[BioC] Agilent MAGE-ML
Wolfgang Huber
huber at ebi.ac.uk
Fri Aug 22 15:51:25 CEST 2008
Hi Gabriele,
I have not yet had to use this, but there is a MAGE-ML to MAGE-TAB
converter here:
http://www.mged.org/mage-tab/tools.html
and reading MAGE-TAB should be reasonably straightforward if you know a
little bit of R and read.table.
Best wishes
Wolfgang
------------------------------------------------------------------
Wolfgang Huber EBI/EMBL Cambridge UK http://www.ebi.ac.uk/huber
20/08/2008 17:34 Martin Morgan scripsit
> Hi Gabriele --
>
> A little slow on the response, but I wanted to provide a couple of
> not-very-complete suggestions.
>
> gabriele bucci <gabriele.bucci at ifom-ieo-campus.it> writes:
>
>> Dear List,
>> some external collaborators gave us the results of an expression
>> profiling over tumor samples.
>> The experiment is a dye swap, and they are using a rosetta resolver
>> platform.
>> The chips used were Agilent two-colors custom arrays and the data
>> which were provided to us are in the form of ".mage" files.
>> So I suppose these files are actually a MAGE-ML files.
>>
>> Except for the package 'RMAGEML' which run only under a Linux R
>> environment (I'm working under winXP), I was not able to find a
>> Bioconductor solution to read and process this MAGE-ML files.
>
> 'AffyCompatible' will parse MAGE files; unfortunately, it requires a
> version of the XML package (e.g., 1.95-3) that is different from the
> one available by default. Try
>
>> install.packages('XML', repos='http://www.omegahat.org/R')
>> source('http://bioconductor.org/biocLite.R')
>> biocLite('AffyCompatible')
>> library(AffyCompatible)
>> example(readMage)
>
> You'll end up with a complicated object that you can traverse (use the
> names suggested by the display of the object, with vector-like
> elements suggested by () and accessible with [[) to retrieve relevant
> information; there is no easy way to convert this to, say, an
> ExpressionSet, and the MAGE model is horrendously complicated.
>
> http://www.ebi.ac.uk/microarray/doc/software/schema/MAGE/MAGE.htm
>
> The help page for readMage also points to readXml, which will be a
> more efficient way to retrieve information once you know what it is
> that you want. There are useful vignettes in the package, too.
>
> A further complication is that Affy used MAGE for sample attribute
> description, not for storing expression data; Rosetta Resolver might
> well do the same thing but I have no direct experience. Also MAGE
> implementations are not always compliant with the standard, so the
> MAGE in AffyCompatible may differ in obscure ways from the MAGE used
> by Rosetta.
>
>> My questions are:
>>
>> 1) when talking in general about 'Agilent .txt files' we`re actually
>> talking about MAGE files?
>
> If you have Agilent .txt files, then probably this is the data that
> will be most useful in the analysis, e.g., using limma's
> read.maimages.
>
>> 2) is there a way to port RMAGEML on R under windows?
>> 3) alternative solutions.
>>
>> I will appreciate any kind of suggestion and comment, if you have some.
>>
>> My Best wishes,
>> Gabriele
>>
>> PS. I've tried also with Partek and GeneSpring GX (7.3) without success...
>>
>> --
>> Gabriele Bucci, PhD
>>
>> COGENTECH -Consortium for Genomic Technologies-
>> Via Adamello 16 20139 Milano -Italia-
>> Tel. +39 02 94375134 Fax. +39 02 94375991
>> gabriele.bucci at ifom-ieo-campus.it
>> service-array at ifom-ieo-campus.it
>>
>> _______________________________________________
>> Bioconductor mailing list
>> Bioconductor at stat.math.ethz.ch
>> https://stat.ethz.ch/mailman/listinfo/bioconductor
>> Search the archives: http://news.gmane.org/gmane.science.biology.informatics.conductor
>
More information about the Bioconductor
mailing list