getBinaryMutationData: Compute a binary gene mutation data matrix from SNP and other...
In rcellminer: rcellminer: Molecular Profiles, Drug Response, and Chemical Structures for the NCI-60 Cell Lines
Description
Usage
Arguments
Value
View source: R/getBinaryMutationData.R
Description
Compute a binary gene mutation data matrix from SNP and other mutation
event-level data.
Usage
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getBinaryMutationData(
mutInfo,
mutData,
maxVariantFreq = 0.2,
maxNormalPopulationFreq = 0.005,
maxSiftScore = 0.05,
minPolyPhenScore = 0.85
)
Arguments
mutInfo
A data frame with the following named columns:
Gene, the name of the gene associated with the mutation event;
probe.ids, a unique identifier specifying the mutation event;
SNP_1000_genome, the frequency of the mutation event in SNP 1000;
ESP5400, the frequency of the mutation event in ESP5400;
SNP_type, the type of mutation event, chosen from "MISSENSE", "FRAMESHIFT",
"NONFRAMESHIFT", "NONSENSE", "SPLICING";
SIFT_score, the SIFT score;
Polyphen_score, the POLYPHEN score.
Rownames of mutInfo should be set to probe.ids, i.e., the unique mutation
event specifier.
mutData
A matrix with event level mutation information, with SNPs, etc.
along rows and samples along columns. Rownames of mutData should exactly
match those of mutInfo. The i-th row of mutInfo should thus give detailed
information for the mutation event with data specified in the i-th row of
mutData.
maxVariantFreq
The maximum proportion of mutant samples (used to
exclude frequently occuring events); default value = 0.2.
maxNormalPopulationFreq
The maximum freqency of a mutation in the normal
population (used to exclude likely germline variants); default value = 0.005.
maxSiftScore
The maximum accepted SIFT score (used to exclude
presumed non-deleterious mutations); default value = 0.05.
minPolyPhenScore
The minimum accepted POLYPHEN score (used to
exclude presumed non-deleterious mutations); default value = 0.85.
Value
A binary gene mutation matrix, with genes along rows, samples
along columns, and 1s indicating deleterious mutations.
rcellminer documentation built on Nov. 26, 2020, 2:02 a.m.
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Description Usage Arguments Value
View source: R/getBinaryMutationData.R
Description
Compute a binary gene mutation data matrix from SNP and other mutation event-level data.
Usage
1 2 3 4 5 6 7 8 | getBinaryMutationData(
mutInfo,
mutData,
maxVariantFreq = 0.2,
maxNormalPopulationFreq = 0.005,
maxSiftScore = 0.05,
minPolyPhenScore = 0.85
)
|
Arguments
mutInfo |
A data frame with the following named columns: Gene, the name of the gene associated with the mutation event; probe.ids, a unique identifier specifying the mutation event; SNP_1000_genome, the frequency of the mutation event in SNP 1000; ESP5400, the frequency of the mutation event in ESP5400; SNP_type, the type of mutation event, chosen from "MISSENSE", "FRAMESHIFT", "NONFRAMESHIFT", "NONSENSE", "SPLICING"; SIFT_score, the SIFT score; Polyphen_score, the POLYPHEN score. Rownames of mutInfo should be set to probe.ids, i.e., the unique mutation event specifier. |
mutData |
A matrix with event level mutation information, with SNPs, etc. along rows and samples along columns. Rownames of mutData should exactly match those of mutInfo. The i-th row of mutInfo should thus give detailed information for the mutation event with data specified in the i-th row of mutData. |
maxVariantFreq |
The maximum proportion of mutant samples (used to exclude frequently occuring events); default value = 0.2. |
maxNormalPopulationFreq |
The maximum freqency of a mutation in the normal population (used to exclude likely germline variants); default value = 0.005. |
maxSiftScore |
The maximum accepted SIFT score (used to exclude presumed non-deleterious mutations); default value = 0.05. |
minPolyPhenScore |
The minimum accepted POLYPHEN score (used to exclude presumed non-deleterious mutations); default value = 0.85. |
Value
A binary gene mutation matrix, with genes along rows, samples along columns, and 1s indicating deleterious mutations.
R Package Documentation
Browse R Packages
We want your feedback!
Note that we can't provide technical support on individual packages. You should contact the package authors for that.
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