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HRAS × Head and Neck Squamous Cell Carcinoma ×

HRAS is detected as a mutational cancer driver in Head and Neck Squamous Cell Carcinoma

HRAS reports in Head and Neck Squamous Cell Carcinoma (HNSC)

Cancer type details
Head and Neck Squamous Cell Carcinoma
Cohorts 6
Samples 818
Mutations 2,112,343
Driver genes 80
Gene details
HRAS
Ensembl ID ENSG00000174775
Transcript ID ENST00000451590
Protein ID ENSP00000407586
Cohorts where is driver 4
Mutated samples 40
Mutated samples (%) 4.89
Mutations 45
Mode of action Activating
Known driver True
Method signals per Cohort
Cohort Methods Samples Samples (%)
ClustL HotMAPS smRegions Clustered Mutations
CBaSE dNdScv Recurrent Mutations
FML Functional Mutations
MutPanning Tri-nucleotide specific bias
combination Combination
In-silico saturation mutagenesis
Alt text
In-silico saturation mutagenesis Left: In silico saturation mutagenesis of all coding variants represented in their relative position of the gene coding sequence. Relevant functional protein domains are represented within each gene body. Potential driver mutations appear in red and potential passenger mutations in gray. The concentration of driver mutations at different regions of the protein is represented as a density. The vertical bar plot shows the frequency bins of boostDM scores. Right: For each random subsample of the tumor type cohort, the number of unique mutations mapping to the gene can be counted. The bend of the best fitting curve to the subsampling data is informative of how close the current pool of mutations is from representing all the possible mutations in this gene-tumor type context..
Model Mutations Driver mutations Driver mutations (%)
HNSC (Head and Neck Squamous Cell Carcinoma) 1692 47 2.78
Observed mutations in tumors
The mutations needle plot shows the distribution of the observed mutations along the protein sequence.
Mutation (GRCh38) Protein Position Samples Samples (%) Consequence Driver Driver score