using frma and brainarray cdf on exon arrays
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Ty Thomson ▴ 100
@ty-thomson-5919
Last seen 9.5 years ago
United States
Apologies if any of my questions are naïve, as I don't have a lot of experience with exon arrays. I would like to analyze an Affy HuGene 1.0 ST array using the brainArray CDF (because I want to get expression values on a per gene level), and use fRMA (to correct for batch effects and enable me to add additional samples in the future without redoing RMA). Is this possible? Here's what I've tried without much success thus far: I can skip brainarray and just load the data and run fRMA without error: > exonFS <- read.celfiles(filenames=cel.files, verbose=F, celfile.path=NULL) > tmp.eset <- frma(exonFS, summarize="median_polish") But when I use ReadAffy and specify the cdf, fRMA generates an error: > Affybatch <- ReadAffy(filenames=cel.files, verbose=F, celfile.path=NULL, cdfname="hugene10sthsentrezg") Warning message: The affy package can process data from the Gene ST 1.x series of arrays, but you should consider using either the oligo or xps packages, which are specifically designed for these arrays. > tmp.eset <- frma(Affybatch, summarize="median_polish") Error in frmaMedPol(object, background, normalize, target, input.vecs, : hugene10stfrmavecs package must be installed first In addition: Warning message: In library(package, lib.loc = lib.loc, character.only = TRUE, logical.return = TRUE, : there is no package called 'hugene10stfrmavecs' When I try running fRMA while directly passing the frmavecs to the function I get a different error: > data(hugene.1.0.st.v1frmavecs) > tmp.eset <- frma(Affybatch, summarize="median_polish", input.vecs=hugene.1.0.st.v1frmavecs) Warning message: In log2(pms) - input.vecs$probeVec : longer object length is not a multiple of shorter object length Thanks in advance for any help, Ty > sessionInfo() R version 3.0.1 (2013-05-16) Platform: x86_64-w64-mingw32/x64 (64-bit) locale: [1] LC_COLLATE=English_United States.1252 LC_CTYPE=English_United States.1252 LC_MONETARY=English_United States.1252 [4] LC_NUMERIC=C LC_TIME=English_United States.1252 attached base packages: [1] parallel stats graphics grDevices utils datasets methods base other attached packages: [1] hugene10sthsentrezgcdf_17.1.0 AnnotationDbi_1.22.6 hugene.1.0.st.v1frmavecs_0.0.3 pd.hugene.1.0.st.v1_3.8.0 [5] RSQLite_0.11.4 DBI_0.2-7 frma_1.12.0 oligo_1.24.2 [9] oligoClasses_1.22.0 affy_1.38.1 Biobase_2.20.1 BiocGenerics_0.6.0 loaded via a namespace (and not attached): [1] affxparser_1.32.3 affyio_1.28.0 BiocInstaller_1.10.4 Biostrings_2.28.0 bit_1.1-11 codetools_0.2-8 [7] ff_2.2-12 foreach_1.4.1 GenomicRanges_1.12.5 IRanges_1.18.4 iterators_1.0.6 MASS_7.3-29 [13] preprocessCore_1.22.0 splines_3.0.1 stats4_3.0.1 tools_3.0.1 zlibbioc_1.6.0 [[alternative HTML version deleted]]
cdf affy PROcess oligo xps frma cdf affy PROcess oligo xps frma • 2.6k views
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@matthew-mccall-4459
Last seen 5.5 years ago
United States
Ty, Unfortunately, what you are attempting to do is not currently implemented. The frmavecs packages for the 3' Affy arrays (HGU133a, HGU133plus2, etc) contain implementations for both the Affy and BrainArray CDFs. The issue is with the newer Affy arrays (HuGene 1.0 ST, etc.), which should really be read in using the oligo package and corresponding pd annotation packages. This is implemented in frma for the Affy annotation, but currently the BrainArray folks provide CDFs, which can't be readily used. This may be changing fairly soon -- I believe the BrainArray group may start offering oligo compatible annotation packages. Until then, to do what you would like would require: (1) making your own pd annotation package corresponding to the BrainArray alternative CDF, and (2) creating your own frmavecs package for the alternative annotation. Best, Matt On Mon, Jan 13, 2014 at 2:53 PM, Ty Thomson <tthomson at="" selventa.com=""> wrote: > Apologies if any of my questions are na?ve, as I don?t have a lot of > experience with exon arrays. I would like to analyze an Affy HuGene 1.0 ST > array using the brainArray CDF (because I want to get expression values on a > per gene level), and use fRMA (to correct for batch effects and enable me to > add additional samples in the future without redoing RMA). Is this > possible? Here?s what I?ve tried without much success thus far: > > > > I can skip brainarray and just load the data and run fRMA without error: > >> exonFS <- read.celfiles(filenames=cel.files, verbose=F, celfile.path=NULL) > >> tmp.eset <- frma(exonFS, summarize="median_polish") > > > > But when I use ReadAffy and specify the cdf, fRMA generates an error: > >> Affybatch <- ReadAffy(filenames=cel.files, verbose=F, celfile.path=NULL, >> cdfname="hugene10sthsentrezg") > > Warning message: > > > > The affy package can process data from the Gene ST 1.x series of arrays, > > but you should consider using either the oligo or xps packages, which are > specifically > > designed for these arrays. > > > >> tmp.eset <- frma(Affybatch, summarize="median_polish") > > Error in frmaMedPol(object, background, normalize, target, input.vecs, : > > hugene10stfrmavecs package must be installed first > > In addition: Warning message: > > In library(package, lib.loc = lib.loc, character.only = TRUE, logical.return > = TRUE, : > > there is no package called ?hugene10stfrmavecs? > > > > > > When I try running fRMA while directly passing the frmavecs to the function > I get a different error: > >> data(hugene.1.0.st.v1frmavecs) > >> tmp.eset <- frma(Affybatch, summarize="median_polish", >> input.vecs=hugene.1.0.st.v1frmavecs) > > Warning message: > > In log2(pms) - input.vecs$probeVec : > > longer object length is not a multiple of shorter object length > > > > > > Thanks in advance for any help, > > > > Ty > > > > > >> sessionInfo() > > R version 3.0.1 (2013-05-16) > > Platform: x86_64-w64-mingw32/x64 (64-bit) > > > > locale: > > [1] LC_COLLATE=English_United States.1252 LC_CTYPE=English_United > States.1252 LC_MONETARY=English_United States.1252 > > [4] LC_NUMERIC=C LC_TIME=English_United > States.1252 > > > > attached base packages: > > [1] parallel stats graphics grDevices utils datasets methods > base > > > > other attached packages: > > [1] hugene10sthsentrezgcdf_17.1.0 AnnotationDbi_1.22.6 > hugene.1.0.st.v1frmavecs_0.0.3 pd.hugene.1.0.st.v1_3.8.0 > > [5] RSQLite_0.11.4 DBI_0.2-7 > frma_1.12.0 oligo_1.24.2 > > [9] oligoClasses_1.22.0 affy_1.38.1 > Biobase_2.20.1 BiocGenerics_0.6.0 > > > > loaded via a namespace (and not attached): > > [1] affxparser_1.32.3 affyio_1.28.0 BiocInstaller_1.10.4 > Biostrings_2.28.0 bit_1.1-11 codetools_0.2-8 > > [7] ff_2.2-12 foreach_1.4.1 GenomicRanges_1.12.5 > IRanges_1.18.4 iterators_1.0.6 MASS_7.3-29 > > [13] preprocessCore_1.22.0 splines_3.0.1 stats4_3.0.1 > tools_3.0.1 zlibbioc_1.6.0 -- Matthew N McCall, PhD 112 Arvine Heights Rochester, NY 14611 Cell: 202-222-5880
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Hi Matt, Thanks for the quick reply and the suggestions. I'll look into making my own pd annotation and frmavecs packages. Ty -----Original Message----- From: Matthew McCall [mailto:mccallm@gmail.com] Sent: Monday, January 13, 2014 3:14 PM To: Ty Thomson Cc: bioconductor at r-project.org Subject: Re: using frma and brainarray cdf on exon arrays Ty, Unfortunately, what you are attempting to do is not currently implemented. The frmavecs packages for the 3' Affy arrays (HGU133a, HGU133plus2, etc) contain implementations for both the Affy and BrainArray CDFs. The issue is with the newer Affy arrays (HuGene 1.0 ST, etc.), which should really be read in using the oligo package and corresponding pd annotation packages. This is implemented in frma for the Affy annotation, but currently the BrainArray folks provide CDFs, which can't be readily used. This may be changing fairly soon -- I believe the BrainArray group may start offering oligo compatible annotation packages. Until then, to do what you would like would require: (1) making your own pd annotation package corresponding to the BrainArray alternative CDF, and (2) creating your own frmavecs package for the alternative annotation. Best, Matt On Mon, Jan 13, 2014 at 2:53 PM, Ty Thomson <tthomson at="" selventa.com=""> wrote: > Apologies if any of my questions are na?ve, as I don't have a lot of > experience with exon arrays. I would like to analyze an Affy HuGene > 1.0 ST array using the brainArray CDF (because I want to get > expression values on a per gene level), and use fRMA (to correct for > batch effects and enable me to add additional samples in the future > without redoing RMA). Is this possible? Here's what I've tried without much success thus far: > > > > I can skip brainarray and just load the data and run fRMA without error: > >> exonFS <- read.celfiles(filenames=cel.files, verbose=F, >> celfile.path=NULL) > >> tmp.eset <- frma(exonFS, summarize="median_polish") > > > > But when I use ReadAffy and specify the cdf, fRMA generates an error: > >> Affybatch <- ReadAffy(filenames=cel.files, verbose=F, >> celfile.path=NULL, >> cdfname="hugene10sthsentrezg") > > Warning message: > > > > The affy package can process data from the Gene ST 1.x series of > arrays, > > but you should consider using either the oligo or xps packages, which > are specifically > > designed for these arrays. > > > >> tmp.eset <- frma(Affybatch, summarize="median_polish") > > Error in frmaMedPol(object, background, normalize, target, input.vecs, : > > hugene10stfrmavecs package must be installed first > > In addition: Warning message: > > In library(package, lib.loc = lib.loc, character.only = TRUE, > logical.return = TRUE, : > > there is no package called 'hugene10stfrmavecs' > > > > > > When I try running fRMA while directly passing the frmavecs to the > function I get a different error: > >> data(hugene.1.0.st.v1frmavecs) > >> tmp.eset <- frma(Affybatch, summarize="median_polish", >> input.vecs=hugene.1.0.st.v1frmavecs) > > Warning message: > > In log2(pms) - input.vecs$probeVec : > > longer object length is not a multiple of shorter object length > > > > > > Thanks in advance for any help, > > > > Ty > > > > > >> sessionInfo() > > R version 3.0.1 (2013-05-16) > > Platform: x86_64-w64-mingw32/x64 (64-bit) > > > > locale: > > [1] LC_COLLATE=English_United States.1252 LC_CTYPE=English_United > States.1252 LC_MONETARY=English_United States.1252 > > [4] LC_NUMERIC=C LC_TIME=English_United > States.1252 > > > > attached base packages: > > [1] parallel stats graphics grDevices utils datasets methods > base > > > > other attached packages: > > [1] hugene10sthsentrezgcdf_17.1.0 AnnotationDbi_1.22.6 > hugene.1.0.st.v1frmavecs_0.0.3 pd.hugene.1.0.st.v1_3.8.0 > > [5] RSQLite_0.11.4 DBI_0.2-7 > frma_1.12.0 oligo_1.24.2 > > [9] oligoClasses_1.22.0 affy_1.38.1 > Biobase_2.20.1 BiocGenerics_0.6.0 > > > > loaded via a namespace (and not attached): > > [1] affxparser_1.32.3 affyio_1.28.0 BiocInstaller_1.10.4 > Biostrings_2.28.0 bit_1.1-11 codetools_0.2-8 > > [7] ff_2.2-12 foreach_1.4.1 GenomicRanges_1.12.5 > IRanges_1.18.4 iterators_1.0.6 MASS_7.3-29 > > [13] preprocessCore_1.22.0 splines_3.0.1 stats4_3.0.1 > tools_3.0.1 zlibbioc_1.6.0 -- Matthew N McCall, PhD 112 Arvine Heights Rochester, NY 14611 Cell: 202-222-5880
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@stephen-piccolo-6761
Last seen 4.2 years ago
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Hi Ty, Another option is to try the SCAN.UPC package. It is also designed to support single-sample normalization. And it should be able to integrate the BrainArray annotations for the exon arrays. In the SCAN function, pay attention to the probeSummaryPackage and exonArrayTarget parameters. And the InstallBrainArrayPackage function may come in handy. Let me know if you run into any troubles with it. Regards, -Steve On 1/14/14, 4:00 AM, "bioconductor-request at r-project.org" <bioconductor-request at="" r-project.org=""> wrote: >Date: Mon, 13 Jan 2014 20:25:44 +0000 >From: Ty Thomson <tthomson at="" selventa.com=""> >To: Matthew McCall <mccallm at="" gmail.com=""> >Cc: "bioconductor at r-project.org" <bioconductor at="" r-project.org=""> >Subject: Re: [BioC] using frma and brainarray cdf on exon arrays >Message-ID: > <f71eeb981506499f9b6e0c317b4eb53a at="" co2pr04mb601.namprd04.prod.outlook.com=""> > >Content-Type: text/plain; charset="iso-8859-1" > >Hi Matt, > >Thanks for the quick reply and the suggestions. I'll look into making my >own pd annotation and frmavecs packages. > >Ty > > >-----Original Message----- >From: Matthew McCall [mailto:mccallm at gmail.com] >Sent: Monday, January 13, 2014 3:14 PM >To: Ty Thomson >Cc: bioconductor at r-project.org >Subject: Re: using frma and brainarray cdf on exon arrays > >Ty, > >Unfortunately, what you are attempting to do is not currently >implemented. The frmavecs packages for the 3' Affy arrays (HGU133a, >HGU133plus2, etc) contain implementations for both the Affy and >BrainArray CDFs. The issue is with the newer Affy arrays (HuGene 1.0 ST, >etc.), which should really be read in using the oligo package and >corresponding pd annotation packages. This is implemented in frma for the >Affy annotation, but currently the BrainArray folks provide CDFs, which >can't be readily used. This may be changing fairly soon -- I believe the >BrainArray group may start offering oligo compatible annotation packages. >Until then, to do what you would like would >require: (1) making your own pd annotation package corresponding to the >BrainArray alternative CDF, and (2) creating your own frmavecs package >for the alternative annotation. > >Best, >Matt > > >On Mon, Jan 13, 2014 at 2:53 PM, Ty Thomson <tthomson at="" selventa.com=""> wrote: >>Apologies if any of my questions are na?ve, as I don't have a lot of >>experience with exon arrays. I would like to analyze an Affy HuGene >>1.0 ST array using the brainArray CDF (because I want to get >>expression values on a per gene level), and use fRMA (to correct for >>batch effects and enable me to add additional samples in the future >>without redoing RMA). Is this possible? Here's what I've tried without >>much success thus far: >> >> >> >>I can skip brainarray and just load the data and run fRMA without error: >> >>>exonFS <- read.celfiles(filenames=cel.files, verbose=F, >>>celfile.path=NULL) >> >>>tmp.eset <- frma(exonFS, summarize="median_polish") >> >> >> >>But when I use ReadAffy and specify the cdf, fRMA generates an error: >> >>>Affybatch <- ReadAffy(filenames=cel.files, verbose=F, >>>celfile.path=NULL, >>>cdfname="hugene10sthsentrezg") >> >>Warning message: >> >> >> >>The affy package can process data from the Gene ST 1.x series of >>arrays, >> >>but you should consider using either the oligo or xps packages, which >>are specifically >> >>designed for these arrays. >> >> >> >>>tmp.eset <- frma(Affybatch, summarize="median_polish") >> >>Error in frmaMedPol(object, background, normalize, target, input.vecs, : >> >> hugene10stfrmavecs package must be installed first >> >>In addition: Warning message: >> >>In library(package, lib.loc = lib.loc, character.only = TRUE, >>logical.return = TRUE, : >> >> there is no package called 'hugene10stfrmavecs' >> >> >> >> >> >>When I try running fRMA while directly passing the frmavecs to the >>function I get a different error: >> >>>data(hugene.1.0.st.v1frmavecs) >> >>>tmp.eset <- frma(Affybatch, summarize="median_polish", >>>input.vecs=hugene.1.0.st.v1frmavecs) >> >>Warning message: >> >>In log2(pms) - input.vecs$probeVec : >> >> longer object length is not a multiple of shorter object length >> >> >> >> >> >>Thanks in advance for any help, >> >> >> >>Ty >> >> >> >> >> >>>sessionInfo() >> >>R version 3.0.1 (2013-05-16) >> >>Platform: x86_64-w64-mingw32/x64 (64-bit) >> >> >> >>locale: >> >>[1] LC_COLLATE=English_United States.1252 LC_CTYPE=English_United >>States.1252 LC_MONETARY=English_United States.1252 >> >>[4] LC_NUMERIC=C LC_TIME=English_United >>States.1252 >> >> >> >>attached base packages: >> >>[1] parallel stats graphics grDevices utils datasets methods >>base >> >> >> >>other attached packages: >> >>[1] hugene10sthsentrezgcdf_17.1.0 AnnotationDbi_1.22.6 >>hugene.1.0.st.v1frmavecs_0.0.3 pd.hugene.1.0.st.v1_3.8.0 >> >> [5] RSQLite_0.11.4 DBI_0.2-7 >>frma_1.12.0 oligo_1.24.2 >> >> [9] oligoClasses_1.22.0 affy_1.38.1 >>Biobase_2.20.1 BiocGenerics_0.6.0 >> >> >> >>loaded via a namespace (and not attached): >> >>[1] affxparser_1.32.3 affyio_1.28.0 BiocInstaller_1.10.4 >>Biostrings_2.28.0 bit_1.1-11 codetools_0.2-8 >> >> [7] ff_2.2-12 foreach_1.4.1 GenomicRanges_1.12.5 >>IRanges_1.18.4 iterators_1.0.6 MASS_7.3-29 >> >>[13] preprocessCore_1.22.0 splines_3.0.1 stats4_3.0.1 >>tools_3.0.1 zlibbioc_1.6.0 >
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Hi Steve, Thanks for the suggestion. I'm running bioconductor 2.12 with SCAN.UPC_2.0.2, and it doesn't look like this version of SCAN supports the exonArrayTarget parameter. After reading the documentation for the exonArrayTarget parameter in the most recent version of SCAN I don't really understand exactly what it does. Can you give me a bit more information on the difference when using a brain array CDF (probeSummaryPackage=hgu133plus2hsentrezgprobe) between what happens in my current version of SCAN and in the newest version when setting exonArrayTarget="probset"? I am reluctant to change version of bioconductor mid-project for the effects this could have on other aspects of the project (and the potential need to re-run everything again). Regards, Ty -----Original Message----- From: Steve Piccolo [mailto:stephen.piccolo@hsc.utah.edu] Sent: Tuesday, January 14, 2014 8:25 AM To: bioconductor at r-project.org; Ty Thomson Subject: Re: using frma and brainarray cdf on exon arrays Hi Ty, Another option is to try the SCAN.UPC package. It is also designed to support single-sample normalization. And it should be able to integrate the BrainArray annotations for the exon arrays. In the SCAN function, pay attention to the probeSummaryPackage and exonArrayTarget parameters. And the InstallBrainArrayPackage function may come in handy. Let me know if you run into any troubles with it. Regards, -Steve On 1/14/14, 4:00 AM, "bioconductor-request at r-project.org" <bioconductor-request at="" r-project.org=""> wrote: >Date: Mon, 13 Jan 2014 20:25:44 +0000 >From: Ty Thomson <tthomson at="" selventa.com=""> >To: Matthew McCall <mccallm at="" gmail.com=""> >Cc: "bioconductor at r-project.org" <bioconductor at="" r-project.org=""> >Subject: Re: [BioC] using frma and brainarray cdf on exon arrays >Message-ID: > ><f71eeb981506499f9b6e0c317b4eb53a at="" co2pr04mb601.namprd04.prod.outlook.co="">m> > >Content-Type: text/plain; charset="iso-8859-1" > >Hi Matt, > >Thanks for the quick reply and the suggestions. I'll look into making >my own pd annotation and frmavecs packages. > >Ty > > >-----Original Message----- >From: Matthew McCall [mailto:mccallm at gmail.com] >Sent: Monday, January 13, 2014 3:14 PM >To: Ty Thomson >Cc: bioconductor at r-project.org >Subject: Re: using frma and brainarray cdf on exon arrays > >Ty, > >Unfortunately, what you are attempting to do is not currently >implemented. The frmavecs packages for the 3' Affy arrays (HGU133a, >HGU133plus2, etc) contain implementations for both the Affy and >BrainArray CDFs. The issue is with the newer Affy arrays (HuGene 1.0 >ST, etc.), which should really be read in using the oligo package and >corresponding pd annotation packages. This is implemented in frma for >the Affy annotation, but currently the BrainArray folks provide CDFs, >which can't be readily used. This may be changing fairly soon -- I >believe the BrainArray group may start offering oligo compatible annotation packages. >Until then, to do what you would like would >require: (1) making your own pd annotation package corresponding to the >BrainArray alternative CDF, and (2) creating your own frmavecs package >for the alternative annotation. > >Best, >Matt > > >On Mon, Jan 13, 2014 at 2:53 PM, Ty Thomson <tthomson at="" selventa.com=""> wrote: >>Apologies if any of my questions are na?ve, as I don't have a lot of >>experience with exon arrays. I would like to analyze an Affy HuGene >>1.0 ST array using the brainArray CDF (because I want to get >>expression values on a per gene level), and use fRMA (to correct for >>batch effects and enable me to add additional samples in the future >>without redoing RMA). Is this possible? Here's what I've tried >>without much success thus far: >> >> >> >>I can skip brainarray and just load the data and run fRMA without error: >> >>>exonFS <- read.celfiles(filenames=cel.files, verbose=F, >>>celfile.path=NULL) >> >>>tmp.eset <- frma(exonFS, summarize="median_polish") >> >> >> >>But when I use ReadAffy and specify the cdf, fRMA generates an error: >> >>>Affybatch <- ReadAffy(filenames=cel.files, verbose=F, >>>celfile.path=NULL, >>>cdfname="hugene10sthsentrezg") >> >>Warning message: >> >> >> >>The affy package can process data from the Gene ST 1.x series of >>arrays, >> >>but you should consider using either the oligo or xps packages, which >>are specifically >> >>designed for these arrays. >> >> >> >>>tmp.eset <- frma(Affybatch, summarize="median_polish") >> >>Error in frmaMedPol(object, background, normalize, target, input.vecs, : >> >> hugene10stfrmavecs package must be installed first >> >>In addition: Warning message: >> >>In library(package, lib.loc = lib.loc, character.only = TRUE, >>logical.return = TRUE, : >> >> there is no package called 'hugene10stfrmavecs' >> >> >> >> >> >>When I try running fRMA while directly passing the frmavecs to the >>function I get a different error: >> >>>data(hugene.1.0.st.v1frmavecs) >> >>>tmp.eset <- frma(Affybatch, summarize="median_polish", >>>input.vecs=hugene.1.0.st.v1frmavecs) >> >>Warning message: >> >>In log2(pms) - input.vecs$probeVec : >> >> longer object length is not a multiple of shorter object length >> >> >> >> >> >>Thanks in advance for any help, >> >> >> >>Ty >> >> >> >> >> >>>sessionInfo() >> >>R version 3.0.1 (2013-05-16) >> >>Platform: x86_64-w64-mingw32/x64 (64-bit) >> >> >> >>locale: >> >>[1] LC_COLLATE=English_United States.1252 LC_CTYPE=English_United >>States.1252 LC_MONETARY=English_United States.1252 >> >>[4] LC_NUMERIC=C LC_TIME=English_United >>States.1252 >> >> >> >>attached base packages: >> >>[1] parallel stats graphics grDevices utils datasets methods >>base >> >> >> >>other attached packages: >> >>[1] hugene10sthsentrezgcdf_17.1.0 AnnotationDbi_1.22.6 >>hugene.1.0.st.v1frmavecs_0.0.3 pd.hugene.1.0.st.v1_3.8.0 >> >> [5] RSQLite_0.11.4 DBI_0.2-7 >>frma_1.12.0 oligo_1.24.2 >> >> [9] oligoClasses_1.22.0 affy_1.38.1 >>Biobase_2.20.1 BiocGenerics_0.6.0 >> >> >> >>loaded via a namespace (and not attached): >> >>[1] affxparser_1.32.3 affyio_1.28.0 BiocInstaller_1.10.4 >>Biostrings_2.28.0 bit_1.1-11 codetools_0.2-8 >> >> [7] ff_2.2-12 foreach_1.4.1 GenomicRanges_1.12.5 >>IRanges_1.18.4 iterators_1.0.6 MASS_7.3-29 >> >>[13] preprocessCore_1.22.0 splines_3.0.1 stats4_3.0.1 >>tools_3.0.1 zlibbioc_1.6.0 >
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Hi Ty, The exon arrays have about 5 million probes. By default, the oligo package uses only a subset of these probes, which have been flagged as being most useful. However, the BrainArray package may want to include probes that are not included by oligo. Thus it may be valuable to start with all probes (exonarrayTarget=?probeset?) so that all probes included in the BrainArray mappings will be included. The previous version of SCAN.UPC uses the default oligo probes. Regards, -Steve On 1/14/14, 7:27 AM, "Ty Thomson" <tthomson at="" selventa.com=""> wrote: >Hi Steve, > >Thanks for the suggestion. I'm running bioconductor 2.12 with >SCAN.UPC_2.0.2, and it doesn't look like this version of SCAN supports >the exonArrayTarget parameter. After reading the documentation for the >exonArrayTarget parameter in the most recent version of SCAN I don't >really understand exactly what it does. Can you give me a bit more >information on the difference when using a brain array CDF >(probeSummaryPackage=hgu133plus2hsentrezgprobe) between what happens in >my current version of SCAN and in the newest version when setting >exonArrayTarget="probset"? I am reluctant to change version of >bioconductor mid-project for the effects this could have on other aspects >of the project (and the potential need to re-run everything again). > >Regards, > >Ty > >-----Original Message----- >From: Steve Piccolo [mailto:stephen.piccolo at hsc.utah.edu] >Sent: Tuesday, January 14, 2014 8:25 AM >To: bioconductor at r-project.org; Ty Thomson >Subject: Re: using frma and brainarray cdf on exon arrays > >Hi Ty, > >Another option is to try the SCAN.UPC package. It is also designed to >support single-sample normalization. And it should be able to integrate >the BrainArray annotations for the exon arrays. In the SCAN function, pay >attention to the probeSummaryPackage and exonArrayTarget parameters. And >the InstallBrainArrayPackage function may come in handy. Let me know if >you run into any troubles with it. > >Regards, >-Steve > > > >On 1/14/14, 4:00 AM, "bioconductor-request at r-project.org" ><bioconductor-request at="" r-project.org=""> wrote: > >>Date: Mon, 13 Jan 2014 20:25:44 +0000 >>From: Ty Thomson <tthomson at="" selventa.com=""> >>To: Matthew McCall <mccallm at="" gmail.com=""> >>Cc: "bioconductor at r-project.org" <bioconductor at="" r-project.org=""> >>Subject: Re: [BioC] using frma and brainarray cdf on exon arrays >>Message-ID: >> >><f71eeb981506499f9b6e0c317b4eb53a at="" co2pr04mb601.namprd04.prod.outlook.co="">>m> >> >>Content-Type: text/plain; charset="iso-8859-1" >> >>Hi Matt, >> >>Thanks for the quick reply and the suggestions. I'll look into making >>my own pd annotation and frmavecs packages. >> >>Ty >> >> >>-----Original Message----- >>From: Matthew McCall [mailto:mccallm at gmail.com] >>Sent: Monday, January 13, 2014 3:14 PM >>To: Ty Thomson >>Cc: bioconductor at r-project.org >>Subject: Re: using frma and brainarray cdf on exon arrays >> >>Ty, >> >>Unfortunately, what you are attempting to do is not currently >>implemented. The frmavecs packages for the 3' Affy arrays (HGU133a, >>HGU133plus2, etc) contain implementations for both the Affy and >>BrainArray CDFs. The issue is with the newer Affy arrays (HuGene 1.0 >>ST, etc.), which should really be read in using the oligo package and >>corresponding pd annotation packages. This is implemented in frma for >>the Affy annotation, but currently the BrainArray folks provide CDFs, >>which can't be readily used. This may be changing fairly soon -- I >>believe the BrainArray group may start offering oligo compatible >>annotation packages. >>Until then, to do what you would like would >>require: (1) making your own pd annotation package corresponding to the >>BrainArray alternative CDF, and (2) creating your own frmavecs package >>for the alternative annotation. >> >>Best, >>Matt >> >> >>On Mon, Jan 13, 2014 at 2:53 PM, Ty Thomson <tthomson at="" selventa.com=""> >>wrote: >>>Apologies if any of my questions are na?ve, as I don't have a lot of >>>experience with exon arrays. I would like to analyze an Affy HuGene >>>1.0 ST array using the brainArray CDF (because I want to get >>>expression values on a per gene level), and use fRMA (to correct for >>>batch effects and enable me to add additional samples in the future >>>without redoing RMA). Is this possible? Here's what I've tried >>>without much success thus far: >>> >>> >>> >>>I can skip brainarray and just load the data and run fRMA without error: >>> >>>>exonFS <- read.celfiles(filenames=cel.files, verbose=F, >>>>celfile.path=NULL) >>> >>>>tmp.eset <- frma(exonFS, summarize="median_polish") >>> >>> >>> >>>But when I use ReadAffy and specify the cdf, fRMA generates an error: >>> >>>>Affybatch <- ReadAffy(filenames=cel.files, verbose=F, >>>>celfile.path=NULL, >>>>cdfname="hugene10sthsentrezg") >>> >>>Warning message: >>> >>> >>> >>>The affy package can process data from the Gene ST 1.x series of >>>arrays, >>> >>>but you should consider using either the oligo or xps packages, which >>>are specifically >>> >>>designed for these arrays. >>> >>> >>> >>>>tmp.eset <- frma(Affybatch, summarize="median_polish") >>> >>>Error in frmaMedPol(object, background, normalize, target, input.vecs, >>>: >>> >>> hugene10stfrmavecs package must be installed first >>> >>>In addition: Warning message: >>> >>>In library(package, lib.loc = lib.loc, character.only = TRUE, >>>logical.return = TRUE, : >>> >>> there is no package called 'hugene10stfrmavecs' >>> >>> >>> >>> >>> >>>When I try running fRMA while directly passing the frmavecs to the >>>function I get a different error: >>> >>>>data(hugene.1.0.st.v1frmavecs) >>> >>>>tmp.eset <- frma(Affybatch, summarize="median_polish", >>>>input.vecs=hugene.1.0.st.v1frmavecs) >>> >>>Warning message: >>> >>>In log2(pms) - input.vecs$probeVec : >>> >>> longer object length is not a multiple of shorter object length >>> >>> >>> >>> >>> >>>Thanks in advance for any help, >>> >>> >>> >>>Ty >>> >>> >>> >>> >>> >>>>sessionInfo() >>> >>>R version 3.0.1 (2013-05-16) >>> >>>Platform: x86_64-w64-mingw32/x64 (64-bit) >>> >>> >>> >>>locale: >>> >>>[1] LC_COLLATE=English_United States.1252 LC_CTYPE=English_United >>>States.1252 LC_MONETARY=English_United States.1252 >>> >>>[4] LC_NUMERIC=C LC_TIME=English_United >>>States.1252 >>> >>> >>> >>>attached base packages: >>> >>>[1] parallel stats graphics grDevices utils datasets methods >>>base >>> >>> >>> >>>other attached packages: >>> >>>[1] hugene10sthsentrezgcdf_17.1.0 AnnotationDbi_1.22.6 >>>hugene.1.0.st.v1frmavecs_0.0.3 pd.hugene.1.0.st.v1_3.8.0 >>> >>> [5] RSQLite_0.11.4 DBI_0.2-7 >>>frma_1.12.0 oligo_1.24.2 >>> >>> [9] oligoClasses_1.22.0 affy_1.38.1 >>>Biobase_2.20.1 BiocGenerics_0.6.0 >>> >>> >>> >>>loaded via a namespace (and not attached): >>> >>>[1] affxparser_1.32.3 affyio_1.28.0 BiocInstaller_1.10.4 >>>Biostrings_2.28.0 bit_1.1-11 codetools_0.2-8 >>> >>> [7] ff_2.2-12 foreach_1.4.1 GenomicRanges_1.12.5 >>>IRanges_1.18.4 iterators_1.0.6 MASS_7.3-29 >>> >>>[13] preprocessCore_1.22.0 splines_3.0.1 stats4_3.0.1 >>>tools_3.0.1 zlibbioc_1.6.0 >> >
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Hi Steve, Thanks, that makes a lot of sense. I might just need to get another R installation going so I can directly assess the effect of using all the probes on my data. Regards, Ty -----Original Message----- From: Steve Piccolo [mailto:stephen.piccolo@hsc.utah.edu] Sent: Tuesday, January 14, 2014 9:35 AM To: Ty Thomson; bioconductor at r-project.org Subject: Re: using frma and brainarray cdf on exon arrays Hi Ty, The exon arrays have about 5 million probes. By default, the oligo package uses only a subset of these probes, which have been flagged as being most useful. However, the BrainArray package may want to include probes that are not included by oligo. Thus it may be valuable to start with all probes (exonarrayTarget=?probeset?) so that all probes included in the BrainArray mappings will be included. The previous version of SCAN.UPC uses the default oligo probes. Regards, -Steve On 1/14/14, 7:27 AM, "Ty Thomson" <tthomson at="" selventa.com=""> wrote: >Hi Steve, > >Thanks for the suggestion. I'm running bioconductor 2.12 with >SCAN.UPC_2.0.2, and it doesn't look like this version of SCAN supports >the exonArrayTarget parameter. After reading the documentation for the >exonArrayTarget parameter in the most recent version of SCAN I don't >really understand exactly what it does. Can you give me a bit more >information on the difference when using a brain array CDF >(probeSummaryPackage=hgu133plus2hsentrezgprobe) between what happens in >my current version of SCAN and in the newest version when setting >exonArrayTarget="probset"? I am reluctant to change version of >bioconductor mid-project for the effects this could have on other >aspects of the project (and the potential need to re-run everything again). > >Regards, > >Ty > >-----Original Message----- >From: Steve Piccolo [mailto:stephen.piccolo at hsc.utah.edu] >Sent: Tuesday, January 14, 2014 8:25 AM >To: bioconductor at r-project.org; Ty Thomson >Subject: Re: using frma and brainarray cdf on exon arrays > >Hi Ty, > >Another option is to try the SCAN.UPC package. It is also designed to >support single-sample normalization. And it should be able to integrate >the BrainArray annotations for the exon arrays. In the SCAN function, >pay attention to the probeSummaryPackage and exonArrayTarget >parameters. And the InstallBrainArrayPackage function may come in >handy. Let me know if you run into any troubles with it. > >Regards, >-Steve > > > >On 1/14/14, 4:00 AM, "bioconductor-request at r-project.org" ><bioconductor-request at="" r-project.org=""> wrote: > >>Date: Mon, 13 Jan 2014 20:25:44 +0000 >>From: Ty Thomson <tthomson at="" selventa.com=""> >>To: Matthew McCall <mccallm at="" gmail.com=""> >>Cc: "bioconductor at r-project.org" <bioconductor at="" r-project.org=""> >>Subject: Re: [BioC] using frma and brainarray cdf on exon arrays >>Message-ID: >> >><f71eeb981506499f9b6e0c317b4eb53a at="" co2pr04mb601.namprd04.prod.outlook.c="">>o >>m> >> >>Content-Type: text/plain; charset="iso-8859-1" >> >>Hi Matt, >> >>Thanks for the quick reply and the suggestions. I'll look into making >>my own pd annotation and frmavecs packages. >> >>Ty >> >> >>-----Original Message----- >>From: Matthew McCall [mailto:mccallm at gmail.com] >>Sent: Monday, January 13, 2014 3:14 PM >>To: Ty Thomson >>Cc: bioconductor at r-project.org >>Subject: Re: using frma and brainarray cdf on exon arrays >> >>Ty, >> >>Unfortunately, what you are attempting to do is not currently >>implemented. The frmavecs packages for the 3' Affy arrays (HGU133a, >>HGU133plus2, etc) contain implementations for both the Affy and >>BrainArray CDFs. The issue is with the newer Affy arrays (HuGene 1.0 >>ST, etc.), which should really be read in using the oligo package and >>corresponding pd annotation packages. This is implemented in frma for >>the Affy annotation, but currently the BrainArray folks provide CDFs, >>which can't be readily used. This may be changing fairly soon -- I >>believe the BrainArray group may start offering oligo compatible >>annotation packages. >>Until then, to do what you would like would >>require: (1) making your own pd annotation package corresponding to >>the BrainArray alternative CDF, and (2) creating your own frmavecs >>package for the alternative annotation. >> >>Best, >>Matt >> >> >>On Mon, Jan 13, 2014 at 2:53 PM, Ty Thomson <tthomson at="" selventa.com=""> >>wrote: >>>Apologies if any of my questions are na?ve, as I don't have a lot of >>>experience with exon arrays. I would like to analyze an Affy HuGene >>>1.0 ST array using the brainArray CDF (because I want to get >>>expression values on a per gene level), and use fRMA (to correct for >>>batch effects and enable me to add additional samples in the future >>>without redoing RMA). Is this possible? Here's what I've tried >>>without much success thus far: >>> >>> >>> >>>I can skip brainarray and just load the data and run fRMA without error: >>> >>>>exonFS <- read.celfiles(filenames=cel.files, verbose=F, >>>>celfile.path=NULL) >>> >>>>tmp.eset <- frma(exonFS, summarize="median_polish") >>> >>> >>> >>>But when I use ReadAffy and specify the cdf, fRMA generates an error: >>> >>>>Affybatch <- ReadAffy(filenames=cel.files, verbose=F, >>>>celfile.path=NULL, >>>>cdfname="hugene10sthsentrezg") >>> >>>Warning message: >>> >>> >>> >>>The affy package can process data from the Gene ST 1.x series of >>>arrays, >>> >>>but you should consider using either the oligo or xps packages, which >>>are specifically >>> >>>designed for these arrays. >>> >>> >>> >>>>tmp.eset <- frma(Affybatch, summarize="median_polish") >>> >>>Error in frmaMedPol(object, background, normalize, target, >>>input.vecs, >>>: >>> >>> hugene10stfrmavecs package must be installed first >>> >>>In addition: Warning message: >>> >>>In library(package, lib.loc = lib.loc, character.only = TRUE, >>>logical.return = TRUE, : >>> >>> there is no package called 'hugene10stfrmavecs' >>> >>> >>> >>> >>> >>>When I try running fRMA while directly passing the frmavecs to the >>>function I get a different error: >>> >>>>data(hugene.1.0.st.v1frmavecs) >>> >>>>tmp.eset <- frma(Affybatch, summarize="median_polish", >>>>input.vecs=hugene.1.0.st.v1frmavecs) >>> >>>Warning message: >>> >>>In log2(pms) - input.vecs$probeVec : >>> >>> longer object length is not a multiple of shorter object length >>> >>> >>> >>> >>> >>>Thanks in advance for any help, >>> >>> >>> >>>Ty >>> >>> >>> >>> >>> >>>>sessionInfo() >>> >>>R version 3.0.1 (2013-05-16) >>> >>>Platform: x86_64-w64-mingw32/x64 (64-bit) >>> >>> >>> >>>locale: >>> >>>[1] LC_COLLATE=English_United States.1252 LC_CTYPE=English_United >>>States.1252 LC_MONETARY=English_United States.1252 >>> >>>[4] LC_NUMERIC=C LC_TIME=English_United >>>States.1252 >>> >>> >>> >>>attached base packages: >>> >>>[1] parallel stats graphics grDevices utils datasets methods >>>base >>> >>> >>> >>>other attached packages: >>> >>>[1] hugene10sthsentrezgcdf_17.1.0 AnnotationDbi_1.22.6 >>>hugene.1.0.st.v1frmavecs_0.0.3 pd.hugene.1.0.st.v1_3.8.0 >>> >>> [5] RSQLite_0.11.4 DBI_0.2-7 >>>frma_1.12.0 oligo_1.24.2 >>> >>> [9] oligoClasses_1.22.0 affy_1.38.1 >>>Biobase_2.20.1 BiocGenerics_0.6.0 >>> >>> >>> >>>loaded via a namespace (and not attached): >>> >>>[1] affxparser_1.32.3 affyio_1.28.0 BiocInstaller_1.10.4 >>>Biostrings_2.28.0 bit_1.1-11 codetools_0.2-8 >>> >>> [7] ff_2.2-12 foreach_1.4.1 GenomicRanges_1.12.5 >>>IRanges_1.18.4 iterators_1.0.6 MASS_7.3-29 >>> >>>[13] preprocessCore_1.22.0 splines_3.0.1 stats4_3.0.1 >>>tools_3.0.1 zlibbioc_1.6.0 >> >
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Entering edit mode
I may have misunderstood what Steve described... So, I'm writing just to expose my version of what oligo does re: exon arrays: 1) oligo uses the official PGF/MPS files provided by Affymetrix to proceed with preprocessing; 2) given the design of the chip, there are different probeset definitions (which are given by Affymetrix through the MPS files). These different definitions are: core ("most reliable evidence from RefSeq and full- length mRNA GenBank records"), extended ("supported by other cDNA evidence beyond what is used to support core probe sets") and full ("supported by computational gene prediction evidence only"). 3) oligo uses the definitions above to perform preprocessing (this can be changed throught the 'target' argument in rma()). The user can also use the value 'probeset' to use the probeset definition given in the PGF. Now, re: what the BrainArray group does... they start with *only* chip coordinates and probe sequences, nothing else (note: this is independent from Affymetrix probeset definitions and, therefore, not related to the probeset definitions that we use in oligo - which come from Affymetrix). These sequences are then aligned and reannotated. This results in new probeset definitions, which they provide as what I call "BrainArray CDFs" (note that after this procedure, there is no such thing as core/full/extended probesets).... For the moment, oligo does not officially support the remapped CDFs. But that's something you should expect for the near future. b 2014/1/14 Ty Thomson <tthomson@selventa.com> > Hi Steve, > > Thanks, that makes a lot of sense. I might just need to get another R > installation going so I can directly assess the effect of using all the > probes on my data. > > Regards, > > Ty > > -----Original Message----- > From: Steve Piccolo [mailto:stephen.piccolo@hsc.utah.edu] > Sent: Tuesday, January 14, 2014 9:35 AM > To: Ty Thomson; bioconductor@r-project.org > Subject: Re: using frma and brainarray cdf on exon arrays > > Hi Ty, > > The exon arrays have about 5 million probes. By default, the oligo package > uses only a subset of these probes, which have been flagged as being most > useful. However, the BrainArray package may want to include probes that are > not included by oligo. Thus it may be valuable to start with all probes > (exonarrayTarget=³probeset²) so that all probes included in the BrainArray > mappings will be included. The previous version of SCAN.UPC uses the > default oligo probes. > > Regards, > -Steve > > On 1/14/14, 7:27 AM, "Ty Thomson" <tthomson@selventa.com> wrote: > > >Hi Steve, > > > >Thanks for the suggestion. I'm running bioconductor 2.12 with > >SCAN.UPC_2.0.2, and it doesn't look like this version of SCAN supports > >the exonArrayTarget parameter. After reading the documentation for the > >exonArrayTarget parameter in the most recent version of SCAN I don't > >really understand exactly what it does. Can you give me a bit more > >information on the difference when using a brain array CDF > >(probeSummaryPackage=hgu133plus2hsentrezgprobe) between what happens in > >my current version of SCAN and in the newest version when setting > >exonArrayTarget="probset"? I am reluctant to change version of > >bioconductor mid-project for the effects this could have on other > >aspects of the project (and the potential need to re-run everything > again). > > > >Regards, > > > >Ty > > > >-----Original Message----- > >From: Steve Piccolo [mailto:stephen.piccolo@hsc.utah.edu] > >Sent: Tuesday, January 14, 2014 8:25 AM > >To: bioconductor@r-project.org; Ty Thomson > >Subject: Re: using frma and brainarray cdf on exon arrays > > > >Hi Ty, > > > >Another option is to try the SCAN.UPC package. It is also designed to > >support single-sample normalization. And it should be able to integrate > >the BrainArray annotations for the exon arrays. In the SCAN function, > >pay attention to the probeSummaryPackage and exonArrayTarget > >parameters. And the InstallBrainArrayPackage function may come in > >handy. Let me know if you run into any troubles with it. > > > >Regards, > >-Steve > > > > > > > >On 1/14/14, 4:00 AM, "bioconductor-request@r-project.org" > ><bioconductor-request@r-project.org> wrote: > > > >>Date: Mon, 13 Jan 2014 20:25:44 +0000 > >>From: Ty Thomson <tthomson@selventa.com> > >>To: Matthew McCall <mccallm@gmail.com> > >>Cc: "bioconductor@r-project.org" <bioconductor@r-project.org> > >>Subject: Re: [BioC] using frma and brainarray cdf on exon arrays > >>Message-ID: > >> > >><f71eeb981506499f9b6e0c317b4eb53a@co2pr04mb601.namprd04.prod.outlo ok.c=""> >>o > >>m> > >> > >>Content-Type: text/plain; charset="iso-8859-1" > >> > >>Hi Matt, > >> > >>Thanks for the quick reply and the suggestions. I'll look into making > >>my own pd annotation and frmavecs packages. > >> > >>Ty > >> > >> > >>-----Original Message----- > >>From: Matthew McCall [mailto:mccallm@gmail.com] > >>Sent: Monday, January 13, 2014 3:14 PM > >>To: Ty Thomson > >>Cc: bioconductor@r-project.org > >>Subject: Re: using frma and brainarray cdf on exon arrays > >> > >>Ty, > >> > >>Unfortunately, what you are attempting to do is not currently > >>implemented. The frmavecs packages for the 3' Affy arrays (HGU133a, > >>HGU133plus2, etc) contain implementations for both the Affy and > >>BrainArray CDFs. The issue is with the newer Affy arrays (HuGene 1.0 > >>ST, etc.), which should really be read in using the oligo package and > >>corresponding pd annotation packages. This is implemented in frma for > >>the Affy annotation, but currently the BrainArray folks provide CDFs, > >>which can't be readily used. This may be changing fairly soon -- I > >>believe the BrainArray group may start offering oligo compatible > >>annotation packages. > >>Until then, to do what you would like would > >>require: (1) making your own pd annotation package corresponding to > >>the BrainArray alternative CDF, and (2) creating your own frmavecs > >>package for the alternative annotation. > >> > >>Best, > >>Matt > >> > >> > >>On Mon, Jan 13, 2014 at 2:53 PM, Ty Thomson <tthomson@selventa.com> > >>wrote: > >>>Apologies if any of my questions are na?ve, as I don't have a lot of > >>>experience with exon arrays. I would like to analyze an Affy HuGene > >>>1.0 ST array using the brainArray CDF (because I want to get > >>>expression values on a per gene level), and use fRMA (to correct for > >>>batch effects and enable me to add additional samples in the future > >>>without redoing RMA). Is this possible? Here's what I've tried > >>>without much success thus far: > >>> > >>> > >>> > >>>I can skip brainarray and just load the data and run fRMA without error: > >>> > >>>>exonFS <- read.celfiles(filenames=cel.files, verbose=F, > >>>>celfile.path=NULL) > >>> > >>>>tmp.eset <- frma(exonFS, summarize="median_polish") > >>> > >>> > >>> > >>>But when I use ReadAffy and specify the cdf, fRMA generates an error: > >>> > >>>>Affybatch <- ReadAffy(filenames=cel.files, verbose=F, > >>>>celfile.path=NULL, > >>>>cdfname="hugene10sthsentrezg") > >>> > >>>Warning message: > >>> > >>> > >>> > >>>The affy package can process data from the Gene ST 1.x series of > >>>arrays, > >>> > >>>but you should consider using either the oligo or xps packages, which > >>>are specifically > >>> > >>>designed for these arrays. > >>> > >>> > >>> > >>>>tmp.eset <- frma(Affybatch, summarize="median_polish") > >>> > >>>Error in frmaMedPol(object, background, normalize, target, > >>>input.vecs, > >>>: > >>> > >>> hugene10stfrmavecs package must be installed first > >>> > >>>In addition: Warning message: > >>> > >>>In library(package, lib.loc = lib.loc, character.only = TRUE, > >>>logical.return = TRUE, : > >>> > >>> there is no package called 'hugene10stfrmavecs' > >>> > >>> > >>> > >>> > >>> > >>>When I try running fRMA while directly passing the frmavecs to the > >>>function I get a different error: > >>> > >>>>data(hugene.1.0.st.v1frmavecs) > >>> > >>>>tmp.eset <- frma(Affybatch, summarize="median_polish", > >>>>input.vecs=hugene.1.0.st.v1frmavecs) > >>> > >>>Warning message: > >>> > >>>In log2(pms) - input.vecs$probeVec : > >>> > >>> longer object length is not a multiple of shorter object length > >>> > >>> > >>> > >>> > >>> > >>>Thanks in advance for any help, > >>> > >>> > >>> > >>>Ty > >>> > >>> > >>> > >>> > >>> > >>>>sessionInfo() > >>> > >>>R version 3.0.1 (2013-05-16) > >>> > >>>Platform: x86_64-w64-mingw32/x64 (64-bit) > >>> > >>> > >>> > >>>locale: > >>> > >>>[1] LC_COLLATE=English_United States.1252 LC_CTYPE=English_United > >>>States.1252 LC_MONETARY=English_United States.1252 > >>> > >>>[4] LC_NUMERIC=C LC_TIME=English_United > >>>States.1252 > >>> > >>> > >>> > >>>attached base packages: > >>> > >>>[1] parallel stats graphics grDevices utils datasets methods > >>>base > >>> > >>> > >>> > >>>other attached packages: > >>> > >>>[1] hugene10sthsentrezgcdf_17.1.0 AnnotationDbi_1.22.6 > >>>hugene.1.0.st.v1frmavecs_0.0.3 pd.hugene.1.0.st.v1_3.8.0 > >>> > >>> [5] RSQLite_0.11.4 DBI_0.2-7 > >>>frma_1.12.0 oligo_1.24.2 > >>> > >>> [9] oligoClasses_1.22.0 affy_1.38.1 > >>>Biobase_2.20.1 BiocGenerics_0.6.0 > >>> > >>> > >>> > >>>loaded via a namespace (and not attached): > >>> > >>>[1] affxparser_1.32.3 affyio_1.28.0 BiocInstaller_1.10.4 > >>>Biostrings_2.28.0 bit_1.1-11 codetools_0.2-8 > >>> > >>> [7] ff_2.2-12 foreach_1.4.1 GenomicRanges_1.12.5 > >>>IRanges_1.18.4 iterators_1.0.6 MASS_7.3-29 > >>> > >>>[13] preprocessCore_1.22.0 splines_3.0.1 stats4_3.0.1 > >>>tools_3.0.1 zlibbioc_1.6.0 > >> > > > > _______________________________________________ > Bioconductor mailing list > Bioconductor@r-project.org > https://stat.ethz.ch/mailman/listinfo/bioconductor > Search the archives: > http://news.gmane.org/gmane.science.biology.informatics.conductor > [[alternative HTML version deleted]]
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Entering edit mode
And to come full circle, shortly after being supported by oligo, they will be supported by frma. Best, Matt On Jan 14, 2014 11:19 AM, "Benilton Carvalho" <beniltoncarvalho@gmail.com> wrote: > I may have misunderstood what Steve described... So, I'm writing just to > expose my version of what oligo does re: exon arrays: > > 1) oligo uses the official PGF/MPS files provided by Affymetrix to proceed > with preprocessing; > > 2) given the design of the chip, there are different probeset definitions > (which are given by Affymetrix through the MPS files). These different > definitions are: core ("most reliable evidence from RefSeq and full-length > mRNA GenBank records"), extended ("supported by other cDNA evidence beyond > what is used to support core probe sets") and full ("supported by > computational gene prediction evidence only"). > > 3) oligo uses the definitions above to perform preprocessing (this can be > changed throught the 'target' argument in rma()). The user can also use the > value 'probeset' to use the probeset definition given in the PGF. > > Now, re: what the BrainArray group does... they start with *only* chip > coordinates and probe sequences, nothing else (note: this is independent > from Affymetrix probeset definitions and, therefore, not related to the > probeset definitions that we use in oligo - which come from Affymetrix). > These sequences are then aligned and reannotated. This results in new > probeset definitions, which they provide as what I call "BrainArray CDFs" > (note that after this procedure, there is no such thing as > core/full/extended probesets).... > > For the moment, oligo does not officially support the remapped CDFs. But > that's something you should expect for the near future. > > b > > > 2014/1/14 Ty Thomson <tthomson@selventa.com> > > > Hi Steve, > > > > Thanks, that makes a lot of sense. I might just need to get another R > > installation going so I can directly assess the effect of using all the > > probes on my data. > > > > Regards, > > > > Ty > > > > -----Original Message----- > > From: Steve Piccolo [mailto:stephen.piccolo@hsc.utah.edu] > > Sent: Tuesday, January 14, 2014 9:35 AM > > To: Ty Thomson; bioconductor@r-project.org > > Subject: Re: using frma and brainarray cdf on exon arrays > > > > Hi Ty, > > > > The exon arrays have about 5 million probes. By default, the oligo > package > > uses only a subset of these probes, which have been flagged as being most > > useful. However, the BrainArray package may want to include probes that > are > > not included by oligo. Thus it may be valuable to start with all probes > > (exonarrayTarget=łprobeset˛) so that all probes included in the > BrainArray > > mappings will be included. The previous version of SCAN.UPC uses the > > default oligo probes. > > > > Regards, > > -Steve > > > > On 1/14/14, 7:27 AM, "Ty Thomson" <tthomson@selventa.com> wrote: > > > > >Hi Steve, > > > > > >Thanks for the suggestion. I'm running bioconductor 2.12 with > > >SCAN.UPC_2.0.2, and it doesn't look like this version of SCAN supports > > >the exonArrayTarget parameter. After reading the documentation for the > > >exonArrayTarget parameter in the most recent version of SCAN I don't > > >really understand exactly what it does. Can you give me a bit more > > >information on the difference when using a brain array CDF > > >(probeSummaryPackage=hgu133plus2hsentrezgprobe) between what happens in > > >my current version of SCAN and in the newest version when setting > > >exonArrayTarget="probset"? I am reluctant to change version of > > >bioconductor mid-project for the effects this could have on other > > >aspects of the project (and the potential need to re-run everything > > again). > > > > > >Regards, > > > > > >Ty > > > > > >-----Original Message----- > > >From: Steve Piccolo [mailto:stephen.piccolo@hsc.utah.edu] > > >Sent: Tuesday, January 14, 2014 8:25 AM > > >To: bioconductor@r-project.org; Ty Thomson > > >Subject: Re: using frma and brainarray cdf on exon arrays > > > > > >Hi Ty, > > > > > >Another option is to try the SCAN.UPC package. It is also designed to > > >support single-sample normalization. And it should be able to integrate > > >the BrainArray annotations for the exon arrays. In the SCAN function, > > >pay attention to the probeSummaryPackage and exonArrayTarget > > >parameters. And the InstallBrainArrayPackage function may come in > > >handy. Let me know if you run into any troubles with it. > > > > > >Regards, > > >-Steve > > > > > > > > > > > >On 1/14/14, 4:00 AM, "bioconductor-request@r-project.org" > > ><bioconductor-request@r-project.org> wrote: > > > > > >>Date: Mon, 13 Jan 2014 20:25:44 +0000 > > >>From: Ty Thomson <tthomson@selventa.com> > > >>To: Matthew McCall <mccallm@gmail.com> > > >>Cc: "bioconductor@r-project.org" <bioconductor@r-project.org> > > >>Subject: Re: [BioC] using frma and brainarray cdf on exon arrays > > >>Message-ID: > > >> > > >><f71eeb981506499f9b6e0c317b4eb53a@co2pr04mb601.namprd04.prod.out look.c=""> > >>o > > >>m> > > >> > > >>Content-Type: text/plain; charset="iso-8859-1" > > >> > > >>Hi Matt, > > >> > > >>Thanks for the quick reply and the suggestions. I'll look into making > > >>my own pd annotation and frmavecs packages. > > >> > > >>Ty > > >> > > >> > > >>-----Original Message----- > > >>From: Matthew McCall [mailto:mccallm@gmail.com] > > >>Sent: Monday, January 13, 2014 3:14 PM > > >>To: Ty Thomson > > >>Cc: bioconductor@r-project.org > > >>Subject: Re: using frma and brainarray cdf on exon arrays > > >> > > >>Ty, > > >> > > >>Unfortunately, what you are attempting to do is not currently > > >>implemented. The frmavecs packages for the 3' Affy arrays (HGU133a, > > >>HGU133plus2, etc) contain implementations for both the Affy and > > >>BrainArray CDFs. The issue is with the newer Affy arrays (HuGene 1.0 > > >>ST, etc.), which should really be read in using the oligo package and > > >>corresponding pd annotation packages. This is implemented in frma for > > >>the Affy annotation, but currently the BrainArray folks provide CDFs, > > >>which can't be readily used. This may be changing fairly soon -- I > > >>believe the BrainArray group may start offering oligo compatible > > >>annotation packages. > > >>Until then, to do what you would like would > > >>require: (1) making your own pd annotation package corresponding to > > >>the BrainArray alternative CDF, and (2) creating your own frmavecs > > >>package for the alternative annotation. > > >> > > >>Best, > > >>Matt > > >> > > >> > > >>On Mon, Jan 13, 2014 at 2:53 PM, Ty Thomson <tthomson@selventa.com> > > >>wrote: > > >>>Apologies if any of my questions are na?ve, as I don't have a lot of > > >>>experience with exon arrays. I would like to analyze an Affy HuGene > > >>>1.0 ST array using the brainArray CDF (because I want to get > > >>>expression values on a per gene level), and use fRMA (to correct for > > >>>batch effects and enable me to add additional samples in the future > > >>>without redoing RMA). Is this possible? Here's what I've tried > > >>>without much success thus far: > > >>> > > >>> > > >>> > > >>>I can skip brainarray and just load the data and run fRMA without > error: > > >>> > > >>>>exonFS <- read.celfiles(filenames=cel.files, verbose=F, > > >>>>celfile.path=NULL) > > >>> > > >>>>tmp.eset <- frma(exonFS, summarize="median_polish") > > >>> > > >>> > > >>> > > >>>But when I use ReadAffy and specify the cdf, fRMA generates an error: > > >>> > > >>>>Affybatch <- ReadAffy(filenames=cel.files, verbose=F, > > >>>>celfile.path=NULL, > > >>>>cdfname="hugene10sthsentrezg") > > >>> > > >>>Warning message: > > >>> > > >>> > > >>> > > >>>The affy package can process data from the Gene ST 1.x series of > > >>>arrays, > > >>> > > >>>but you should consider using either the oligo or xps packages, which > > >>>are specifically > > >>> > > >>>designed for these arrays. > > >>> > > >>> > > >>> > > >>>>tmp.eset <- frma(Affybatch, summarize="median_polish") > > >>> > > >>>Error in frmaMedPol(object, background, normalize, target, > > >>>input.vecs, > > >>>: > > >>> > > >>> hugene10stfrmavecs package must be installed first > > >>> > > >>>In addition: Warning message: > > >>> > > >>>In library(package, lib.loc = lib.loc, character.only = TRUE, > > >>>logical.return = TRUE, : > > >>> > > >>> there is no package called 'hugene10stfrmavecs' > > >>> > > >>> > > >>> > > >>> > > >>> > > >>>When I try running fRMA while directly passing the frmavecs to the > > >>>function I get a different error: > > >>> > > >>>>data(hugene.1.0.st.v1frmavecs) > > >>> > > >>>>tmp.eset <- frma(Affybatch, summarize="median_polish", > > >>>>input.vecs=hugene.1.0.st.v1frmavecs) > > >>> > > >>>Warning message: > > >>> > > >>>In log2(pms) - input.vecs$probeVec : > > >>> > > >>> longer object length is not a multiple of shorter object length > > >>> > > >>> > > >>> > > >>> > > >>> > > >>>Thanks in advance for any help, > > >>> > > >>> > > >>> > > >>>Ty > > >>> > > >>> > > >>> > > >>> > > >>> > > >>>>sessionInfo() > > >>> > > >>>R version 3.0.1 (2013-05-16) > > >>> > > >>>Platform: x86_64-w64-mingw32/x64 (64-bit) > > >>> > > >>> > > >>> > > >>>locale: > > >>> > > >>>[1] LC_COLLATE=English_United States.1252 LC_CTYPE=English_United > > >>>States.1252 LC_MONETARY=English_United States.1252 > > >>> > > >>>[4] LC_NUMERIC=C LC_TIME=English_United > > >>>States.1252 > > >>> > > >>> > > >>> > > >>>attached base packages: > > >>> > > >>>[1] parallel stats graphics grDevices utils datasets > methods > > >>>base > > >>> > > >>> > > >>> > > >>>other attached packages: > > >>> > > >>>[1] hugene10sthsentrezgcdf_17.1.0 AnnotationDbi_1.22.6 > > >>>hugene.1.0.st.v1frmavecs_0.0.3 pd.hugene.1.0.st.v1_3.8.0 > > >>> > > >>> [5] RSQLite_0.11.4 DBI_0.2-7 > > >>>frma_1.12.0 oligo_1.24.2 > > >>> > > >>> [9] oligoClasses_1.22.0 affy_1.38.1 > > >>>Biobase_2.20.1 BiocGenerics_0.6.0 > > >>> > > >>> > > >>> > > >>>loaded via a namespace (and not attached): > > >>> > > >>>[1] affxparser_1.32.3 affyio_1.28.0 BiocInstaller_1.10.4 > > >>>Biostrings_2.28.0 bit_1.1-11 codetools_0.2-8 > > >>> > > >>> [7] ff_2.2-12 foreach_1.4.1 GenomicRanges_1.12.5 > > >>>IRanges_1.18.4 iterators_1.0.6 MASS_7.3-29 > > >>> > > >>>[13] preprocessCore_1.22.0 splines_3.0.1 stats4_3.0.1 > > >>>tools_3.0.1 zlibbioc_1.6.0 > > >> > > > > > > > _______________________________________________ > > Bioconductor mailing list > > Bioconductor@r-project.org > > https://stat.ethz.ch/mailman/listinfo/bioconductor > > Search the archives: > > http://news.gmane.org/gmane.science.biology.informatics.conductor > > > > [[alternative HTML version deleted]] > > > _______________________________________________ > Bioconductor mailing list > Bioconductor@r-project.org > https://stat.ethz.ch/mailman/listinfo/bioconductor > Search the archives: > http://news.gmane.org/gmane.science.biology.informatics.conductor > [[alternative HTML version deleted]]
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Hi Benilton, Thanks for your detailed response. The oligo package is fantastic! When processing exon arrays (or any Affy array, for that matter), we use oligo to read CEL files (extract raw probe intensities) and to obtain the PM sequence for each probe. If the user specifies a BrainArray package (via the probeSummaryPackage parameter), we map the probes to the BrainArray annotations using x and y coordinates and then summarize based on which probes map to which genes in their annotations (we don?t use a CDF). If the user does not specify a BrainArray package, we map the probes to the probesets provided in the oligo package. Optionally, users can indicate which target probes (via exonArrayTarget parameter) they want to use. If they are using BrainArray mappings with exon arrays, we suggest that they specify ?probeset,? although I can see why this might be confusing because we don?t actually use the probeset definitions?but this option gives us access to all probes on the array, whereas the other targets do not. I?m not stating this to claim that our approach is better than using CDFs. But so far our approach has been working well for us and seems to give us more control over the processing. If you see a fatal flaw with this approach, please let me know, and I?m happy to reconsider. I just used BrainArray annotations on some data profiled on both exon arrays and U133 arrays and saw strong correlation between the two at the gene level, so it seems to be working well. Regards, -Steve From: Benilton Carvalho <beniltoncarvalho@gmail.com> Date: Tuesday, January 14, 2014 at 10:18 AM To: Ty Thomson <tthomson at="" selventa.com=""> Cc: Stephen Piccolo <stephen.piccolo at="" hsc.utah.edu="">, "bioconductor at r-project.org" <bioconductor at="" r-project.org=""> Subject: Re: [BioC] using frma and brainarray cdf on exon arrays I may have misunderstood what Steve described... So, I'm writing just to expose my version of what oligo does re: exon arrays: 1) oligo uses the official PGF/MPS files provided by Affymetrix to proceed with preprocessing; 2) given the design of the chip, there are different probeset definitions (which are given by Affymetrix through the MPS files). These different definitions are: core ("most reliable evidence from RefSeq and full-length mRNA GenBank records"), extended ("supported by other cDNA evidence beyond what is used to support core probe sets") and full ("supported by computational gene prediction evidence only"). 3) oligo uses the definitions above to perform preprocessing (this can be changed throught the 'target' argument in rma()). The user can also use the value 'probeset' to use the probeset definition given in the PGF. Now, re: what the BrainArray group does... they start with *only* chip coordinates and probe sequences, nothing else (note: this is independent from Affymetrix probeset definitions and, therefore, not related to the probeset definitions that we use in oligo - which come from Affymetrix). These sequences are then aligned and reannotated. This results in new probeset definitions, which they provide as what I call "BrainArray CDFs" (note that after this procedure, there is no such thing as core/full/extended probesets).... For the moment, oligo does not officially support the remapped CDFs. But that's something you should expect for the near future. b 2014/1/14 Ty Thomson <tthomson at="" selventa.com=""> Hi Steve, Thanks, that makes a lot of sense. I might just need to get another R installation going so I can directly assess the effect of using all the probes on my data. Regards, Ty -----Original Message----- From: Steve Piccolo [mailto:stephen.piccolo@hsc.utah.edu] Sent: Tuesday, January 14, 2014 9:35 AM To: Ty Thomson; bioconductor at r-project.org Subject: Re: using frma and brainarray cdf on exon arrays Hi Ty, The exon arrays have about 5 million probes. By default, the oligo package uses only a subset of these probes, which have been flagged as being most useful. However, the BrainArray package may want to include probes that are not included by oligo. Thus it may be valuable to start with all probes (exonarrayTarget=?probeset?) so that all probes included in the BrainArray mappings will be included. The previous version of SCAN.UPC uses the default oligo probes. Regards, -Steve On 1/14/14, 7:27 AM, "Ty Thomson" <tthomson at="" selventa.com=""> wrote: >Hi Steve, > >Thanks for the suggestion. I'm running bioconductor 2.12 with >SCAN.UPC_2.0.2, and it doesn't look like this version of SCAN supports >the exonArrayTarget parameter. After reading the documentation for the >exonArrayTarget parameter in the most recent version of SCAN I don't >really understand exactly what it does. Can you give me a bit more >information on the difference when using a brain array CDF >(probeSummaryPackage=hgu133plus2hsentrezgprobe) between what happens in >my current version of SCAN and in the newest version when setting >exonArrayTarget="probset"? I am reluctant to change version of >bioconductor mid-project for the effects this could have on other >aspects of the project (and the potential need to re-run everything >again). > >Regards, > >Ty > >-----Original Message----- >From: Steve Piccolo [mailto:stephen.piccolo at hsc.utah.edu] >Sent: Tuesday, January 14, 2014 8:25 AM >To: bioconductor at r-project.org; Ty Thomson >Subject: Re: using frma and brainarray cdf on exon arrays > >Hi Ty, > >Another option is to try the SCAN.UPC package. It is also designed to >support single-sample normalization. And it should be able to integrate >the BrainArray annotations for the exon arrays. In the SCAN function, >pay attention to the probeSummaryPackage and exonArrayTarget >parameters. And the InstallBrainArrayPackage function may come in >handy. Let me know if you run into any troubles with it. > >Regards, >-Steve > > > >On 1/14/14, 4:00 AM, "bioconductor-request at r-project.org" ><bioconductor-request at="" r-project.org=""> wrote: > >>Date: Mon, 13 Jan 2014 20:25:44 +0000 >>From: Ty Thomson <tthomson at="" selventa.com=""> >>To: Matthew McCall <mccallm at="" gmail.com=""> >>Cc: "bioconductor at r-project.org" <bioconductor at="" r-project.org=""> >>Subject: Re: [BioC] using frma and brainarray cdf on exon arrays >>Message-ID: >> >><f71eeb981506499f9b6e0c317b4eb53a at="" co2pr04mb601.namprd04.prod.outlook.c="">>o >>m> >> >>Content-Type: text/plain; charset="iso-8859-1" >> >>Hi Matt, >> >>Thanks for the quick reply and the suggestions. I'll look into making >>my own pd annotation and frmavecs packages. >> >>Ty >> >> >>-----Original Message----- >>From: Matthew McCall [mailto:mccallm at gmail.com] >>Sent: Monday, January 13, 2014 3:14 PM >>To: Ty Thomson >>Cc: bioconductor at r-project.org >>Subject: Re: using frma and brainarray cdf on exon arrays >> >>Ty, >> >>Unfortunately, what you are attempting to do is not currently >>implemented. The frmavecs packages for the 3' Affy arrays (HGU133a, >>HGU133plus2, etc) contain implementations for both the Affy and >>BrainArray CDFs. The issue is with the newer Affy arrays (HuGene 1.0 >>ST, etc.), which should really be read in using the oligo package and >>corresponding pd annotation packages. This is implemented in frma for >>the Affy annotation, but currently the BrainArray folks provide CDFs, >>which can't be readily used. This may be changing fairly soon -- I >>believe the BrainArray group may start offering oligo compatible >>annotation packages. >>Until then, to do what you would like would >>require: (1) making your own pd annotation package corresponding to >>the BrainArray alternative CDF, and (2) creating your own frmavecs >>package for the alternative annotation. >> >>Best, >>Matt >> >> >>On Mon, Jan 13, 2014 at 2:53 PM, Ty Thomson <tthomson at="" selventa.com=""> >>wrote: >>>Apologies if any of my questions are na?ve, as I don't have a lot of >>>experience with exon arrays. I would like to analyze an Affy HuGene >>>1.0 ST array using the brainArray CDF (because I want to get >>>expression values on a per gene level), and use fRMA (to correct for >>>batch effects and enable me to add additional samples in the future >>>without redoing RMA). Is this possible? Here's what I've tried >>>without much success thus far: >>> >>> >>> >>>I can skip brainarray and just load the data and run fRMA without error: >>> >>>>exonFS <- read.celfiles(filenames=cel.files, verbose=F, >>>>celfile.path=NULL) >>> >>>>tmp.eset <- frma(exonFS, summarize="median_polish") >>> >>> >>> >>>But when I use ReadAffy and specify the cdf, fRMA generates an error: >>> >>>>Affybatch <- ReadAffy(filenames=cel.files, verbose=F, >>>>celfile.path=NULL, >>>>cdfname="hugene10sthsentrezg") >>> >>>Warning message: >>> >>> >>> >>>The affy package can process data from the Gene ST 1.x series of >>>arrays, >>> >>>but you should consider using either the oligo or xps packages, which >>>are specifically >>> >>>designed for these arrays. >>> >>> >>> >>>>tmp.eset <- frma(Affybatch, summarize="median_polish") >>> >>>Error in frmaMedPol(object, background, normalize, target, >>>input.vecs, >>>: >>> >>> hugene10stfrmavecs package must be installed first >>> >>>In addition: Warning message: >>> >>>In library(package, lib.loc = lib.loc, character.only = TRUE, >>>logical.return = TRUE, : >>> >>> there is no package called 'hugene10stfrmavecs' >>> >>> >>> >>> >>> >>>When I try running fRMA while directly passing the frmavecs to the >>>function I get a different error: >>> >>>>data(hugene.1.0.st.v1frmavecs) >>> >>>>tmp.eset <- frma(Affybatch, summarize="median_polish", >>>>input.vecs=hugene.1.0.st.v1frmavecs) >>> >>>Warning message: >>> >>>In log2(pms) - input.vecs$probeVec : >>> >>> longer object length is not a multiple of shorter object length >>> >>> >>> >>> >>> >>>Thanks in advance for any help, >>> >>> >>> >>>Ty >>> >>> >>> >>> >>> >>>>sessionInfo() >>> >>>R version 3.0.1 (2013-05-16) >>> >>>Platform: x86_64-w64-mingw32/x64 (64-bit) >>> >>> >>> >>>locale: >>> >>>[1] LC_COLLATE=English_United States.1252 LC_CTYPE=English_United >>>States.1252 LC_MONETARY=English_United States.1252 >>> >>>[4] LC_NUMERIC=C LC_TIME=English_United >>>States.1252 >>> >>> >>> >>>attached base packages: >>> >>>[1] parallel stats graphics grDevices utils datasets methods >>>base >>> >>> >>> >>>other attached packages: >>> >>>[1] hugene10sthsentrezgcdf_17.1.0 AnnotationDbi_1.22.6 >>>hugene.1.0.st.v1frmavecs_0.0.3 pd.hugene.1.0.st.v1_3.8.0 >>> >>> [5] RSQLite_0.11.4 DBI_0.2-7 >>>frma_1.12.0 oligo_1.24.2 >>> >>> [9] oligoClasses_1.22.0 affy_1.38.1 >>>Biobase_2.20.1 BiocGenerics_0.6.0 >>> >>> >>> >>>loaded via a namespace (and not attached): >>> >>>[1] affxparser_1.32.3 affyio_1.28.0 BiocInstaller_1.10.4 >>>Biostrings_2.28.0 bit_1.1-11 codetools_0.2-8 >>> >>> [7] ff_2.2-12 foreach_1.4.1 GenomicRanges_1.12.5 >>>IRanges_1.18.4 iterators_1.0.6 MASS_7.3-29 >>> >>>[13] preprocessCore_1.22.0 splines_3.0.1 stats4_3.0.1 >>>tools_3.0.1 zlibbioc_1.6.0 >> > _______________________________________________ Bioconductor mailing list Bioconductor at r-project.org https://stat.ethz.ch/mailman/listinfo/bioconductor Search the archives: http://news.gmane.org/gmane.science.biology.informatics.conductor <http: news.gmane.org="" gmane.science.biology.informatics.conductor="">
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