C. Luo scite author profile

Determining the effect of gene deletion is a fundamental approach to understanding gene function. Conventional genetic screens exhibit biases, and genes contributing to a phenotype are often missed. We systematically constructed a nearly complete collection of gene-deletion mutants (96% of annotated open reading frames, or ORFs) of the yeast Saccharomyces cerevisiae. DNA sequences dubbed 'molecular bar codes' uniquely identify each strain, enabling their growth to be analysed in parallel and the fitness contribution of each gene to be quantitatively assessed by hybridization to high-density oligonucleotide arrays. We show that previously known and new genes are necessary for optimal growth under six well-studied conditions: high salt, sorbitol, galactose, pH 8, minimal medium and nystatin treatment. Less than 7% of genes that exhibit a significant increase in messenger RNA expression are also required for optimal growth in four of the tested conditions. Our results validate the yeast gene-deletion collection as a valuable resource for functional genomics.

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Independent evolution of Toll and related genes in insects and mammals

Luo¹,

Zheng²

2000

Immunogenetics

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Toll and Toll-related proteins play an important role in antibacterial innate immunity in insect, plants, and mammals. We present the first comprehensive phylogenetic analyses of Toll-related genes from both insects and mammals. Drosophila melanogaster contains Toll and a highly homologous gene, Tehao. The protein, Dm Tehao, comprises 795 amino acid residues and its cytoplasmic domain shares a striking 61% identity with Dm Toll. Two Toll homologues were found in another dipteran of medical importance, Anopheles gambiae, a vector for human malaria. One Toll-like gene each was identified from Aedes aegypti and Glossina palpalis palpalis, vectors for yellow fever and trypanosomiasis, respectively. Phylogenetic analyses revealed separate clustering of Toll and related proteins from insects and mammals, suggesting independent evolution of the Toll family of proteins and of innate immunity in arthropods and vertebrates. These results also provide new avenues to understanding the function of Toll proteins in insect innate immunity against bacteria, fungi, and protozoans.

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Tehao functions in the Toll pathway in Drosophila melanogaster: possible roles in development and innate immunity

Luo

Shen

Manley

et al. 2001

Insect Molecular Biology

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Toll and related proteins play important roles in innate immunity in both invertebrates and vertebrates. In Drosophila melanogaster, Tehao shares a striking similarity in its intracellular domain with Toll. In this paper, we show that Tehao is expressed throughout development and appears to be glycosylated. In transiently transfected cells, Tehao activated both Dorsal and the transcription of endogenous drosomycin and metchnikowin genes. Purified recombinant Tehao interacted specifically in vitro not only with the Pelle protein kinase, but also with the Toll intracytoplasmic domain. Remarkably, Tehao was found to activate Dorsal-dependent transcription in a synergistic manner with Toll, as well as Pelle in co-transfected cells. Thus, Tehao, alone or with Toll as a multimeric complex, has the potential to participate in both the development and innate immune responses of Drosophila.

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C. Luo

Functional profiling of the Saccharomyces cerevisiae genome

Independent evolution of Toll and related genes in insects and mammals

Tehao functions in the Toll pathway in Drosophila melanogaster: possible roles in development and innate immunity

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