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Ritsuo Nishida - One of the best experts on this subject based on the ideXlab platform.
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Hydroxybenzoic Acid Derivatives in a Nonhost Rutaceous Plant, Orixa japonica, Deter Both Oviposition and Larval Feeding in a Rutaceae-Feeding Swallowtail Butterfly, Papilio xuthus L.
Journal of Chemical Ecology, 2004Co-Authors: Yasumasa Kuwahara, Ritsuo NishidaAbstract:A Rutaceae-feeding swallowtail butterfly, Papilio xuthus L., feeds on various rutaceous plants but always rejects Orixa japonica Thunb. (Rutaceae). Females were strongly deterred from laying eggs by a methanolic extract of O . japonica leaves. Larvae also rejected a diet leaf medium impregnated with O . japonica leaf extracts. Several components in the water-soluble fraction of the leaf extract were found to deter both oviposition and feeding responses. Two major deterrent compounds were characterized as 5-{[2- O -(β-D-apiofuranosyl)-β-D-glucopyranosyl]oxy}-2-hydroxybenzoic acid and a disyringoyl aldaric acid. These compounds induced potent deterrence of both oviposition and larval feeding by P . xuthus , which suggests a congruent chemosensory mechanism of allomonal chemicals acting on both female tarsal chemoreceptors and larval maxillary taste receptors.
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a dihydroxy γ lactone as an oviposition stimulant for the swallowtail butterfly papilio bianor from the rutaceous plant orixa japonica
Bioscience Biotechnology and Biochemistry, 2000Co-Authors: Hajime Ono, Ritsuo Nishida, Yasumasa KuwaharaAbstract:The oviposition response of the Rutaceae-feeding swallowtail butterfly, Papilio bianor, was induced by a methanolic extract from leaves of its major host, Orixa japonica. Several components were responsible for this oviposition response. One of the stimulants was isolated and identified as (-)-2-C-methyl-D-erythrono-1,4-lactone. The compound was inactive alone, but elicited oviposition behavior when mixed with other fractions.
Yasumasa Kuwahara - One of the best experts on this subject based on the ideXlab platform.
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Hydroxybenzoic Acid Derivatives in a Nonhost Rutaceous Plant, Orixa japonica, Deter Both Oviposition and Larval Feeding in a Rutaceae-Feeding Swallowtail Butterfly, Papilio xuthus L.
Journal of Chemical Ecology, 2004Co-Authors: Yasumasa Kuwahara, Ritsuo NishidaAbstract:A Rutaceae-feeding swallowtail butterfly, Papilio xuthus L., feeds on various rutaceous plants but always rejects Orixa japonica Thunb. (Rutaceae). Females were strongly deterred from laying eggs by a methanolic extract of O . japonica leaves. Larvae also rejected a diet leaf medium impregnated with O . japonica leaf extracts. Several components in the water-soluble fraction of the leaf extract were found to deter both oviposition and feeding responses. Two major deterrent compounds were characterized as 5-{[2- O -(β-D-apiofuranosyl)-β-D-glucopyranosyl]oxy}-2-hydroxybenzoic acid and a disyringoyl aldaric acid. These compounds induced potent deterrence of both oviposition and larval feeding by P . xuthus , which suggests a congruent chemosensory mechanism of allomonal chemicals acting on both female tarsal chemoreceptors and larval maxillary taste receptors.
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a dihydroxy γ lactone as an oviposition stimulant for the swallowtail butterfly papilio bianor from the rutaceous plant orixa japonica
Bioscience Biotechnology and Biochemistry, 2000Co-Authors: Hajime Ono, Ritsuo Nishida, Yasumasa KuwaharaAbstract:The oviposition response of the Rutaceae-feeding swallowtail butterfly, Papilio bianor, was induced by a methanolic extract from leaves of its major host, Orixa japonica. Several components were responsible for this oviposition response. One of the stimulants was isolated and identified as (-)-2-C-methyl-D-erythrono-1,4-lactone. The compound was inactive alone, but elicited oviposition behavior when mixed with other fractions.
Marc S Appelhans - One of the best experts on this subject based on the ideXlab platform.
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characterization of the complete chloroplast genome sequences of four zanthoxylum l species sapindales Rutaceae from the caribbean madagascar the mascarene islands and the south pacific
Microbiology Resource Announcements, 2021Co-Authors: Niklas Reichelt, Marc S Appelhans, Jun Wen, Claudia PatzoldAbstract:Zanthoxylum is a genus of woody plants in the Rutaceae family distributed pantropically, with some species extending to temperate regions in East Asia and North America. Here, we present the complete chloroplast genome sequences of four species, two of them critically endangered, endemic to tropical islands.
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phylogeny and biogeography of the pantropical genus zanthoxylum and its closest relatives in the proto Rutaceae group Rutaceae
Molecular Phylogenetics and Evolution, 2018Co-Authors: Marc S Appelhans, Niklas Reichelt, Milton Groppo, Claudia Paetzold, Jun WenAbstract:Abstract Zanthoxylum L. (prickly ash) is the only genus in the Citrus L. family (Rutaceae) with a pantropical distribution. We present the first detailed phylogenetic and biogeographic study of the genus and its close relatives in the proto-Rutaceae group. Our phylogenetic analyses based on two plastid and two nuclear markers show that the genus Toddalia Juss. is nested within Zanthoxylum, that earlier generic and intrageneric classifications need revision, and that the homochlamydeous flowers of the temperate species of Zanthoxylum are the result of a reduction from heterochlamydeous flowers. The biogeographic analyses reveal a Eurasian origin of Zanthoxylum in the Paleocene or Eocene with successive intercontinental or long-range migrations. Zanthoxylum likely crossed the North Atlantic Land Bridges to colonize the Americas in the Eocene, and migrated back to the Old World probably via the Bering Land Bridge in the Oligocene or Miocene. Zanthoxylum also colonized several Pacific Islands and the Hawaiian clade shows phylogenetic incongruence between the plastid and nuclear datasets, suggesting hybridization. The Hawaiian species are one of the rare examples of endemic Hawaiian lineages that are older than the current main islands.
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molecular phylogenetic analysis of hawaiian Rutaceae melicope platydesma and zanthoxylum and their different colonization patterns
Botanical Journal of the Linnean Society, 2014Co-Authors: Marc S Appelhans, Jun Wen, Kenneth R Wood, Gerard J Allan, Elizabeth A Zimmer, Warren L WagnerAbstract:Melicope (Rutaceae) is one of the largest plant genera on the Hawaiian Islands. We present here a detailed molecular phylogenetic analysis of the Hawaiian species of this genus and compare the results with the other genera of Hawaiian Rutaceae, Platydesma and Zanthoxylum. Four nuclear and two plastid markers were sequenced, with the goals of untangling phylogenetic relationships, inferring biogeographic events and comparing patterns of distribution among the three genera. Our results show that there were two colonization events (Melicope + Platydesma, and Zanthoxylum) to the Hawaiian Islands, that Hawaiian Rutaceae have an Asian, Australian or Pacific origin and that there were two independent colonization events of Hawaiian Melicope lineages to the Marquesas Islands. The two most widely distributed Hawaiian Melicope spp. are not monophyletic and the current subgeneric classification of Hawaiian Melicope is highly artificial. On the Hawaiian Islands, Melicope and Zanthoxylum show contrasting biogeographic patterns, suggesting different patterns of dispersal. Melicope has a high percentage of single-island endemics suggesting low dispersal ability, whereas Zanthoxylum taxa tend to occur across multiple islands. © 2013 The Linnean Society of London, Botanical Journal of the Linnean Society, 2014, 174, 425–448.
Jacquelyn A Kallunki - One of the best experts on this subject based on the ideXlab platform.
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chilean pitavia more closely related to oceania and old world Rutaceae than to neotropical groups evidence from two cpdna non coding regions with a new subfamilial classification of the family
PhytoKeys, 2012Co-Authors: Milton Groppo, Jacquelyn A Kallunki, Jose Rubens Pirani, Alexandre AntonelliAbstract:The position of the plant genus Pitavia within an infrafamilial phylogeny of Rutaceae (rue, or orange family) was investigated with the use of two non-coding regions from cpDNA, the trnL-trnF region and the rps16 intron. The only species of the genus, Pitavia punctata Molina, is restricted to the temperate forests of the Coastal Cordillera of Central-Southern Chile and threatened by loss of habitat. The genus traditionally has been treated as part of tribe Zanthoxyleae (subfamily Rutoideae) where it constitutes the monogeneric tribe Pitaviinae. This tribe and genus are characterized by fruits of 1 to 4 fleshy drupelets, unlike the dehiscent fruits typical of the subfamily. Fifty-five taxa of Rutaceae, representing 53 genera (nearly one-third of those in the family) and all subfamilies, tribes, and almost all subtribes of the family were included. Parsimony and Bayesian inference were used to infer the phylogeny; six taxa of Meliaceae, Sapindaceae, and Simaroubaceae, all members of Sapindales, were also used as out-groups. Results from both analyses were congruent and showed Pitavia as sister to Flindersia and Lunasia, both genera with species scattered through Australia, Philippines, Moluccas, New Guinea and the Malayan region, and phylogenetically far from other Neotropical Rutaceae, such as the Galipeinae (Galipeeae, Rutoideae) and Pteleinae (Toddalieae, former Toddalioideae). Additionally, a new circumscription of the subfamilies of Rutaceae is presented and discussed. Only two subfamilies (both monophyletic) are recognized: Cneoroideae (including Dictyolomatoideae, Spathelioideae, Cneoraceae, and Ptaeroxylaceae) and Rutoideae (including not only traditional Rutoideae but also Aurantioideae, Flindersioideae, and Toddalioideae). As a consequence, Aurantioideae (Citrus and allies) is reduced to tribal rank as Aurantieae.
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chilean pitavia more closely related to oceania and old world Rutaceae than to neotropical groups evidence from two cpdna non coding regions with a new subfamilial classification of the family
PhytoKeys, 2012Co-Authors: Milton Groppo, Jacquelyn A Kallunki, Jose Rubens Pirani, Alexandre AntonelliAbstract:The position of the plant genus Pitavia within an infrafamilial phylogeny of Rutaceae (rue, or orange family) was investigated with the use of two non-coding regions from cpDNA, the trnL-trnF region and the rps16 intron. The only species of the genus, Pitavia punctata Molina, is restricted to the temperate forests of the Coastal Cordillera of Central-Southern Chile and threatened by loss of habitat. The genus traditionally has been treated as part of tribe Zanthoxyleae (subfamily Rutoideae) where it constitutes the monogeneric tribe Pitaviinae. This tribe and genus are characterized by fruits of 1 to 4 fleshy drupelets, unlike the dehiscent fruits typical of the subfamily. Fifty-five taxa of Rutaceae, representing 53 genera (nearly one-third of those in the family) and all subfamilies, tribes, and almost all subtribes of the family were included. Parsimony and Bayesian inference were used to infer the phylogeny; six taxa of Meliaceae, Sapindaceae, and Simaroubaceae, all members of Sapindales, were also used as out-groups. Results from both analyses were congruent and showed Pitavia as sister to Flindersia and Lunasia, both genera with species scattered through Australia, Philippines, Moluccas, New Guinea and the Malayan region, and phylogenetically far from other Neotropical Rutaceae, such as the Galipeinae (Galipeeae, Rutoideae) and Pteleinae (Toddalieae, former Toddalioideae). Additionally, a new circumscription of the subfamilies of Rutaceae is presented and discussed. Only two subfamilies (both monophyletic) are recognized: Cneor
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phylogenetic relationships of Rutaceae a cladistic analysis of the subfamilies using evidence from rbc and atp sequence variation
American Journal of Botany, 1999Co-Authors: Mark W Chase, Cynthia M Morton, Jacquelyn A KallunkiAbstract:Sequence data for plastid rbcL and atpB from members of Anacardiaceae, Burseraceae, Cneoraceae, Meliaceae, Ptaeroxylaceae, Rutaceae, and Simaroubaceae were analyzed cladistically to evaluate the familial and subfamilial circumscriptions of Rutaceae. Taxa representing all subfamilies and tribes were sampled. The analysis shows that Rutaceae are paraphyletic, with Spathelia and Dictyoloma (Rutaceae), Harrisonia (Simaroubaceae), Cneorum (Cneoraceae), and Ptaeroxylon (Ptaeroxylaceae) forming a clade sister to all other Rutaceae. Circumscription of Rutaceae to include all of these taxa is recommended. This analysis indicates that Simaroubaceae and Meliaceae are the outgroups closest to Rutaceae. Correlation of the molecular phylogenies with biochemical data indicates that chemotaxonomic information is more reliable than fruit type as an indicator of familial and subfamilial circumscriptions. The subfamilial classification needs revision; none of the subfamilies of more than one genus is monophyletic.
Jiménez Madrigal Quírico - One of the best experts on this subject based on the ideXlab platform.
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Una nueva especie costarricense del género Amyris P. Browne (Rutaceae)
'Universidad de Costa Rica', 2016Co-Authors: Gómez Laurito Jorge, Jiménez Madrigal QuíricoAbstract:Una nueva especie de Amyris P. Browne (Rutaceae), con hojas muy grandes, opuestas y pinnadas, se describe de la región del Pacífico central y sur de Costa Rica.A new species of Amyris P. Browne (Rutaceae) with large opposite pinnate leaves is described from the central and southern Pacific region of Costa Rica.
