Hong Cai, Changjin Hong, Jianying Gu, T. Lilburn, R. Kuang, Yufeng Wang
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Prediction of novel systems components in cell cycle regulation in malaria parasite by subnetwork alignments
With 300-500 clinical cases and 1-2 million deaths yearly, malaria contributes to enormous health care and economic burden worldwide. The advent of high throughput -omics technologies is driving new approaches to the identification of potential antimalarial targets. In this paper, we propose a neighborhood subnetwork alignment approach to uncover the network components involved in cell cycle regulation of the malaria parasite Plasmodium falciparum and to assign function to previously unannotated proteins.
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