Multivariate analysis of complex gene expression and clinical phenotypes with genetic marker data

Joseph Beyene; David Tritchler; S. B. Bull; K. C. Cartier; G. Jonasdottir; A. T. Kraja; N. Li; N. L. Nock; E. Parkhomenko; J. S. Rao; C. M. Stein; R. Sutradhar; S. Waaijenborg; K. S. Wang; Y. Wang; P. Wolkow

doi:10.1002/gepi.20286

Multivariate analysis of complex gene expression and clinical phenotypes with genetic marker data

Joseph Beyene, David Tritchler, S. B. Bull, K. C. Cartier, G. Jonasdottir, A. T. Kraja, N. Li, N. L. Nock, E. Parkhomenko, J. S. Rao, C. M. Stein, R. Sutradhar, S. Waaijenborg, K. S. Wang, Y. Wang, P. Wolkow

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18 Scopus citations

Abstract

This paper summarizes contributions to group 12 of the 15th Genetic Analysis Workshop. The papers in this group focused on multivariate methods and applications for the analysis of molecular data including genotypic data as well as gene expression microarray measurements and clinical phenotypes. A range of multivariate techniques have been employed to extract signals from the multi-feature data sets that were provided by the workshop organizers. The methods included data reduction techniques such as principal component analysis and cluster analysis; latent variable models including structural equations and item response modeling; joint multivariate modeling techniques as well as multivariate visualization tools. This summary paper categorizes and discusses individual contributions with regard to multiple classifications of multivariate methods. Given the wide variety in the data considered, the objectives of the analysis and the methods applied, direct comparison of the results of the various papers is difficult. However, the group was able to make many interesting comparisons and parallels between the various approaches. In summary, there was a consensus among authors in group 12 that the genetic research community should continue to draw experiences from other fields such as statistics, econometrics, chemometrics, computer science and linear systems theory.

Original language	English (US)
Pages (from-to)	S103-S109
Journal	Genetic epidemiology
Volume	31
Issue number	SUPPL. 1
DOIs	https://doi.org/10.1002/gepi.20286
State	Published - 2007
Externally published	Yes

Keywords

Gene expression
Microarrays
Multivariate analysis
Multivariate phenotypes
SNPs
Simulated data

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10.1002/gepi.20286

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Beyene, J., Tritchler, D., Bull, S. B., Cartier, K. C., Jonasdottir, G., Kraja, A. T., Li, N., Nock, N. L., Parkhomenko, E., Rao, J. S., Stein, C. M., Sutradhar, R., Waaijenborg, S., Wang, K. S., Wang, Y., & Wolkow, P. (2007). Multivariate analysis of complex gene expression and clinical phenotypes with genetic marker data. Genetic epidemiology, 31(SUPPL. 1), S103-S109. https://doi.org/10.1002/gepi.20286

Beyene, J, Tritchler, D, Bull, SB, Cartier, KC, Jonasdottir, G, Kraja, AT, Li, N, Nock, NL, Parkhomenko, E, Rao, JS, Stein, CM, Sutradhar, R, Waaijenborg, S, Wang, KS, Wang, Y & Wolkow, P 2007, 'Multivariate analysis of complex gene expression and clinical phenotypes with genetic marker data', Genetic epidemiology, vol. 31, no. SUPPL. 1, pp. S103-S109. https://doi.org/10.1002/gepi.20286

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title = "Multivariate analysis of complex gene expression and clinical phenotypes with genetic marker data",

abstract = "This paper summarizes contributions to group 12 of the 15th Genetic Analysis Workshop. The papers in this group focused on multivariate methods and applications for the analysis of molecular data including genotypic data as well as gene expression microarray measurements and clinical phenotypes. A range of multivariate techniques have been employed to extract signals from the multi-feature data sets that were provided by the workshop organizers. The methods included data reduction techniques such as principal component analysis and cluster analysis; latent variable models including structural equations and item response modeling; joint multivariate modeling techniques as well as multivariate visualization tools. This summary paper categorizes and discusses individual contributions with regard to multiple classifications of multivariate methods. Given the wide variety in the data considered, the objectives of the analysis and the methods applied, direct comparison of the results of the various papers is difficult. However, the group was able to make many interesting comparisons and parallels between the various approaches. In summary, there was a consensus among authors in group 12 that the genetic research community should continue to draw experiences from other fields such as statistics, econometrics, chemometrics, computer science and linear systems theory.",

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author = "Joseph Beyene and David Tritchler and Bull, {S. B.} and Cartier, {K. C.} and G. Jonasdottir and Kraja, {A. T.} and N. Li and Nock, {N. L.} and E. Parkhomenko and Rao, {J. S.} and Stein, {C. M.} and R. Sutradhar and S. Waaijenborg and Wang, {K. S.} and Y. Wang and P. Wolkow",

year = "2007",

doi = "10.1002/gepi.20286",

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volume = "31",

pages = "S103--S109",

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AU - Beyene, Joseph

AU - Tritchler, David

AU - Bull, S. B.

AU - Cartier, K. C.

AU - Jonasdottir, G.

AU - Kraja, A. T.

AU - Li, N.

AU - Nock, N. L.

AU - Parkhomenko, E.

AU - Rao, J. S.

AU - Stein, C. M.

AU - Sutradhar, R.

AU - Waaijenborg, S.

AU - Wang, K. S.

AU - Wang, Y.

AU - Wolkow, P.

PY - 2007

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N2 - This paper summarizes contributions to group 12 of the 15th Genetic Analysis Workshop. The papers in this group focused on multivariate methods and applications for the analysis of molecular data including genotypic data as well as gene expression microarray measurements and clinical phenotypes. A range of multivariate techniques have been employed to extract signals from the multi-feature data sets that were provided by the workshop organizers. The methods included data reduction techniques such as principal component analysis and cluster analysis; latent variable models including structural equations and item response modeling; joint multivariate modeling techniques as well as multivariate visualization tools. This summary paper categorizes and discusses individual contributions with regard to multiple classifications of multivariate methods. Given the wide variety in the data considered, the objectives of the analysis and the methods applied, direct comparison of the results of the various papers is difficult. However, the group was able to make many interesting comparisons and parallels between the various approaches. In summary, there was a consensus among authors in group 12 that the genetic research community should continue to draw experiences from other fields such as statistics, econometrics, chemometrics, computer science and linear systems theory.

AB - This paper summarizes contributions to group 12 of the 15th Genetic Analysis Workshop. The papers in this group focused on multivariate methods and applications for the analysis of molecular data including genotypic data as well as gene expression microarray measurements and clinical phenotypes. A range of multivariate techniques have been employed to extract signals from the multi-feature data sets that were provided by the workshop organizers. The methods included data reduction techniques such as principal component analysis and cluster analysis; latent variable models including structural equations and item response modeling; joint multivariate modeling techniques as well as multivariate visualization tools. This summary paper categorizes and discusses individual contributions with regard to multiple classifications of multivariate methods. Given the wide variety in the data considered, the objectives of the analysis and the methods applied, direct comparison of the results of the various papers is difficult. However, the group was able to make many interesting comparisons and parallels between the various approaches. In summary, there was a consensus among authors in group 12 that the genetic research community should continue to draw experiences from other fields such as statistics, econometrics, chemometrics, computer science and linear systems theory.

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KW - Multivariate analysis

KW - Multivariate phenotypes

KW - SNPs

KW - Simulated data

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Multivariate analysis of complex gene expression and clinical phenotypes with genetic marker data

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