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Elisabeth Herniou - One of the best experts on this subject based on the ideXlab platform.
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New Insights into the Evolution of Entomopoxvirinae from the Complete Genome Sequences of Four Entomopoxviruses Infecting Adoxophyes honmai, Choristoneura biennis, Choristoneura rosaceana, and Mythimna separata
Journal of Virology, 2013Co-Authors: Julien Thézé, Julie Gallais, Basil Arif, Madoka Nakai, Daniel Doucet, Jun Takatsuka, Zhen Li, Elisabeth HerniouAbstract:Poxviruses are nucleocytoplasmic large DNA viruses encompassing two subfamilies, the Chordopoxvirinae and the Entomopoxvirinae, infecting vertebrates and insects, respectively. While chordopoxvirus genomics have been widely studied, only two entomopoxvirus (EPV) genomes have been entirely sequenced. We report the genome sequences of four EPVs of the Betaentomopoxvirus genus infecting the Lepidoptera: Adoxophyes honmai EPV (AHEV), Choristoneura biennis EPV (CBEV), Choristoneura rosaceana EPV (CREV), and Mythimna separata EPV (MySEV). The genomes are 80% AT rich, are 228 to 307 kbp long, and contain 247 to 334 open reading frames (ORFs). Most genes are homologous to those of Amsacta moorei entomopoxvirus and encode several protein families repeated in tandem in terminal regions. Some genomes also encode proteins of unknown functions with similarity to those of other insect viruses. Comparative genomic analyses highlight a high colinearity among the lepidopteran EPV genomes and little gene order conservation with other poxvirus genomes. As with previously sequenced EPVs, the genomes include a relatively conserved central region flanked by inverted terminal repeats. Protein clustering identified 104 core EPV genes. Among betaentomopoxviruses, 148 core genes were found in relatively high synteny, pointing to low genomic diversity. Whole-genome and spheroidin gene phylogenetic analyses showed that the lepidopteran EPVs group closely in a monophyletic lineage, corroborating their affiliation with the Betaentomopoxvirus genus as well as a clear division of the EPVs according to the orders of insect hosts (Lepidoptera, Coleoptera, and Orthoptera). This suggests an ancient coevolution of EPVs with their insect hosts and the need to revise the current EPV taxonomy to separate Orthopteran EPVs from the lepidopteran-specific betaentomopoxviruses so as to form a new genus.
Okitsugu Yamashita - One of the best experts on this subject based on the ideXlab platform.
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silkworm diapause induction activity of myotropic pyrokinin fxprlamide insect neuropeptides
Peptides, 1993Co-Authors: R.j. Nachman, Liliane Schoofs, Mark G Holman, Okitsugu YamashitaAbstract:Abstract A family of myotropic neuropeptides sharing the common C- terminal pentapeptide Phe-Xxx-Pro-Arg-Leu-NH2 (Xxx = Ser, Thr, Val), known as the pyrokinins, has been isolated from the cockroach Leucophaea maderae and locust Locusta migratoria of the order Orthoptera. A hormone (Bom-DH) that elicits diapause induction in the silkworm Bombyx mori (order Lepidoptera) also contains this C- terminal pentapeptide (Xxx = Gly). The Orthopteran pyrokinin neuropeptides elicit significant diapause-inducing activity in the lepidopteran silkworm. Despite containing the sterically bulky, inflexible Val residue in the variable Xxx position, the locust pyrokinin Lom-PK is threefold more active than native Bom-DH as a diapause induction agent. The C- terminally truncated cockroach leucopyrokinin (LPK) fragment. Thr-Ser-Phe-Thr-Pro-Arg-NH2 [LPK(2–7)], proved virtually inactive in the silkworm assay, demonstrating the importance of an intact C- terminal pentapeptide sequence to diapause induction activity. Bom-DH also elicits significant myostimulatory activity in a cockroach hindgut assay, although at a level several orders of magnitude less than the native myotropic peptide LPK. However, the C- terminal pentapeptide of Bom-DH (Xxx = Gly) is equipotent with the LPK C- terminal pentapeptide (Xxx = Thr) as a myostimulatory agent. The cross-activity observed for the various pyrokinins suggests that the receptors that mediate the disparate physiological processes of diapause in the silkworm and hindgut contraction in the cockroach share homologous features. Previous data suggest that pyrokinins demonstrate cross-activity in silkworm pheromone production, locust/cockroach oviduct myotropic assays, and in armyworm cuticular melanization. These results, combined with the present work, increase the known spectrum of cross-activity for this insect neuropeptide family to include five different physiological processes.
Julien Thézé - One of the best experts on this subject based on the ideXlab platform.
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New Insights into the Evolution of Entomopoxvirinae from the Complete Genome Sequences of Four Entomopoxviruses Infecting Adoxophyes honmai, Choristoneura biennis, Choristoneura rosaceana, and Mythimna separata
Journal of Virology, 2013Co-Authors: Julien Thézé, Julie Gallais, Basil Arif, Madoka Nakai, Daniel Doucet, Jun Takatsuka, Zhen Li, Elisabeth HerniouAbstract:Poxviruses are nucleocytoplasmic large DNA viruses encompassing two subfamilies, the Chordopoxvirinae and the Entomopoxvirinae, infecting vertebrates and insects, respectively. While chordopoxvirus genomics have been widely studied, only two entomopoxvirus (EPV) genomes have been entirely sequenced. We report the genome sequences of four EPVs of the Betaentomopoxvirus genus infecting the Lepidoptera: Adoxophyes honmai EPV (AHEV), Choristoneura biennis EPV (CBEV), Choristoneura rosaceana EPV (CREV), and Mythimna separata EPV (MySEV). The genomes are 80% AT rich, are 228 to 307 kbp long, and contain 247 to 334 open reading frames (ORFs). Most genes are homologous to those of Amsacta moorei entomopoxvirus and encode several protein families repeated in tandem in terminal regions. Some genomes also encode proteins of unknown functions with similarity to those of other insect viruses. Comparative genomic analyses highlight a high colinearity among the lepidopteran EPV genomes and little gene order conservation with other poxvirus genomes. As with previously sequenced EPVs, the genomes include a relatively conserved central region flanked by inverted terminal repeats. Protein clustering identified 104 core EPV genes. Among betaentomopoxviruses, 148 core genes were found in relatively high synteny, pointing to low genomic diversity. Whole-genome and spheroidin gene phylogenetic analyses showed that the lepidopteran EPVs group closely in a monophyletic lineage, corroborating their affiliation with the Betaentomopoxvirus genus as well as a clear division of the EPVs according to the orders of insect hosts (Lepidoptera, Coleoptera, and Orthoptera). This suggests an ancient coevolution of EPVs with their insect hosts and the need to revise the current EPV taxonomy to separate Orthopteran EPVs from the lepidopteran-specific betaentomopoxviruses so as to form a new genus.
R.j. Nachman - One of the best experts on this subject based on the ideXlab platform.
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silkworm diapause induction activity of myotropic pyrokinin fxprlamide insect neuropeptides
Peptides, 1993Co-Authors: R.j. Nachman, Liliane Schoofs, Mark G Holman, Okitsugu YamashitaAbstract:Abstract A family of myotropic neuropeptides sharing the common C- terminal pentapeptide Phe-Xxx-Pro-Arg-Leu-NH2 (Xxx = Ser, Thr, Val), known as the pyrokinins, has been isolated from the cockroach Leucophaea maderae and locust Locusta migratoria of the order Orthoptera. A hormone (Bom-DH) that elicits diapause induction in the silkworm Bombyx mori (order Lepidoptera) also contains this C- terminal pentapeptide (Xxx = Gly). The Orthopteran pyrokinin neuropeptides elicit significant diapause-inducing activity in the lepidopteran silkworm. Despite containing the sterically bulky, inflexible Val residue in the variable Xxx position, the locust pyrokinin Lom-PK is threefold more active than native Bom-DH as a diapause induction agent. The C- terminally truncated cockroach leucopyrokinin (LPK) fragment. Thr-Ser-Phe-Thr-Pro-Arg-NH2 [LPK(2–7)], proved virtually inactive in the silkworm assay, demonstrating the importance of an intact C- terminal pentapeptide sequence to diapause induction activity. Bom-DH also elicits significant myostimulatory activity in a cockroach hindgut assay, although at a level several orders of magnitude less than the native myotropic peptide LPK. However, the C- terminal pentapeptide of Bom-DH (Xxx = Gly) is equipotent with the LPK C- terminal pentapeptide (Xxx = Thr) as a myostimulatory agent. The cross-activity observed for the various pyrokinins suggests that the receptors that mediate the disparate physiological processes of diapause in the silkworm and hindgut contraction in the cockroach share homologous features. Previous data suggest that pyrokinins demonstrate cross-activity in silkworm pheromone production, locust/cockroach oviduct myotropic assays, and in armyworm cuticular melanization. These results, combined with the present work, increase the known spectrum of cross-activity for this insect neuropeptide family to include five different physiological processes.
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Silkworm diapause induction activity of myotropic pyrokinin (FXPRLamide) insect neuropeptides
'Elsevier BV', 1993Co-Authors: R.j. Nachman, G M Holman, Schoofs Liliane, Yamashita OAbstract:A family of myotropic neuropeptides sharing the common C-terminal pentapeptide Phe-Xxx-Pro-Arg-Leu-NH2 (Xxx = Ser, Thr, Val), known as the pyrokinins, has been isolated from the cockroach Leucophaea maderae and locust Locusta migratoria of the order Orthoptera. A hormone (Bom-DH) that elicits diapause induction in the silkworm Bombyx mori (order Lepidoptera) also contains this C-terminal pentapeptide (Xxx = Gly). The Orthopteran pyrokinin neuropeptides elicit significant diapause-inducing activity in the lepidopteran silkworm. Despite containing the sterically bulky, inflexible Val residue in the variable Xxx position, the locust pyrokinin Lom-PK is threefold more active than native Bom-DH as a diapause induction agent. The C-terminally truncated cockroach leucopyrokinin (LPK) fragment, Thr-Ser-Phe-Thr-Pro-Arg-NH2 [LPK(2-7)], proved virtually inactive in the silkworm assay, demonstrating the importance of an intact C-terminal pentapeptide sequence to diapause induction activity. Bom-DH also elicits significant myostimulatory activity in a cockroach hindgut assay, although at a level several orders of magnitude less than the native myotropic peptide LPK. However, the C-terminal pentapeptide of Bom-DH (Xxx = Gly) is equipotent with the LPK C-terminal pentapeptide (Xxx = Thr) as a myostimulatory agent. The cross-activity observed for the various pyrokinins suggests that the receptors that mediate the disparate physiological processes of diapause in the silkworm and hindgut contraction in the cockroach share homologous features. Previous data suggest that pyrokinins demonstrate cross-activity in silkworm pheromone production, locust/cockroach oviduct myotropic assays, and in armyworm cuticular melanization. These results, combined with the present work, increase the known spectrum of cross-activity for this insect neuropeptide family to include five different physiological processes.status: publishe
Zhen Li - One of the best experts on this subject based on the ideXlab platform.
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New Insights into the Evolution of Entomopoxvirinae from the Complete Genome Sequences of Four Entomopoxviruses Infecting Adoxophyes honmai, Choristoneura biennis, Choristoneura rosaceana, and Mythimna separata
Journal of Virology, 2013Co-Authors: Julien Thézé, Julie Gallais, Basil Arif, Madoka Nakai, Daniel Doucet, Jun Takatsuka, Zhen Li, Elisabeth HerniouAbstract:Poxviruses are nucleocytoplasmic large DNA viruses encompassing two subfamilies, the Chordopoxvirinae and the Entomopoxvirinae, infecting vertebrates and insects, respectively. While chordopoxvirus genomics have been widely studied, only two entomopoxvirus (EPV) genomes have been entirely sequenced. We report the genome sequences of four EPVs of the Betaentomopoxvirus genus infecting the Lepidoptera: Adoxophyes honmai EPV (AHEV), Choristoneura biennis EPV (CBEV), Choristoneura rosaceana EPV (CREV), and Mythimna separata EPV (MySEV). The genomes are 80% AT rich, are 228 to 307 kbp long, and contain 247 to 334 open reading frames (ORFs). Most genes are homologous to those of Amsacta moorei entomopoxvirus and encode several protein families repeated in tandem in terminal regions. Some genomes also encode proteins of unknown functions with similarity to those of other insect viruses. Comparative genomic analyses highlight a high colinearity among the lepidopteran EPV genomes and little gene order conservation with other poxvirus genomes. As with previously sequenced EPVs, the genomes include a relatively conserved central region flanked by inverted terminal repeats. Protein clustering identified 104 core EPV genes. Among betaentomopoxviruses, 148 core genes were found in relatively high synteny, pointing to low genomic diversity. Whole-genome and spheroidin gene phylogenetic analyses showed that the lepidopteran EPVs group closely in a monophyletic lineage, corroborating their affiliation with the Betaentomopoxvirus genus as well as a clear division of the EPVs according to the orders of insect hosts (Lepidoptera, Coleoptera, and Orthoptera). This suggests an ancient coevolution of EPVs with their insect hosts and the need to revise the current EPV taxonomy to separate Orthopteran EPVs from the lepidopteran-specific betaentomopoxviruses so as to form a new genus.
