Sparse graphical Gaussian modeling of the isoprenoid gene network in Arabidopsis thaliana

被引:0
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作者
Anja Wille
Philip Zimmermann
Eva Vranová
Andreas Fürholz
Oliver Laule
Stefan Bleuler
Lars Hennig
Amela Prelić
Peter von Rohr
Lothar Thiele
Eckart Zitzler
Wilhelm Gruissem
Peter Bühlmann
机构
[1] Swiss Federal Institute of Technology (ETH),Reverse Engineering Group
[2] Colab,undefined
[3] ETH,undefined
[4] Seminar for Statistics,undefined
[5] ETH,undefined
[6] Institute for Plant Sciences and Functional Genomics Center Zurich,undefined
[7] ETH,undefined
[8] Computer Engineering and Networks Laboratory,undefined
[9] ETH,undefined
[10] Institute of Computational Science,undefined
[11] ETH,undefined
来源
Genome Biology | / 5卷
关键词
Carotenoid; Gene Pair; Additional Data File; Isoprenoid; Plastoquinone;
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摘要
We present a novel graphical Gaussian modeling approach for reverse engineering of genetic regulatory networks with many genes and few observations. When applying our approach to infer a gene network for isoprenoid biosynthesis in Arabidopsis thaliana, we detect modules of closely connected genes and candidate genes for possible cross-talk between the isoprenoid pathways. Genes of downstream pathways also fit well into the network. We evaluate our approach in a simulation study and using the yeast galactose network.
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