date: 2024-06-12T09:46:53Z
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pdf:docinfo:title: De Novo Genome Assembly and Annotation of Leptosia nina Provide New Insights into the Evolutionary Dynamics of Genes Involved in Host-Plant Adaptation of Pierinae Butterflies
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subject: DOI: 10.1093/gbe/evae105; Genome Biology and Evolution, 16, 5, 2024-5-23.; Abstract: In interactions between plants and herbivorous insects, the traits enabling phytophagous insects to overcome chemical defenses of their host plants have evolved multiple times. A prominent example of such adaptive key innovations in herbivorous insects is nitrile specifier proteins (NSPs) that enabled Pierinae butterflies to colonize Brassicales host plants that have a glucosinolate?myrosinase defense system. Although the evolutionary aspects of NSP-encoding genes have been studied in some Pierinae taxa (especially among Pieris butterflies), the ancestral evolutionary state of NSPs is unclear due to the limited genomic information available for species within Pierinae. Here, we generate a high-quality genome assembly and annotation of Leptosia nina, a member of a small tribe, Leptosiaini. L. nina uses as its main host Capparaceae plants, one of the ancestral hosts within Pierinae. By using ?90-fold c
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dc:title: De Novo Genome Assembly and Annotation of Leptosia nina Provide New Insights into the Evolutionary Dynamics of Genes Involved in Host-Plant Adaptation of Pierinae Butterflies
modified: 2024-06-12T09:46:53Z
cp:subject: DOI: 10.1093/gbe/evae105; Genome Biology and Evolution, 16, 5, 2024-5-23.; Abstract: In interactions between plants and herbivorous insects, the traits enabling phytophagous insects to overcome chemical defenses of their host plants have evolved multiple times. A prominent example of such adaptive key innovations in herbivorous insects is nitrile specifier proteins (NSPs) that enabled Pierinae butterflies to colonize Brassicales host plants that have a glucosinolate?myrosinase defense system. Although the evolutionary aspects of NSP-encoding genes have been studied in some Pierinae taxa (especially among Pieris butterflies), the ancestral evolutionary state of NSPs is unclear due to the limited genomic information available for species within Pierinae. Here, we generate a high-quality genome assembly and annotation of Leptosia nina, a member of a small tribe, Leptosiaini. L. nina uses as its main host Capparaceae plants, one of the ancestral hosts within Pierinae. By using ?90-fold c
pdf:docinfo:subject: DOI: 10.1093/gbe/evae105; Genome Biology and Evolution, 16, 5, 2024-5-23.; Abstract: In interactions between plants and herbivorous insects, the traits enabling phytophagous insects to overcome chemical defenses of their host plants have evolved multiple times. A prominent example of such adaptive key innovations in herbivorous insects is nitrile specifier proteins (NSPs) that enabled Pierinae butterflies to colonize Brassicales host plants that have a glucosinolate?myrosinase defense system. Although the evolutionary aspects of NSP-encoding genes have been studied in some Pierinae taxa (especially among Pieris butterflies), the ancestral evolutionary state of NSPs is unclear due to the limited genomic information available for species within Pierinae. Here, we generate a high-quality genome assembly and annotation of Leptosia nina, a member of a small tribe, Leptosiaini. L. nina uses as its main host Capparaceae plants, one of the ancestral hosts within Pierinae. By using ?90-fold c
pdf:docinfo:creator: Yu Okamura
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dc:description: DOI: 10.1093/gbe/evae105; Genome Biology and Evolution, 16, 5, 2024-5-23.; Abstract: In interactions between plants and herbivorous insects, the traits enabling phytophagous insects to overcome chemical defenses of their host plants have evolved multiple times. A prominent example of such adaptive key innovations in herbivorous insects is nitrile specifier proteins (NSPs) that enabled Pierinae butterflies to colonize Brassicales host plants that have a glucosinolate?myrosinase defense system. Although the evolutionary aspects of NSP-encoding genes have been studied in some Pierinae taxa (especially among Pieris butterflies), the ancestral evolutionary state of NSPs is unclear due to the limited genomic information available for species within Pierinae. Here, we generate a high-quality genome assembly and annotation of Leptosia nina, a member of a small tribe, Leptosiaini. L. nina uses as its main host Capparaceae plants, one of the ancestral hosts within Pierinae. By using ?90-fold c
Keywords: host-plant adaptation; herbivore; genome
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dc:creator: Heiko Vogel
description: DOI: 10.1093/gbe/evae105; Genome Biology and Evolution, 16, 5, 2024-5-23.; Abstract: In interactions between plants and herbivorous insects, the traits enabling phytophagous insects to overcome chemical defenses of their host plants have evolved multiple times. A prominent example of such adaptive key innovations in herbivorous insects is nitrile specifier proteins (NSPs) that enabled Pierinae butterflies to colonize Brassicales host plants that have a glucosinolate?myrosinase defense system. Although the evolutionary aspects of NSP-encoding genes have been studied in some Pierinae taxa (especially among Pieris butterflies), the ancestral evolutionary state of NSPs is unclear due to the limited genomic information available for species within Pierinae. Here, we generate a high-quality genome assembly and annotation of Leptosia nina, a member of a small tribe, Leptosiaini. L. nina uses as its main host Capparaceae plants, one of the ancestral hosts within Pierinae. By using ?90-fold c
dcterms:created: 2024-05-29T01:33:09Z
Last-Modified: 2024-06-12T09:46:53Z
dcterms:modified: 2024-06-12T09:46:53Z
title: De Novo Genome Assembly and Annotation of Leptosia nina Provide New Insights into the Evolutionary Dynamics of Genes Involved in Host-Plant Adaptation of Pierinae Butterflies
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pdf:docinfo:keywords: host-plant adaptation; herbivore; genome
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