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| Authors||T. G. Doeswijk, J.A. Hageman, J.A. Westerhuis, Y. Tikunov, A. Bovy, F. A. van Eeuwijk|
|Title||Canonical correlation analysis of multiple sensory directed metabolomics data blocks reveals corresponding parts between data blocks.|
|Journal||Chemometrics and Intelligent Laboratory Systems|
|Faculty||Faculty of Science|
|Institute/dept.||FNWI: Swammerdam Institute for Life Sciences (SILS)|
|Abstract||Multiple analytical platforms are frequently used in metabolomics studies. The resulting multiple data blocks|
contain, in general, similar parts of information which can be disclosed by chemometric methods. The
metabolites of interest, however, are usually just a minor part of the complete data block and are related to a
response of interest such as quality traits. Concatenation of data matrices is frequently used to simultaneously
analyze multiple data blocks. Two main problems may occur with this approach: 1) the number of variables
becomes very large in relation to the number of observations which may deteriorate model performance, and
2) scaling issues between the data blocks need to be resolved. Therefore, a method is proposed that
circumvents direct concatenation of two data matrices but does uncover the shared and distinct parts of the
data sets in relation to quality traits.
The relevant part of the data blocks with respect to the quality trait of interest is revealed by partial least
squares regression on each of the data blocks. The score vectors of both models that are predictive for the
quality trait are then used in a canonical correlation analysis. Highly correlating score vectors indicate parts of
the data blocks that are closely related. By inspecting the relevant loading vectors, the metabolites of interest
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