K. E. Mogensen scite author profile

High insecticide resistance resulting from insensitive acetylcholinesterase (AChE) has emerged in mosquitoes. A single mutation (G119S of the ace-1 gene) explains this high resistance in Culex pipiens and in Anopheles gambiae. In order to provide better documentation of the ace-1 gene and the effect of the G119S mutation, we present a three-dimension structure model of AChE, showing that this unique substitution is localized in the oxyanion hole, explaining the insecticide insensitivity and its interference with the enzyme catalytic functions. As the G119S creates a restriction site, a simple PCR test was devised to detect its presence in both A. gambiae and C. pipiens, two mosquito species belonging to different subfamilies (Culicinae and Anophelinae). It is possibile that this mutation also explains the high resistance found in other mosquitoes, and the present results indicate that the PCR test detects the G119S mutation in the malaria vector A. albimanus. The G119S has thus occurred independently at least four times in mosquitoes and this PCR test is probably of broad applicability within the Culicidae family.

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Insecticide resistance in mosquito vectors

Weill

Lutfalla²,

Mogensen³

et al. 2003

Nature

436

389

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The Two Groups of Zebrafish Virus-Induced Interferons Signal via Distinct Receptors with Specific and Shared Chains

et al. 2009

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Because the availability of fish genomic data, the number of reported sequences for fish type II helical cytokines is rapidly growing, featuring different IFNs including virus-induced IFNs (IFNφ) and IFN-γ, and IL-10 with its related cytokines (IL-20, IL-22, and IL-26). Many candidate receptors exist for these cytokines and various authors have postulated which receptor chain would be involved in which functional receptor in fish. To date, only the receptor for zebrafish IFNφ1 has been identified functionally. Three genes encoding virus-induced IFNφs have been reported in zebrafish. In addition to these genes clustered on chromosome 3, we have identified a fourth IFNφ gene on chromosome 12. All these genes possess the intron-exon organization of mammalian λ IFNs. In the zebrafish larva, all induce the expression of reporter antiviral genes; protection in a viral challenge assay was observed for IFNφ1 and IFNφ2. Using a combination of gain- and loss-of-function experiments, we also show that all zebrafish IFNφs do not bind to the same receptor. Two subgroups of fish virus-induced IFNs have been defined based on conserved cysteines, and we find that this subdivision correlates with receptor usage. Both receptor complexes include a common short chain receptor (CRFB5) and a specific long chain receptor (CRFB1 or CRFB2).

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Mutant U5A cells are complemented by an interferon-alpha beta receptor subunit generated by alternative processing of a new member of a cytokine receptor gene cluster.

et al. 1995

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The cellular receptor for the alpha/beta interferons contains at least two components that interact with interferon. The ifnar1 component is well characterized and a putative ifnar2 cDNA has recently been identified. We have cloned the gene for ifnar2 and show that it produces four different transcripts encoding three different polypeptides that are generated by exon skipping, alternative splicing and differential use of polyadenylation sites. One polypeptide is likely to be secreted and two are transmembrane proteins with identical extracellular and transmembrane domains but divergent cytoplasmic tails of 67 and 251 amino acids. A mutant cell line U5A, completely defective in IFN‐alpha beta binding and response, has been isolated and characterized. Expression in U5A cells of the polypeptide with the long cytoplasmic domain reconstitutes a functional receptor that restores normal interferon binding, activation of the JAK/STAT signal transduction pathway, interferon‐inducible gene expression and antiviral response. The IFNAR2 gene maps at 0.5 kb from the CRFB4 gene, establishing that together IFNAR2, CRFB4, IFNAR1 and AF1 form a cluster of class II cytokine receptor genes on human chromosome 21.

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Interferon-α-dependent Activation of Tyk2 Requires Phosphorylation of Positive Regulatory Tyrosines by Another Kinase

Gauzzi

Velázquez

McKendry

et al. 1996

Journal of Biological Chemistry

169

157

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The Type I Interferon Receptor: Structure, Function, and Evolution of a Family Business

Mogensen

Lewerenz

Reboul

et al. 1999

Journal of Interferon & Cytokine Research

228

157

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Recent results indicate that coherent models of how multiple interferons (IFN) are recognized and signal selectively through a common receptor are now feasible. A proposal is made that the IFN receptor, with its subunits IFNAR-1 and IFNAR-2, presents two separate ligand binding sites, and this double structure is both necessary and sufficient to ensure that the different IFN are recognized and can act selectively. The key feature is the duplication of the extracellular domain of the IFNAR-1 subunit and the configurational geometry that this imposes on the intracellular domains of the receptor subunits and their associated tyrosine kinases.

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Distinct Domains of the Protein Tyrosine Kinase tyk2 Required for Binding of Interferon-α/β and for Signal Transduction

Velázquez¹,

Mogensen

Barbieri³

et al. 1995

Journal of Biological Chemistry

143

129

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tyk2 belongs to the JAK family of nonreceptor protein tyrosine kinases recently found implicated in signaling through a large number of cytokine receptors. These proteins are characterized by a large amino-terminal region and two tandemly arranged kinase domains, a kinase-like and a tyrosine kinase domain. Genetic and biochemical evidence supports the requirement for tyk2 in interferon-alpha/beta binding and signaling. To study the role of the distinct domains of tyk2, constructs lacking one or both kinase domains were stably transfected in recipient cells lacking the endogenous protein. Removal of either or both kinase domains resulted in loss of the in vitro kinase activity. The mutant form truncated of the tyrosine kinase domain was found to reconstitute binding of interferon-alpha 8 and partial signaling. While no contribution of this protein toward interferon-beta binding was evident, increased signaling could be measured. The mutant form lacking both kinase domains did not exhibit any detectable activity. Altogether, these results show that a sequential deletion of domains engenders a sequential loss of function and that the different domains of tyk2 have distinct functions, all essential for full interferon-alpha and -beta binding and signaling.

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Comparative genomic analysis reveals independent expansion of a lineage-specific gene family in vertebrates: The class II cytokine receptors and their ligands in mammals and fish

et al. 2003

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Background: The high degree of sequence conservation between coding regions in fish and mammals can be exploited to identify genes in mammalian genomes by comparison with the sequence of similar genes in fish. Conversely, experimentally characterized mammalian genes may be used to annotate fish genomes. However, gene families that escape this principle include the rapidly diverging cytokines that regulate the immune system, and their receptors. A classic example is the class II helical cytokines (HCII) including type I, type II and lambda interferons, IL10 related cytokines (IL10, IL19, IL20, IL22, IL24 and IL26) and their receptors (HCRII). Despite the report of a near complete pufferfish (Takifugu rubripes) genome sequence, these genes remain undescribed in fish.

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K. E. Mogensen

The unique mutation in ace‐1 giving high insecticide resistance is easily detectable in mosquito vectors

Insecticide resistance in mosquito vectors

The Two Groups of Zebrafish Virus-Induced Interferons Signal via Distinct Receptors with Specific and Shared Chains

Mutant U5A cells are complemented by an interferon-alpha beta receptor subunit generated by alternative processing of a new member of a cytokine receptor gene cluster.

Interferon-α-dependent Activation of Tyk2 Requires Phosphorylation of Positive Regulatory Tyrosines by Another Kinase

The Type I Interferon Receptor: Structure, Function, and Evolution of a Family Business

Distinct Domains of the Protein Tyrosine Kinase tyk2 Required for Binding of Interferon-α/β and for Signal Transduction

Comparative genomic analysis reveals independent expansion of a lineage-specific gene family in vertebrates: The class II cytokine receptors and their ligands in mammals and fish

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