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United States Department of Agriculture

Agricultural Research Service

Title: Comparative genomic analysis of the Tribolium immune system

Authors
item Zou, Zhen - OKLAHOMA STATE UNIV
item EVANS, JAY
item Lu, Zhiqiang - OKLAHOMA STATE UNIV
item Zhao, Picheng - OKLAHOMA STATE UNIV
item Williams, Michael - UMEA UNIV SWEDEN
item Sumathipala, Niranji - OKLAHOMA STATE UNIV
item Hetru, C - CNRS STRASBOURG FRANCE
item Hultmark, D - UMEA UNIV SWEDEN
item Jiang, Haobo - OKLAHOMA STATE UNIV

Submitted to: Genome Biology
Publication Type: Peer Reviewed Journal
Publication Acceptance Date: September 1, 2007
Publication Date: November 4, 2007
Citation: Zou, Z., Evans, J.D., Lu, Z., Zhao, P., Williams, M., Sumathipala, N., Hetru, C., Hultmark, D., Jiang, H. 2007. Comparative genomic analysis of the Tribolium immune system. Genome Biology. 8:R177.

Interpretive Summary: Insects battle viral, fungal, and bacterial diseases on several levels, including at the level of individual immune responses. An understanding of insect immunity can help lessen the impacts on the food uplly and human health of deleterious insects, and can help in the sustained production of beneficial insects such as the honey bee. The red flour beetle, Tribolium castaneum, is the second agriculturally important insect, after the honey bee, to possess a fully sequenced and annotated genome. Comparisons of genome immune traits between these species and among all the insects provides a better view of the important traits responsible for resisting or tolerating disease. For deleterious insects, this information could be used for more precise control strategies, lessening dependence on chemical insecticides.

Technical Abstract: The red flour beetle Tribolium castaneum has contributed a wealth of knowledge on insect development but limited information about innate immunity. With its complete nucleotide sequence determined, we have taken the opportunity to annotate immunity-related genes and compare them with homologous molecules from other insects. In most cases, paralog counts are lower than those of Drosophila melanogaster or Anopheles gambiae but are substantially higher than Apis mellifera. We have identified around 300 candidate defense proteins based on sequence similarity to homologs known to participate in various immune responses. The genome contains probable orthologs for nearly all members of the Toll, IMD and JAK/STAT pathways. While the total numbers of clip-domain serine proteinases are approximately equal in the fly (37), mosquito (41) and beetle (48), linage-specific expansion of the family is discovered in all three species. Remarkably, multiple rounds of gene duplication have resulted in a cluster of 16 serpin genes in a small region of 50 kb! Among the 9 Toll-like proteins, four are located on the same clade with Drosophila Toll. The presence of scavenger receptors and other related proteins indicates a role of cellular responses in the entire system. The structures of some antimicrobial peptides drastically differ from those in other orders of insects. In summary, we have established a framework of information on Tribolium immunity, which may serve as a stepping stone for future genetic analyses of defense responses in a nondrosophiline model insect.

Last Modified: 7/25/2014
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