassageIndex: 5

Evidence Type(s): Oncogenic, Functional

Justification: Oncogenic: The passage discusses how the K-RasG12D variant induces cytokine-independent colony formation and contributes to abnormal growth patterns in hematopoietic progenitor cells, indicating its role in tumor development. Functional: The variant K-RasG12D alters the growth response of progenitor cells to GM-CSF, demonstrating a change in molecular function related to colony formation.

Gene→Variant (gene-first): 5295:A66dup 3845:K-RasG12D

Genes: 5295 3845

Variants: A66dup K-RasG12D

[Paragraph-level] PMCID: PMC4748120 Section: RESULTS PassageIndex: 3

Evidence Type(s): Oncogenic, Functional

Justification: Oncogenic: The passage describes a partial duplication of the K-Ras gene that is associated with juvenile myelomonocytic leukaemia (JMML), indicating that the variant contributes to tumor development or progression. Functional: The immunoblot analysis shows that the variant alters the molecular function of K-Ras, as evidenced by the detection of a band with reduced electrophoretic mobility compared to normal Ras protein, indicating a change in protein behavior.

Gene→Variant (gene-first): 3845:c.178_198dup 3845:c.184_198dup

Genes: 3845

Variants: c.178_198dup c.184_198dup

[Paragraph-level] PMCID: PMC5792548 Section: RESULTS PassageIndex: 14

Evidence Type(s): Predictive, Oncogenic

Justification: Predictive: The passage discusses the effects of combination therapies on cell proliferation in osimertinib-resistant cell lines, indicating a relationship between the presence of the T790M mutation and the response to therapy, specifically mentioning osimertinib and naquotinib. Oncogenic: The T790M mutation is maintained in the osimertinib-resistant RPC-9/OsiR cells, suggesting its role in tumor development or progression, particularly in the context of resistance to therapy.

Gene→Variant (gene-first): 1956:C797S 1956:T790M

Genes: 1956

Variants: C797S T790M

[Paragraph-level] PMCID: PMC5792548 Section: RESULTS PassageIndex: 10

Evidence Type(s): Predictive, Oncogenic

Justification: Predictive: The passage discusses gefitinib-resistant lung adenocarcinoma cell lines harboring the EGFR exon 19del and T790M mutations, indicating a correlation with resistance to therapy, specifically gefitinib. Oncogenic: The mention of the EGFR exon 19del and T790M mutations in the context of gefitinib resistance suggests that these somatic variants contribute to tumor development or progression in lung adenocarcinoma.

Gene→Variant (gene-first): 1956:19del 1956:T790M

Genes: 1956

Variants: 19del T790M

[Paragraph-level] PMCID: PMC5792548 Section: RESULTS PassageIndex: 8

Evidence Type(s): Oncogenic, Predictive

Justification: Oncogenic: The passage discusses the role of the EGFR exon 19del variant in the development of a resistant cell line, indicating that this somatic variant contributes to tumor progression and resistance mechanisms in lung cancer cells. Predictive: The passage mentions that the combination of EGFR-TKIs and MET inhibitors showed an excellent inhibitory effect on cell proliferation in the resistant cell line, suggesting a correlation between the variant and response to therapy.

Gene→Variant (gene-first): 1956:19del

Genes: 1956

Variants: 19del

[Paragraph-level] PMCID: PMC5792548 Section: RESULTS PassageIndex: 4

Evidence Type(s): Predictive, Oncogenic

Justification: Predictive: The passage discusses the acquired EGFR C797S mutation in the context of resistance to osimertinib, indicating that this variant correlates with resistance to a specific therapy. Oncogenic: The C797S mutation is described as contributing to resistance in cell lines, suggesting its role in tumor progression or development in the context of EGFR-TKI treatment.

Gene→Variant (gene-first): 1956:C797S

Genes: 1956

Variants: C797S

[Paragraph-level] PMCID: PMC5792548 Section: RESULTS PassageIndex: 3

Evidence Type(s): Predictive, Oncogenic

Justification: Predictive: The passage discusses the establishment of naquotinib-resistant lung cancer cells and mentions the effectiveness of naquotinib in inhibiting cell proliferation, indicating a correlation between the variants (19del and T790M) and resistance to therapy. Oncogenic: The presence of the T790M mutation in acquired gefitinib-resistant cells suggests that it contributes to tumor development or progression, as it is associated with resistance mechanisms in lung cancer.

Gene→Variant (gene-first): 1956:19del 1956:T790M

Genes: 1956

Variants: 19del T790M

[Paragraph-level] PMCID: PMC5792548 Section: ABSTRACT PassageIndex: 1

Evidence Type(s): Predictive, Diagnostic, Oncogenic

Justification: Predictive: The passage discusses the EGFR T790M mutation in the context of treatment response to osimeritinib and the development of resistance, indicating a correlation with therapy outcomes. Diagnostic: The passage states that the EGFR T790M mutation is used to identify patients with non-small cell lung cancer who are eligible for treatment with osimeritinib, thus classifying it as a diagnostic marker. Oncogenic: The EGFR T790M mutation is described as contributing to resistance in lung cancer, which implies its role in tumor progression and development.

Gene→Variant (gene-first): 1956:T790M

Genes: 1956

Variants: T790M

[Paragraph-level] PMCID: PMC8285406 Section: RESULTS PassageIndex: 22

Evidence Type(s): Predictive, Oncogenic

Justification: Predictive: The passage discusses the correlation between the FGFR3 S249C variant and the response to treatment with FGFR TKIs, indicating that patients with this mutation exhibited partial or complete responses, which aligns with predictive evidence. Oncogenic: The FGFR3 S249C variant is described as the most frequent mutation of FGFR3, suggesting its role in tumor development or progression, which supports its classification as oncogenic.

Gene→Variant (gene-first): 2261:S249C

Genes: 2261

Variants: S249C

[Paragraph-level] PMCID: PMC8285406 Section: RESULTS PassageIndex: 21

Evidence Type(s): Oncogenic

Justification: Oncogenic: The passage indicates that the mutations E545K, E542K, and H1047R are described as "oncogenic mutations," suggesting they contribute to tumor development or progression.

Gene→Variant (gene-first): 5290:E542K 5290:E545K 5290:H1047R

Genes: 5290

Variants: E542K E545K H1047R

[Paragraph-level] PMCID: PMC8285406 Section: RESULTS PassageIndex: 20

Evidence Type(s): Oncogenic, Predictive

Justification: Oncogenic: The passage discusses the transforming activities of FGFR3 S249C compound mutations, indicating that these mutations contribute to tumor development or progression as demonstrated by their evaluation in 3T3 and Ba/F3 cells. Predictive: The passage mentions the sensitivity to E7090 and erdafitinib in relation to the mutations, indicating a correlation with treatment response, which aligns with predictive evidence.

Gene→Variant (gene-first): 2261:K650E 2261:K650M 2261:S249C 2261:Y373C

Genes: 2261

Variants: K650E K650M S249C Y373C

[Paragraph-level] PMCID: PMC8285406 Section: RESULTS PassageIndex: 16

Evidence Type(s): Predictive, Oncogenic

Justification: Predictive: The passage discusses the effectiveness of E7090 and erdafitinib in treating tumors with specific variants, indicating a correlation between the variants and the response to these therapies. Oncogenic: The variants are described in the context of tumor growth and response to treatment, suggesting that they contribute to tumor development or progression.

Gene→Variant (gene-first): 2261:K650M 2261:K650N 2260:N546K 2263:N549K 2261:R248C

Genes: 2261 2260 2263

Variants: K650M K650N N546K N549K R248C

[Paragraph-level] PMCID: PMC8285406 Section: RESULTS PassageIndex: 13

Evidence Type(s): Predictive, Oncogenic

Justification: Predictive: The passage discusses the sensitivity and resistance of FGFR variants, including N546K and N549D/K, to FGFR inhibitors, indicating a correlation with response to therapy. Oncogenic: The passage mentions that KRAS G12V is part of a cluster composed mainly of oncogenic variants, suggesting its role in tumor development or progression.

Gene→Variant (gene-first): 3845:G12V 2260:N546K 2263:N549D/K

Genes: 3845 2260 2263

Variants: G12V N546K N549D/K

[Paragraph-level] PMCID: PMC8285406 Section: RESULTS PassageIndex: 11

Evidence Type(s): Predictive, Oncogenic

Justification: Predictive: The passage discusses the drug sensitivity of FGFR variants in response to various targeted therapies, indicating that certain variants are sensitive or resistant to specific inhibitors, which aligns with predictive evidence. Oncogenic: The context of transformed FGFR variants suggests that these somatic mutations contribute to tumor development or progression, particularly as they are assessed for their response to targeted therapies.

Gene→Variant (gene-first): 2264:N535K 2260:N546K 2263:N549D/K 2263:V550L

Genes: 2264 2260 2263

Variants: N535K N546K N549D/K V550L

[Paragraph-level] PMCID: PMC8285406 Section: RESULTS PassageIndex: 9

Evidence Type(s): Functional, Oncogenic

Justification: Functional: The passage discusses the evaluation of mRNA and protein expression levels of the R248H variant, indicating that it alters protein expression compared to oncogenic variants, which relates to its molecular function. Oncogenic: The passage implies that the R248H variant is classified as a non-oncogenic variant, contrasting it with oncogenic variants, suggesting its role in tumor development or progression is not supported.

Gene→Variant (gene-first): 1956:R248H

Genes: 1956

Variants: R248H

[Paragraph-level] PMCID: PMC8285406 Section: RESULTS PassageIndex: 7

Evidence Type(s): Oncogenic

Justification: Oncogenic: The passage discusses the transforming potential of various FGFR variants, indicating that certain mutations contribute to tumor development or progression, as evidenced by their significant transforming activities in assays.

Gene→Variant (gene-first): 2261:G370C 2261:G380E/R 2261:K650E/M 2263:K659E 2263:N549H 2261:R248C 2261:S249C 6867:S342F 2261:S371C 2263:W290C 2261:Y373C

Genes: 2261 2263 6867

Variants: G370C G380E/R K650E/M K659E N549H R248C S249C S342F S371C W290C Y373C

[Paragraph-level] PMCID: PMC8285406 Section: RESULTS PassageIndex: 3

Evidence Type(s): Oncogenic

Justification: Oncogenic: The V550L mutation in FGFR4 is mentioned in the context of rhabdomyosarcoma, suggesting its contribution to tumor development.

Gene→Variant (gene-first): 2260:K656E 2260:N546K 2261:S249C 2263:S252W 2263:V550L

Genes: 2260 2261 2263

Variants: K656E N546K S249C S252W V550L

[Paragraph-level] PMCID: PMC8255005 Section: ABSTRACT PassageIndex: 1

Evidence Type(s): Predictive, Oncogenic

Justification: Predictive: The passage discusses the resistance of FLT3 mutations, specifically F691L, to FLT3 inhibitors and highlights the efficacy of KX2-391 in overcoming this resistance, indicating a correlation with treatment response. Oncogenic: The FLT3 mutations, including D835 and F691, are described as contributing to tumor development and progression in acute myeloid leukemia (AML), which supports their classification as oncogenic variants.

Gene→Variant (gene-first): 2322:D835 2322:D835Y 2322:F691 2322:F691L

Genes: 2322

Variants: D835 D835Y F691 F691L

[Paragraph-level] PMCID: PMC7785563 Section: RESULTS PassageIndex: 12

Evidence Type(s): Diagnostic, Oncogenic

Justification: Diagnostic: The passage indicates that 90% of the cases harbored IDH1-R132H mutations, which are associated with conventional supratentorial IDH-mutant astrocytomas, suggesting a role in defining or classifying the disease. Oncogenic: The presence of IDH1-R132H mutations in the tumors suggests that this somatic variant contributes to tumor development or progression, as it is commonly found in a specific type of cancer.

Gene→Variant (gene-first): 3417:R132H

Genes: 3417

Variants: R132H

[Paragraph-level] PMCID: PMC10527017 Section: ABSTRACT PassageIndex: 1

Evidence Type(s): Predictive, Oncogenic

Justification: Predictive: The passage discusses the resistance of HP breast cancers to the pan-HER tyrosine kinase inhibitor, neratinib, and the effectiveness of combining neratinib with trastuzumab deruxtecan and CDK4/6 inhibitors, indicating a correlation with treatment response. Oncogenic: The study involves genetically engineered mice with the HER2V777L mutation, showing accelerated tumor formation and increased invasion, which supports the notion that this somatic variant contributes to tumor development and progression.

Gene→Variant (gene-first): 2064:V777L

Genes: 2064

Variants: V777L

[Paragraph-level] PMCID: PMC10527017 Section: RESULTS PassageIndex: 25

Evidence Type(s): Diagnostic, Oncogenic

Justification: Diagnostic: The passage discusses the association of the H1047R PIK3CA mutation with specific tumor subtypes, indicating its role in classifying or defining disease characteristics in human samples. Oncogenic: The H1047R PIK3CA mutation is mentioned in the context of tumor analysis, suggesting its contribution to tumor development or progression as it is examined alongside other mutations in cancer samples.

Gene→Variant (gene-first): 5290:H1047R

Genes: 5290

Variants: H1047R

[Paragraph-level] PMCID: PMC10527017 Section: RESULTS PassageIndex: 22

Evidence Type(s): Oncogenic

Justification: Oncogenic: The passage indicates that the co-expression of the HER2V777L variant contributes to tumorigenesis by amplifying signaling pathways, suggesting its role in tumor development.

Gene→Variant (gene-first): 2064:V777L

Genes: 2064

Variants: V777L

[Paragraph-level] PMCID: PMC10527017 Section: RESULTS PassageIndex: 17

Evidence Type(s): Functional, Oncogenic

Justification: Functional: The passage discusses how the HER2V777L variant enhances cell proliferation by altering the phosphorylation of key proteins involved in the cell cycle, indicating a change in molecular function. Oncogenic: The evidence suggests that the HER2V777L variant contributes to tumor development and progression by promoting aggressive growth in the transgenic mouse model.

Gene→Variant (gene-first): 2064:V777L

Genes: 2064

Variants: V777L

[Paragraph-level] PMCID: PMC10527017 Section: RESULTS PassageIndex: 15

Evidence Type(s): Predictive, Oncogenic

Justification: Predictive: The passage discusses the response of the WHIM51 PDX model to the drug combination of neratinib plus T-DXd, indicating that the G776insYVMA and V777L mutations correlate with a significant tumor regression in response to this therapy. Oncogenic: The G776insYVMA and V777L mutations are associated with tumor regression in the context of breast cancer, suggesting that these somatic variants contribute to tumor development or progression as evidenced by their behavior in the experimental model.

Gene→Variant (gene-first): 2064:G776insYVMA 2064:V777L

Genes: 2064

Variants: G776insYVMA V777L

[Paragraph-level] PMCID: PMC10527017 Section: RESULTS PassageIndex: 9

Evidence Type(s): Oncogenic, Functional

Justification: Oncogenic: The passage discusses the HER2V777L mutation's role in metastatic breast cancer, indicating that it contributes to tumor development and progression, particularly in the context of lung metastasis observed in transgenic mice. Functional: The passage implies that the HER2V777L mutation alters the behavior of breast tumor cells, as evidenced by the invasive phenotype observed in vitro and the specific uptake of the NIR-trastuzumab imaging agent in tumor sites.

Gene→Variant (gene-first): 2064:V777L

Genes: 2064

Variants: V777L

[Paragraph-level] PMCID: PMC10527017 Section: RESULTS PassageIndex: 8

Evidence Type(s): Oncogenic

Justification: Oncogenic: The mention of "Lung metastases in HER2V777L transgenic mice" suggests that the V777L variant contributes to tumor development or progression in a model organism, indicating its oncogenic potential.

Gene→Variant (gene-first): 2064:V777L

Genes: 2064

Variants: V777L

[Paragraph-level] PMCID: PMC10527017 Section: RESULTS PassageIndex: 7

Evidence Type(s): Oncogenic, Functional

Justification: Oncogenic: The passage discusses how the combination of HP mutations, including HER2V777L, promotes cancer cell invasion and migration, indicating a role in tumor development or progression. Functional: The passage describes the effects of the HER2V777L variant on cellular migration and invasion, suggesting that it alters molecular or biochemical functions related to these processes.

Gene→Variant (gene-first): 2064:V777L

Genes: 2064

Variants: V777L

[Paragraph-level] PMCID: PMC10527017 Section: RESULTS PassageIndex: 3

Evidence Type(s): Oncogenic

Justification: Oncogenic: The passage describes the PIK3CA H1047R variant as a gain-of-function allele and activating mutation commonly found in human breast cancers, indicating its role in tumor development or progression.

Gene→Variant (gene-first): 5290:H1047R 2064:V777L

Genes: 5290 2064

Variants: H1047R V777L

[Paragraph-level] PMCID: PMC10527017 Section: RESULTS PassageIndex: 2

Evidence Type(s): Oncogenic

Justification: Oncogenic: The passage indicates that the HER2V777L variant is involved in tumor formation in mice, suggesting it contributes to tumor development or progression.

Gene→Variant (gene-first): 2064:V777L

Genes: 2064

Variants: V777L

[Paragraph-level] PMCID: PMC4821611 Section: ABSTRACT PassageIndex: 1

Evidence Type(s): Predictive, Oncogenic

Justification: Predictive: The passage discusses ALK mutations (p.C1156Y and p.G1269A) in the context of crizotinib resistance, indicating a correlation between these variants and resistance to the therapy. Oncogenic: The ALK mutations are described as being detected in post-treatment tumor samples, suggesting their contribution to tumor development or progression in the context of crizotinib resistance.

Gene→Variant (gene-first): 238:p.C1156Y 238:p.G1269A

Genes: 238

Variants: p.C1156Y p.G1269A

[Paragraph-level] PMCID: PMC4821611 Section: RESULTS PassageIndex: 10

Evidence Type(s): Predictive, Oncogenic

Justification: Predictive: The passage discusses mutations in the ALK gene, specifically p.C1156Y and p.G1269A, which have been reported to confer resistance against crizotinib, indicating a correlation with treatment response. Oncogenic: The presence of mutations in the ALK gene, such as p.C1156Y and p.G1269A, suggests that these somatic variants contribute to tumor development or progression, as they were identified in post-treatment tumor samples.

Gene→Variant (gene-first): 238:c.3467G>A 238:c.3806G>C 238:p.C1156Y 238:p.G1269A

Genes: 238

Variants: c.3467G>A c.3806G>C p.C1156Y p.G1269A

[Paragraph-level] PMCID: PMC2789045 Section: RESULTS PassageIndex: 23

Evidence Type(s): Functional, Oncogenic

Justification: Functional: The passage discusses how the S249C and K652E mutations affect cell viability and signaling pathways, indicating that these variants alter molecular or biochemical functions related to cell growth and density. Oncogenic: The evidence suggests that the S249C and K652E mutations contribute to tumor development or progression by affecting cell cycle phases and viability, which are indicative of cancer-driving behavior.

Gene→Variant (gene-first): 2261:K652E 2261:S249C 2261:Y762F

Genes: 2261

Variants: K652E S249C Y762F

[Paragraph-level] PMCID: PMC2789045 Section: RESULTS PassageIndex: 22

Evidence Type(s): Oncogenic, Functional

Justification: Oncogenic: The passage discusses the S249C+Y762F FGFR3 mutant protein's ability to induce morphological transformation and increased proliferation in NIH-3T3 cells, indicating its role in tumor development or progression. Functional: The passage describes how the S249C+Y762F mutation affects the phosphorylation of PLCgamma1 and alters the activation of downstream signaling pathways, demonstrating a change in molecular function.

Gene→Variant (gene-first): 2261:K652E 2261:S249C 2261:Y762F

Genes: 2261

Variants: K652E S249C Y762F

[Paragraph-level] PMCID: PMC2789045 Section: RESULTS PassageIndex: 20

Evidence Type(s): Functional, Oncogenic

Justification: Functional: The passage discusses how the K652E, S249C, and Y375C mutations alter the signaling response to FGF1 treatment, indicating that these variants affect molecular function related to phosphorylation and activation of signaling pathways. Oncogenic: The context of the mutations being discussed in relation to their effects on signaling pathways suggests that they may contribute to tumor development or progression, particularly given the focus on their responses in cancer-related cellular contexts.

Gene→Variant (gene-first): 2261:K652E 2261:S249C 2261:Y375C

Genes: 2261

Variants: K652E S249C Y375C

[Paragraph-level] PMCID: PMC2789045 Section: RESULTS PassageIndex: 16

Evidence Type(s): Functional, Oncogenic

Justification: Functional: The passage discusses the increased phosphorylation of PLCgamma1 specifically in cells expressing the S249C and Y375C FGFR3 variants, indicating that these variants alter molecular function. Oncogenic: The mention of increased phosphorylation of signaling proteins in cells expressing the FGFR3 mutants suggests that these variants contribute to tumor development or progression.

Gene→Variant (gene-first): 2261:K652E 2261:S249C 2261:Y375C

Genes: 2261

Variants: K652E S249C Y375C

[Paragraph-level] PMCID: PMC2789045 Section: RESULTS PassageIndex: 15

Evidence Type(s): Functional, Oncogenic

Justification: Functional: The passage discusses how the K652E, S249C, and Y375C variants of FGFR3 alter phosphorylation levels and dimerization behavior, indicating changes in molecular function. Oncogenic: The variants are described in the context of their constitutive activation and behavior in urothelial cells, suggesting their role in tumor development or progression.

Gene→Variant (gene-first): 2261:K652E 2261:S249C 2261:Y375C

Genes: 2261

Variants: K652E S249C Y375C

[Paragraph-level] PMCID: PMC2789045 Section: RESULTS PassageIndex: 13

Evidence Type(s): Functional, Oncogenic

Justification: Functional: The passage discusses the expression of proteins involved in cell survival and suggests that the K652E variant may alter the viability of cells, indicating a change in molecular function. Oncogenic: The context implies that the K652E variant contributes to tumor behavior by affecting cell viability, which is a characteristic of oncogenic variants.

Gene→Variant (gene-first): 2261:K652E

Genes: 2261

Variants: K652E

[Paragraph-level] PMCID: PMC2789045 Section: RESULTS PassageIndex: 10

Evidence Type(s): Functional, Oncogenic

Justification: Functional: The passage discusses the viability of cells expressing specific variants (S249C and Y375C) compared to controls, indicating that these variants alter the molecular or biochemical function of FGFR3, affecting cell viability. Oncogenic: The evidence suggests that the variants S249C and Y375C contribute to tumor development or progression by enhancing cell viability, which is a characteristic of oncogenic behavior.

Gene→Variant (gene-first): 2261:K652E 2261:S249C 2261:Y375C

Genes: 2261

Variants: K652E S249C Y375C

[Paragraph-level] PMCID: PMC2789045 Section: RESULTS PassageIndex: 5

Evidence Type(s): Functional, Oncogenic

Justification: Functional: The passage discusses how the expression of mutant FGFR3 variants S249C and Y375C alters the saturation density and morphology of normal urothelial cells, indicating a change in molecular or biochemical function. Oncogenic: The expression of the mutant FGFR3 variants is associated with changes in cell behavior, such as increased saturation density and altered morphology, which suggests a contribution to tumor development or progression.

Gene→Variant (gene-first): 2261:K652E 2261:S249C 2261:Y375C

Genes: 2261

Variants: K652E S249C Y375C

[Paragraph-level] PMCID: PMC2789045 Section: RESULTS PassageIndex: 3

Evidence Type(s): Oncogenic, Functional

Justification: Oncogenic: The passage discusses the ability of the FGFR3 mutations (S249C, Y375C, and K652E) to transform NIH-3T3 cells, indicating that these somatic variants contribute to tumor development or progression. Functional: The passage describes how the FGFR3 mutations alter molecular function, specifically through increased phosphorylation of various proteins and changes in cell morphology and proliferation, demonstrating their biochemical activity.

Gene→Variant (gene-first): 2261:K652E 2261:S249C 2261:Y375C

Genes: 2261

Variants: K652E S249C Y375C

[Paragraph-level] PMCID: PMC9468105 Section: RESULTS PassageIndex: 4

Evidence Type(s): Predisposing, Oncogenic

Justification: Predisposing: The passage describes a germline mutation (p.R1276*) associated with an autosomal dominant tumor predisposition syndrome, indicating inherited risk for developing gliomas. Oncogenic: The passage discusses the somatic inactivation of the remaining wild-type NF1 allele, which contributes to tumor development in gliomas, indicating that the variant plays a role in oncogenesis.

Gene→Variant (gene-first): 4763:c.4110 + 2 T > G 4763:p.R1276*

Genes: 4763

Variants: c.4110 + 2 T > G p.R1276*

[Paragraph-level] PMCID: PMC10015977 Section: RESULTS PassageIndex: 24

Evidence Type(s): Oncogenic, Functional

Justification: Oncogenic: The passage discusses the acquisition of the SF3B1 R625C, K700E, and SETBP1 E862K mutations during disease evolution, indicating their role in tumor development and progression in the context of MDS-EB transforming to AML. Functional: The mention of the SF3B1 mutations leading to changes in bone marrow morphology, such as the appearance of ring sideroblasts, suggests that these variants alter molecular or biochemical function related to the disease.

Gene→Variant (gene-first): 26040:E862K 23451:K700E 23451:R625C

Genes: 26040 23451

Variants: E862K K700E R625C

[Paragraph-level] PMCID: PMC10015977 Section: RESULTS PassageIndex: 14

Evidence Type(s): Functional, Oncogenic

Justification: Functional: The passage discusses the impact of the SF3B1 K700E variant on alternative splicing events, indicating that it alters molecular function related to splicing and gene expression. Oncogenic: The SF3B1 K700E variant is associated with mutated myelodysplastic syndromes (MDS), suggesting its role in tumor development or progression.

Gene→Variant (gene-first): 23451:K700E

Genes: 23451

Variants: K700E

[Paragraph-level] PMCID: PMC10015977 Section: RESULTS PassageIndex: 12

Evidence Type(s): Diagnostic, Oncogenic

Justification: Diagnostic: The passage discusses the classification of patients based on the presence of the K700E variant, indicating its association with lower CCSS scores, which suggests a role in defining or classifying a disease subtype. Oncogenic: The mention of the K700E variant in the context of patients with MDS (myelodysplastic syndromes) implies its contribution to tumor development or progression, as it is associated with specific cytogenetic aberrations.

Gene→Variant (gene-first): 23451:K700E

Genes: 23451

Variants: K700E

[Paragraph-level] PMCID: PMC10015977 Section: RESULTS PassageIndex: 10

Evidence Type(s): Diagnostic, Oncogenic

Justification: Diagnostic: The passage discusses the clinico-pathologic features of MDS patients with K700E mutations, indicating that these mutations are associated with specific disease characteristics and classifications, such as higher percentages of ring sideroblasts and differences in IPSS-R categories. Oncogenic: The K700E mutation in SF3B1 is implicated in the classification of MDS patients and is associated with specific tumor characteristics, suggesting its role in tumor development or progression.

Gene→Variant (gene-first): 23451:K700E

Genes: 23451

Variants: K700E

[Paragraph-level] PMCID: PMC10015977 Section: RESULTS PassageIndex: 8

Evidence Type(s): Diagnostic, Oncogenic

Justification: Diagnostic: The passage discusses the frequency of specific mutations, including K666, K700E, and R625, in patients with MDS, indicating their association with the disease and their role in defining the mutational landscape. Oncogenic: The mention of SF3B1 mutations, including K700E, K666, and R625, as frequent mutations in patients with MDS suggests that these somatic variants contribute to tumor development or progression in this context.

Gene→Variant (gene-first): 23451:K666 23451:K700E 23451:R625

Genes: 23451

Variants: K666 K700E R625

[Paragraph-level] PMCID: PMC10015977 Section: RESULTS PassageIndex: 7

Evidence Type(s): Diagnostic, Oncogenic

Justification: Diagnostic: The passage discusses the mutational landscape of SF3B1 mutations, specifically mentioning the K700E subtype, which indicates its role in classifying or defining a disease subtype. Oncogenic: The mention of K700E in the context of SF3B1 mutations suggests its contribution to tumor development or progression, as it is associated with a specific subtype of myelodysplastic syndromes (MDS).

Gene→Variant (gene-first): 23451:K700E

Genes: 23451

Variants: K700E

[Paragraph-level] PMCID: PMC10015977 Section: ABSTRACT PassageIndex: 6

Evidence Type(s): Diagnostic, Prognostic, Oncogenic

Justification: Diagnostic: The passage discusses the association of K700E and non-K700E mutations with specific patient characteristics and outcomes, indicating their role in classifying patients with MDS. Prognostic: The passage reports on overall survival outcomes associated with SF3B1 mutations, including K700E, indicating that these variants correlate with disease prognosis independent of therapy. Oncogenic: The mention of mutations such as K700E contributing to the classification of MDS and their association with specific patient outcomes suggests a role in tumor development or progression.

Gene→Variant (gene-first): 23451:K666 23451:K700 23451:K700E 23451:R625

Genes: 23451

Variants: K666 K700 K700E R625

[Paragraph-level] PMCID: PMC10015977 Section: ABSTRACT PassageIndex: 4

Evidence Type(s): Diagnostic, Oncogenic

Justification: Diagnostic: The passage discusses the analysis of clinical-pathologic features and outcomes in MDS patients, specifically exploring differences between K700E and non-K700E variants, indicating a potential role in classification or association with disease characteristics. Oncogenic: The mention of analyzing the clinical-pathologic features of SF3B1mut patients, including K700E, suggests that this variant may contribute to tumor development or progression in the context of MDS.

Gene→Variant (gene-first): 23451:K700E

Genes: 23451

Variants: K700E

[Paragraph-level] PMCID: PMC3141770 Section: RESULTS PassageIndex: 6

Evidence Type(s): Oncogenic

Justification: Oncogenic: The passage indicates that the H1047R mutation is associated with PTEN loss in patients, suggesting that it contributes to tumor development or progression.

Gene→Variant (gene-first): 5290:H1047R

Genes: 5290

Variants: H1047R

[Paragraph-level] PMCID: PMC3141770 Section: RESULTS PassageIndex: 5

Evidence Type(s): Diagnostic, Oncogenic

Justification: Diagnostic: The passage discusses the incidence of PIK3CA mutations and their occurrence in specific samples, indicating their association with the disease. Oncogenic: The mention of PIK3CA mutations, including E542K and H1047R, suggests their role in tumor development, as they are described as mutations found in tumor samples.

Gene→Variant (gene-first): 5290:E542K 5290:H1047R 5728:T1052A

Genes: 5290 5728

Variants: E542K H1047R T1052A

[Paragraph-level] PMCID: PMC3542862 Section: RESULTS PassageIndex: 7

Evidence Type(s): Functional, Oncogenic

Justification: Functional: The passage discusses how mutations at amino acids p.Glu542 and p.His1047 increase intracellular AKT phosphorylation, indicating an alteration in molecular function related to AKT activation. Oncogenic: The mention of increased AKT phosphorylation due to the H1047R mutation suggests that this somatic variant contributes to tumor development or progression by promoting cellular processes such as survival and proliferation.

Gene→Variant (gene-first): 5290:H1047R 5290:p.Glu542 5290:p.His1047

Genes: 5290

Variants: H1047R p.Glu542 p.His1047

[Paragraph-level] PMCID: PMC3542862 Section: RESULTS PassageIndex: 6

Evidence Type(s): Oncogenic, Functional

Justification: Oncogenic: The passage discusses somatic mutations in the PIK3CA gene, specifically mentioning that the E542K, H1047R, and H1047L mutations are known gain-of-function mutations frequently mutated in cancer, indicating their contribution to tumor development or progression. Functional: The passage notes that the mutations E542K and H1047 (both H1047R and H1047L) are located in the helical and kinase domains of the PI3K protein, which are known hotspots for somatic gain-of-function mutations, suggesting that these variants alter the molecular function of the protein.

Gene→Variant (gene-first): 5290:E542K 5290:H1047L 5290:H1047R 5163:R115P 5290:p.Glu542 5290:p.His1047

Genes: 5290 5163

Variants: E542K H1047L H1047R R115P p.Glu542 p.His1047

[Paragraph-level] PMCID: PMC3542862 Section: RESULTS PassageIndex: 5

Evidence Type(s): Diagnostic, Oncogenic

Justification: Diagnostic: The R115P mutation in PIK3CA is suggested as a likely candidate for macrodactyly, indicating its association with a specific disease. Oncogenic: The R115L mutation is annotated in a database of somatic mutations in cancer, suggesting its contribution to tumor development or progression.

Gene→Variant (gene-first): 5290:R115L 5163:R115P 5290:p.Arg115

Genes: 5290 5163

Variants: R115L R115P p.Arg115

[Paragraph-level] PMCID: PMC3542862 Section: RESULTS PassageIndex: 4

Evidence Type(s): Diagnostic, Oncogenic

Justification: Diagnostic: The passage discusses the presence of the R115P mutation in PIK3CA in lesional tissue but not in blood, indicating its potential role in defining or confirming a disease state. Oncogenic: The R115P mutation in PIK3CA is described as potentially deleterious and is present in lesional tissue, suggesting it contributes to tumor development or progression.

Gene→Variant (gene-first): 91544:C392G 5163:R115P

Genes: 91544 5163

Variants: C392G R115P

[Paragraph-level] PMCID: PMC2837563 Section: ABSTRACT PassageIndex: 6

Evidence Type(s): Oncogenic, Functional

Justification: Oncogenic: The passage discusses K-Ras mutations identified in tumors, indicating that these variants contribute to tumor development or progression, particularly with reference to their phenotypes in the context of cancer. Functional: The passage describes the phenotypic effects of the K-Ras mutations, suggesting that they alter molecular or biochemical function, as evidenced by the comparison of their phenotypes to hotspot mutations and wild-type K-Ras.

Gene→Variant (gene-first): 3845:Ala146Thr 3845:Arg164Gln 3845:Leu19Phe 3845:Lys117Asn

Genes: 3845

Variants: Ala146Thr Arg164Gln Leu19Phe Lys117Asn

[Paragraph-level] PMCID: PMC8688876 Section: RESULTS PassageIndex: 20

Evidence Type(s): Functional, Oncogenic

Justification: Functional: The passage discusses how specific amino acid substitutions at G12, G13, and Q61 alter biochemical properties and mechanisms across RAS proteins, indicating a change in molecular function related to GTP hydrolysis and downstream signaling. Oncogenic: The mention of hotspot variants and their clustering patterns suggests that these somatic variants contribute to tumor development or progression, particularly in the context of their distinct biochemical properties and disease incidence.

Gene→Variant (gene-first): 3845:G12 3845:G13 3845:Q61

Genes: 3845

Variants: G12 G13 Q61

[Paragraph-level] PMCID: PMC8688876 Section: RESULTS PassageIndex: 19

Evidence Type(s): Functional, Oncogenic

Justification: Functional: The passage discusses how different KRAS mutations, including G12C/D and G12D, affect downstream activity and enzyme function, as demonstrated by Western blot analyses measuring pERK levels. Oncogenic: The mention of KRAS hotspot variants and their distinct effects on downstream signaling suggests that these somatic mutations contribute to tumor development or progression.

Gene→Variant (gene-first): 3845:G12 3845:G12C 3845:G12C/D 3845:G12D 3845:G13 3845:Q61

Genes: 3845

Variants: G12 G12C G12C/D G12D G13 Q61

[Paragraph-level] PMCID: PMC8688876 Section: RESULTS PassageIndex: 15

Evidence Type(s): Functional, Oncogenic

Justification: Functional: The passage discusses how the KRAS variants alter RAF affinity, indicating that these variants affect molecular function, specifically in relation to protein interactions and binding properties. Oncogenic: The context of the variants being associated with RAF affinity suggests a role in tumor development or progression, as RAF is a key component in signaling pathways that drive cancer.

Gene→Variant (gene-first): 3845:A146T 3265:A146V 673:A18D 3265:A59T 3845:G12C 3845:G12C/D 3845:G12R 3845:G13C/D 3265:G13V 3845:K117N 3845:L19F 3845:Q22K 3845:Q61H/L 3845:Q61P 4893:Q61R 3845:R164Q 22882:T74P 22882:V/A

Genes: 3845 3265 673 4893 22882

Variants: A146T A146V A18D A59T G12C G12C/D G12R G13C/D G13V K117N L19F Q22K Q61H/L Q61P Q61R R164Q T74P V/A

[Paragraph-level] PMCID: PMC8688876 Section: RESULTS PassageIndex: 13

Evidence Type(s): Functional, Predictive, Oncogenic

Justification: Functional: The passage discusses how mutated KRAS proteins may alter GAP binding and change GAP-mediated hydrolysis rates, indicating that the variants affect molecular function. Predictive: The analysis provides a probability density distribution and suggests that the variants can predict relative levels for mutations based on their GAP-mediated hydrolysis rates, indicating a correlation with functional outcomes. Oncogenic: The context of the variants being associated with cancer and their effects on GAP-mediated hydrolysis suggests that these somatic variants contribute to tumor development or progression.

Gene→Variant (gene-first): 3845:A146T 3265:A146V 673:A18D 3265:A59T 3845:G12A/R 3845:G12D 3845:G12S 3845:G13C 3845:G13D 3265:G13V 3845:K117N 3845:L19F 3845:Q22K 3845:Q61H 22882:T74P

Genes: 3845 3265 673 22882

Variants: A146T A146V A18D A59T G12A/R G12D G12S G13C G13D G13V K117N L19F Q22K Q61H T74P

[Paragraph-level] PMCID: PMC7325368 Section: ABSTRACT PassageIndex: 2

Evidence Type(s): Predictive, Oncogenic

Justification: Predictive: The passage discusses lifirafenib as an inhibitor specifically targeting B-RAFV600E, indicating a correlation with response to therapy in patients with B-RAF-mutated tumors. Oncogenic: The mention of B-RAFV600E in the context of mutated solid tumors suggests that this somatic variant contributes to tumor development or progression.

Gene→Variant (gene-first): 673:B-RAFV600E

Genes: 673

Variants: B-RAFV600E

[Paragraph-level] PMCID: PMC7325368 Section: RESULTS PassageIndex: 11

Evidence Type(s): Predictive, Diagnostic, Oncogenic

Justification: Predictive: The passage discusses the confirmed responses and stable disease (SD) in patients with K-RAS mutations, including G13D, indicating a correlation with treatment response. Diagnostic: The mention of K-RAS mutations, including G13D, in the context of specific cancer types (endometrial cancer and NSCLC) suggests its role in classifying or defining these diseases. Oncogenic: The reference to K-RAS mutations, including G13D, contributing to tumor development in specific cancer types supports the classification of this variant as oncogenic.

Gene→Variant (gene-first): 3845:G13D

Genes: 3845

Variants: G13D

[Paragraph-level] PMCID: PMC7325368 Section: RESULTS PassageIndex: 10

Evidence Type(s): Predictive, Oncogenic

Justification: Predictive: The passage discusses the responses of patients with B-RAF mutations to therapy, indicating a correlation between the B-RAFV600E variant and treatment response, which is characteristic of predictive evidence. Oncogenic: The B-RAFV600E variant is mentioned in the context of patients with B-RAF-mutated tumors, suggesting its role in tumor development or progression, which aligns with oncogenic evidence.

Gene→Variant (gene-first): 673:B-RAFV600E

Genes: 673

Variants: B-RAFV600E

[Paragraph-level] PMCID: PMC8033310 Section: ABSTRACT PassageIndex: 4

Evidence Type(s): Oncogenic, Functional

Justification: Oncogenic: The passage discusses the establishment of TNBC cell lines with PIK3CA gene mutations (E545K and H1047R) and their use in in vivo experiments, indicating that these somatic variants contribute to tumor development or progression. Functional: The passage mentions the use of various assays (e.g., western blot, quantitative reverse transcription-polymerase chain reaction) to detect gene and protein expression levels, suggesting that the variants may alter molecular or biochemical function.

Gene→Variant (gene-first): 5290:E545K 5290:H1047R

Genes: 5290

Variants: E545K H1047R

[Paragraph-level] PMCID: PMC6549573 Section: ABSTRACT PassageIndex: 1

Evidence Type(s): Predictive, Oncogenic

Justification: Predictive: The passage discusses the correlation between the KRAS G12D mutation and response to the therapy bortezomib, indicating that exceptional responses can be achieved in patients with this mutation. Oncogenic: The KRAS G12D mutation is described as a somatic variant that contributes to tumor development in non-small-cell lung cancer (NSCLC) models, indicating its role in oncogenesis.

Gene→Variant (gene-first): 3845:G12D

Genes: 3845

Variants: G12D

[Paragraph-level] PMCID: PMC11551396 Section: RESULTS PassageIndex: 16

Evidence Type(s): Functional, Oncogenic

Justification: Functional: The passage discusses how the C797 variant forms a covalent bond with the inhibitor, indicating an alteration in molecular function related to drug binding. Oncogenic: The T790M and V948R variants are described in the context of adopting an inactive kinase conformation, which suggests their role in tumor progression or development.

Gene→Variant (gene-first): 1956:C797 1956:T790M 1956:V948R

Genes: 1956

Variants: C797 T790M V948R

[Paragraph-level] PMCID: PMC11551396 Section: RESULTS PassageIndex: 9

Evidence Type(s): Predictive, Oncogenic

Justification: Predictive: The passage discusses the correlation between the L858R variant and drug sensitivity, indicating that the L858R mutation has a drug-sensitizing effect, which aligns with predictive evidence regarding therapy response. Oncogenic: The L858R variant is implicated in greater potency against EGFR compared to WT EGFR, suggesting its role in tumor development or progression, which is characteristic of oncogenic evidence.

Gene→Variant (gene-first): 1956:L858R

Genes: 1956

Variants: L858R

[Paragraph-level] PMCID: PMC11551396 Section: RESULTS PassageIndex: 5

Evidence Type(s): Predictive, Oncogenic

Justification: Predictive: The passage discusses the enhanced inhibitor sensitivity of the L858R variant in relation to its decreased affinity for ATP, indicating a correlation with sensitivity to EGFR TKIs, which aligns with predictive evidence. Oncogenic: The passage implies that the L858R variant contributes to oncogenicity, as it discusses the variant's biochemical properties and their relation to tumor development and progression.

Gene→Variant (gene-first): 1956:L858R

Genes: 1956

Variants: L858R

[Paragraph-level] PMCID: PMC6843359 Section: RESULTS PassageIndex: 10

Evidence Type(s): Functional, Oncogenic

Justification: Functional: The passage discusses the interaction of the S310F HER2 mutant with EGFR and its altered reactivity to specific antibodies, indicating a change in molecular function. Oncogenic: The S310F HER2 variant is implicated in altered interactions that may contribute to tumor development or progression, as suggested by the context of the study involving cancer-related proteins.

Gene→Variant (gene-first): 2064:S310F

Genes: 2064

Variants: S310F

[Paragraph-level] PMCID: PMC6843359 Section: RESULTS PassageIndex: 8

Evidence Type(s): Predictive, Oncogenic

Justification: Predictive: The passage discusses the effects of anti-HER2 agents on cell proliferation and HER2 phosphorylation in relation to the S310F HER2 mutant, indicating a correlation with response to specific therapies. Oncogenic: The S310F variant is implicated in the phosphorylation process and cell proliferation in cancer cells, suggesting its role in tumor development or progression.

Gene→Variant (gene-first): 2064:S310F

Genes: 2064

Variants: S310F

[Paragraph-level] PMCID: PMC6843359 Section: RESULTS PassageIndex: 7

Evidence Type(s): Oncogenic

Justification: Oncogenic: The passage indicates that the S310F variant in HER2 is associated with activation in a cell line, suggesting its role in tumor development or progression.

Gene→Variant (gene-first): 2064:S310F

Genes: 2064

Variants: S310F

[Paragraph-level] PMCID: PMC6843359 Section: RESULTS PassageIndex: 6

Evidence Type(s): Functional, Oncogenic

Justification: Functional: The passage discusses the expression of the S310F HER2 mutant and its interaction with pertuzumab, indicating that the variant alters the molecular function of HER2 in terms of immunoprecipitation. Oncogenic: The S310F variant is described in the context of its expression in cancer cell lines, suggesting that it may contribute to tumor development or progression.

Gene→Variant (gene-first): 2064:S310F

Genes: 2064

Variants: S310F

[Paragraph-level] PMCID: PMC6843359 Section: RESULTS PassageIndex: 5

Evidence Type(s): Functional, Oncogenic

Justification: Functional: The passage discusses the expression and detection of the S310F HER2 mutant in a bladder cancer cell line, indicating that the variant alters the molecular function of the HER2 protein as it is being analyzed for its presence on the cell surface. Oncogenic: The S310F variant is discussed in the context of a bladder cancer cell line, suggesting that it may contribute to tumor development or progression, which aligns with the definition of an oncogenic variant.

Gene→Variant (gene-first): 2064:S310 2064:S310F

Genes: 2064

Variants: S310 S310F

[Paragraph-level] PMCID: PMC5762309 Section: ABSTRACT PassageIndex: 1

Evidence Type(s): Predictive, Oncogenic

Justification: Predictive: The passage discusses the selective inhibitor CHMFL-KIT-031 and its efficacy against the KIT V559D mutation, indicating a correlation with response to therapy. Oncogenic: The KIT V559D mutation is described as a primary gain-of-function mutation in GISTs, suggesting it contributes to tumor development or progression.

Gene→Variant (gene-first): 3815:D816V 3815:L576P 3815:N822K 3815:T670I 3815:V559D 3815:V654A

Genes: 3815

Variants: D816V L576P N822K T670I V559D V654A

[Paragraph-level] PMCID: PMC5002925 Section: ABSTRACT PassageIndex: 1

Evidence Type(s): Predictive, Oncogenic

Justification: Predictive: The passage discusses the treatment of a patient with advanced colorectal cancer using trastuzumab based on the presence of the ERBB2 p.L755S mutation, indicating a correlation with therapy response. Oncogenic: The mention of the ERBB2 p.L755S mutation as a genetic driver event in the context of advanced colorectal cancer suggests its role in tumor development or progression.

Gene→Variant (gene-first): 2064:p.L755S 673:p.N581S 324:p.Q1429fs

Genes: 2064 673 324

Variants: p.L755S p.N581S p.Q1429fs

[Paragraph-level] PMCID: PMC10011885 Section: RESULTS PassageIndex: 24

Evidence Type(s): Predictive, Oncogenic

Justification: Predictive: The passage discusses the emergence of KRAS mutations associated with treatment resistance, indicating a correlation with response to therapy, specifically in the context of chemotherapy and targeted treatments. Oncogenic: The passage describes the identification of KRAS mutations that contribute to tumor progression, particularly noting the emergence of these mutations prior to disease progression, which is indicative of their role in cancer development.

Gene→Variant (gene-first): 3791:A163G 3845:G12D 3845:G12N 3845:G13D 3845:Q61H 4893:Q61L 79811:R106H 673:V600E

Genes: 3791 3845 4893 79811 673

Variants: A163G G12D G12N G13D Q61H Q61L R106H V600E

[Paragraph-level] PMCID: PMC10011885 Section: RESULTS PassageIndex: 23

Evidence Type(s): Oncogenic

Justification: Oncogenic: The passage discusses the retention of the BRAF V600E mutation in patients with mCRC, indicating its role in tumor development or progression, particularly in the context of disease progression and treatment response.

Gene→Variant (gene-first): 673:V600E

Genes: 673

Variants: V600E

[Paragraph-level] PMCID: PMC10011885 Section: RESULTS PassageIndex: 19

Evidence Type(s): Predictive, Oncogenic

Justification: Predictive: The passage discusses how early changes in ctDNA levels, specifically related to the BRAF V600E variant, are predictive of clinical benefit and objective response to combination vemurafenib and erlotinib therapy. Oncogenic: The BRAF V600E variant is implicated in tumor dynamics and is associated with the response to treatment, indicating its role in tumor development or progression.

Gene→Variant (gene-first): 673:V600E

Genes: 673

Variants: V600E

[Paragraph-level] PMCID: PMC10011885 Section: RESULTS PassageIndex: 16

Evidence Type(s): Predictive, Diagnostic, Oncogenic

Justification: Predictive: The passage indicates that the presence of genetic alterations, including the NRAS G13C mutation, correlates with clinical benefit from treatment, suggesting a predictive relationship regarding therapy response. Diagnostic: The mention of the NRAS G13C mutation being detected in a patient implies its role in identifying or classifying the disease, which aligns with diagnostic evidence. Oncogenic: The NRAS G13C mutation is discussed in the context of being a mutation found in a patient, which suggests its potential role in tumor development or progression.

Gene→Variant (gene-first): 4893:G13C

Genes: 4893

Variants: G13C

[Paragraph-level] PMCID: PMC10011885 Section: RESULTS PassageIndex: 15

Evidence Type(s): Diagnostic, Prognostic, Oncogenic

Justification: Diagnostic: The passage indicates that BRAF V600E mutant ctDNA is detected in a significant proportion of patients, suggesting its use in defining or confirming the presence of a specific disease. Prognostic: The passage states that higher levels of ctDNA at baseline are associated with inferior progression-free survival (PFS) and overall survival (OS), indicating a correlation with disease outcome independent of therapy. Oncogenic: The presence of the BRAF V600E variant in ctDNA suggests its role in tumor development or progression, as it is a known somatic mutation associated with cancer.

Gene→Variant (gene-first): 673:V600E

Genes: 673

Variants: V600E

[Paragraph-level] PMCID: PMC10011885 Section: RESULTS PassageIndex: 3

Evidence Type(s): Diagnostic, Oncogenic

Justification: Diagnostic: The passage mentions that the non-colorectal cancer cohort included patients who were BRAF V600E mutation positive, indicating that this variant is used to classify or define a specific group of patients with selected cancers. Oncogenic: The BRAF V600E mutation is associated with tumor development in various cancers, as indicated by its presence in patients with selected cancers, suggesting its role in oncogenesis.

Gene→Variant (gene-first): 673:V600E

Genes: 673

Variants: V600E

[Paragraph-level] PMCID: PMC8700411 Section: ABSTRACT PassageIndex: 1

Evidence Type(s): Predictive, Diagnostic, Oncogenic

Justification: Predictive: The passage discusses the sensitivity of specific EGFR variants (D770 and G770) to various EGFR-TKIs, indicating a correlation with response to therapy. Diagnostic: The mention of EGFR exon 20 insertion mutations and their frequency in lung cancer suggests that these variants are used to classify and define a specific subtype of the disease. Oncogenic: The variants D770 and G770 are described as contributing to tumor development, as they are part of the EGFR mutations associated with lung cancer.

Gene→Variant (gene-first): 1956:D770 1956:G770 1956:Y764insFQEA

Genes: 1956

Variants: D770 G770 Y764insFQEA

[Paragraph-level] PMCID: PMC8700411 Section: RESULTS PassageIndex: 10

Evidence Type(s): Predictive, Oncogenic

Justification: Predictive: The passage discusses the response of patients with metastatic lung cancers harboring EGFR exon 20 insertion mutations, including G770, to various EGFR TKIs, indicating a correlation with treatment response. Oncogenic: The mention of tumors harboring EGFR exon 20 insertion mutations, including G770, suggests that this somatic variant contributes to tumor development or progression in the context of metastatic lung cancers.

Gene→Variant (gene-first): 1956:G770

Genes: 1956

Variants: G770

[Paragraph-level] PMCID: PMC8700411 Section: RESULTS PassageIndex: 9

Evidence Type(s): Diagnostic, Oncogenic

Justification: Diagnostic: The passage discusses patients with advanced lung cancers harboring EGFR Exon 20 insertion mutations, indicating that the variant is used to classify or define a specific disease subtype. Oncogenic: The mention of advanced lung cancers suggests that the G770 variant contributes to tumor development or progression, aligning with the definition of an oncogenic variant.

Gene→Variant (gene-first): 1956:G770

Genes: 1956

Variants: G770

[Paragraph-level] PMCID: PMC8700411 Section: RESULTS PassageIndex: 6

Evidence Type(s): Predictive, Oncogenic

Justification: Predictive: The passage discusses the response of cells with the A767_V769dupASV mutant to specific therapies (afatinib and dacomitinib), indicating a correlation between the variant and treatment sensitivity. Oncogenic: The variant A767_V769dupASV is mentioned in the context of proliferation assays, suggesting that it contributes to tumor development or progression in the tested cell lines.

Gene→Variant (gene-first): 1956:V769dupASV

Genes: 1956

Variants: V769dupASV

[Paragraph-level] PMCID: PMC8700411 Section: RESULTS PassageIndex: 5

Evidence Type(s): Predictive, Oncogenic

Justification: Predictive: The passage discusses the sensitivity and resistance of various EGFR mutations, including D770_N771insSVD, V769dupASV, and Y764insFQEA, to different EGFR TKIs, indicating a correlation with response to therapy. Oncogenic: The variants mentioned are associated with the development of cancer, as they are described in the context of a Ba/F3 cell line model driven by specific EGFR mutations, which contribute to tumor behavior.

Gene→Variant (gene-first): 1956:D770_N771insSVD 1956:V769dupASV 1956:Y764insFQEA

Genes: 1956

Variants: D770_N771insSVD V769dupASV Y764insFQEA

[Paragraph-level] PMCID: PMC8700411 Section: RESULTS PassageIndex: 3

Evidence Type(s): Diagnostic, Oncogenic

Justification: Diagnostic: The passage discusses the prevalence of the G770 variant in a cohort of cases with EGFR exon 20 insertion mutations, indicating its association with a specific mutation type and providing context for its classification. Oncogenic: The mention of the G770 variant in the context of EGFR mutations suggests its role in tumor development or progression, as it is part of a known oncogenic pathway associated with cancer.

Gene→Variant (gene-first): 1956:G770

Genes: 1956

Variants: G770

[Paragraph-level] PMCID: PMC9338780 Section: ABSTRACT PassageIndex: 4

Evidence Type(s): Predictive, Oncogenic

Justification: Predictive: The passage discusses the evaluation of dabrafenib plus trametinib in patients with BRAF V600E-mutant cancers, indicating a correlation with treatment response. Oncogenic: The mention of BRAF V600E in the context of a study for rare cancers suggests that this somatic variant contributes to tumor development or progression.

Gene→Variant (gene-first): 673:V600E

Genes: 673

Variants: V600E

[Paragraph-level] PMCID: PMC8727519 Section: ABSTRACT PassageIndex: 6

Evidence Type(s): Predictive, Oncogenic

Justification: Predictive: The passage discusses T790M as a resistance mechanism to first-generation EGFR tyrosine kinase inhibitors, indicating its correlation with treatment response. Oncogenic: The mention of T790M in the context of an acquired resistance mechanism suggests that it contributes to tumor progression in EGFR-mutated NSCLC.

Gene→Variant (gene-first): 1956:T790M

Genes: 1956

Variants: T790M

[Paragraph-level] PMCID: PMC8727519 Section: ABSTRACT PassageIndex: 4

Evidence Type(s): Predictive, Oncogenic

Justification: Predictive: The passage discusses the T790M variant as a potential resistance mechanism to icotinib treatment, indicating its correlation with treatment response. Oncogenic: The L858R variant is described as being present in a patient with lung adenocarcinoma, suggesting its role in tumor development or progression.

Gene→Variant (gene-first): 1956:L858R 1956:T790M

Genes: 1956

Variants: L858R T790M

[Paragraph-level] PMCID: PMC11272140 Section: ABSTRACT PassageIndex: 8

Evidence Type(s): Predictive, Oncogenic

Justification: Predictive: The passage discusses the variant G2032R in the context of acquired resistance mutations and mentions the overall responses and prolonged progression-free survival (PFS) associated with taletrectinib, indicating a correlation with treatment response. Oncogenic: The mention of G2032R as an acquired resistance mutation suggests that it contributes to tumor development or progression, particularly in the context of therapy resistance.

Gene→Variant (gene-first): 6098:G2032R

Genes: 6098

Variants: G2032R

[Paragraph-level] PMCID: PMC11272140 Section: ABSTRACT PassageIndex: 2

Evidence Type(s): Predictive, Oncogenic

Justification: Predictive: The passage discusses the activity of taletrectinib against the G2032R variant, highlighting its correlation with high response rates and prolonged progression-free survival, indicating predictive evidence related to therapy response. Oncogenic: The mention of the G2032R variant in the context of ROS1+ non-small cell lung cancer suggests that it may contribute to tumor development or progression, aligning with oncogenic evidence.

Gene→Variant (gene-first): 6098:G2032R

Genes: 6098

Variants: G2032R

[Paragraph-level] PMCID: PMC3244026 Section: RESULTS PassageIndex: 8

Evidence Type(s): Functional, Oncogenic

Justification: Functional: The passage describes how N-terminal and C-terminal truncating mutations in the ETV6 gene alter the expression of truncated protein products, indicating a change in molecular function. Oncogenic: The context of the mutations being associated with hematopoietic tumors suggests that these somatic variants contribute to tumor development or progression.

Gene→Variant (gene-first): 2120:N356fs 2120:S105fs 2120:V345fs 2120:Y103fs

Genes: 2120

Variants: N356fs S105fs V345fs Y103fs

[Paragraph-level] PMCID: PMC9402235 Section: RESULTS PassageIndex: 9

Evidence Type(s): Oncogenic, Diagnostic

Justification: Oncogenic: The passage describes the NM_005648.4(ELOC):c.236A>G (p.Tyr79Cys) variant as a somatic variant found in renal cell carcinomas (RCCs) and indicates its role in VHL-independent renal tumorigenesis, supporting its contribution to tumor development. Diagnostic: The passage discusses the search for germline ELOC variants in individuals with a VHL-like phenotype and indicates that the NM_005648.4(ELOC):c.236A>G (p.Tyr79Cys) variant was absent in these individuals, suggesting its potential use in defining or excluding a disease or subtype.

Gene→Variant (gene-first): 3091:c.236A>G 6921:c.261_272del 5979:c.274G>A 6921:c.311T>A 3855:c.74A>T 3855:p.Asp25Val 7409:p.Glu92Lys 6921:p.Leu104Gln 6921:p.Thr88_Pro91del 3091:p.Tyr79Cys

Genes: 3091 6921 5979 3855 7409

Variants: c.236A>G c.261_272del c.274G>A c.311T>A c.74A>T p.Asp25Val p.Glu92Lys p.Leu104Gln p.Thr88_Pro91del p.Tyr79Cys

[Paragraph-level] PMCID: PMC7612117 Section: ABSTRACT PassageIndex: 1

Evidence Type(s): Oncogenic, Predictive

Justification: Oncogenic: The variant p.L1363P is shown to disrupt the interaction with PALB2 and leads to the development of mammary tumors, indicating its contribution to tumor development. Predictive: The passage states that Brca1 p.L1363P mammary tumors are responsive to cisplatin and PARP inhibition, suggesting a correlation with treatment response.

Gene→Variant (gene-first): 7158:p.L1363P

Genes: 7158

Variants: p.L1363P