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3. The circadian and photoperiodic clock of the pea aphid.

Author

Colizzi, Francesca Sara, Martínez-Torres, David, and Helfrich-Förster, Charlotte

Subjects
*PEA aphid, *LIFE cycles (Biology), *NEUROENDOCRINE system, *SPRING, APHID control
Abstract

The pea aphid, Acyrthosiphon pisum, is a paradigmatic photoperiodic species that exhibits a remarkable annual life cycle, which is tightly coupled to the seasonal changes in day length. During spring and summer, characterised by longer days, aphid populations consist exclusively of viviparous females that reproduce parthenogenetically. When autumn comes and the days shorten, aphids switch their reproductive mode and generate males and oviparous sexual females, which mate and produce cold-resistant eggs that overwinter and survive the unfavourable season. While the photoperiodic responses have been well described, the nature of the timing mechanisms which underlie day length discrimination are still not completely understood. Experiments from the 1960's suggested that aphids rely on an 'hourglass' clock measuring the elapsed time during the dark night by accumulating a biochemical factor, which reaches a critical threshold at a certain night length and triggers the switch in reproduction mode. However, the photoperiodic responses of aphids can also be attributed to a strongly dampened circadian clock. Recent studies have uncovered the molecular components and the location of the circadian clock in the brain of the pea aphid and revealed that it is well connected to the neurohormonal system controlling aphid reproduction. We provide an overview of the putative mechanisms of photoperiodic control in aphids, from the photoreceptors involved in this process to the circadian clock and the neuroendocrine system. [ABSTRACT FROM AUTHOR]

Published
2024
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5. The genome sequence of the grape phylloxera provides insights into the evolution, adaptation, and invasion routes of an iconic pest

Author

Rispe, Claude, Legeai, Fabrice, Nabity, Paul D., Fernández, Rosa, Arora, Arinder K., Baa-Puyoulet, Patrice, Banfill, Celeste R., Bao, Leticia, Barberà, Miquel, Bouallègue, Maryem, Bretaudeau, Anthony, Brisson, Jennifer A., Calevro, Federica, Capy, Pierre, Catrice, Olivier, Chertemps, Thomas, Couture, Carole, Delière, Laurent, Douglas, Angela E., Dufault-Thompson, Keith, Escuer, Paula, Feng, Honglin, Forneck, Astrid, Gabaldón, Toni, Guigó, Roderic, Hilliou, Frédérique, Hinojosa-Alvarez, Silvia, Hsiao, Yi-min, Hudaverdian, Sylvie, Jacquin-Joly, Emmanuelle, James, Edward B., Johnston, Spencer, Joubard, Benjamin, Le Goff, Gaëlle, Le Trionnaire, Gaël, Librado, Pablo, Liu, Shanlin, Lombaert, Eric, Lu, Hsiao-ling, Maïbèche, Martine, Makni, Mohamed, Marcet-Houben, Marina, Martínez-Torres, David, Meslin, Camille, Montagné, Nicolas, Moran, Nancy A., Papura, Daciana, Parisot, Nicolas, Rahbé, Yvan, Lopes, Mélanie Ribeiro, Ripoll-Cladellas, Aida, Robin, Stéphanie, Roques, Céline, Roux, Pascale, Rozas, Julio, Sánchez-Gracia, Alejandro, Sánchez-Herrero, Jose F., Santesmasses, Didac, Scatoni, Iris, Serre, Rémy-Félix, Tang, Ming, Tian, Wenhua, Umina, Paul A., van Munster, Manuella, Vincent-Monégat, Carole, Wemmer, Joshua, Wilson, Alex C. C., Zhang, Ying, Zhao, Chaoyang, Zhao, Jing, Zhao, Serena, Zhou, Xin, Delmotte, François, and Tagu, Denis

Published
2020
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7. Canonical domains for coadjoint orbits.

Author

Martínez Torres, David

Subjects
*ORBITS (Astronomy), *LIE algebras, *QUANTUM groups
Abstract

This paper describes two real analytic symplectomorphisms defined on appropriate dense open subsets of any coadjoint orbit of a compact semisimple Lie algebra. The first symplectomorphism sends the open dense subset to a bounded subset of a standard cotangent bundle. The second symplectomorphism has as target a bounded subset of a hyperbolic coadjoint orbit of an associated non‐compact semisimple Lie algebra. Therefore, coadjoint orbits of compact Lie algebras are symplectic compactifications of domains of cotangent bundles, and are in symplectic correspondence with hyperbolic orbits of non‐compact semisimple Lie algebras. [ABSTRACT FROM AUTHOR]

Published
2023
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14. Mapping and quantification of cryptochrome expression in the brain of the pea aphid Acyrthosiphon pisum.

Author

Barberà, Miquel, Collantes‐Alegre, Jorge Mariano, and Martínez‐Torres, David

Subjects
PEA aphid, CRYPTOCHROMES, CLOCK genes, MOLECULAR clock, PHOTORECEPTORS, SUPRACHIASMATIC nucleus, APHIDS, CIRCADIAN rhythms
Abstract

Aphids are paradigmatic photoperiodic animals often used to study the role of the circadian clock in the seasonal response. Previously, we described some elements of the circadian clock core (genes period and timeless) and output (melatonin, AANATs and PTTH) that could have a role in the regulation of the aphid seasonal response. More recently, we identified two opsins (C‐ops and SWO4) as candidate input photoperiodic receptors. In the present report, we focus on the study of cryptochromes (cry) as photoreceptors of the circadian clock and discuss their involvement in the seasonal response. We analyse the expression of cry1 and cry2 genes in a circadian and seasonal context, and map their expression sites in the brain. We observe a robust rhythmic expression of cry2 peaking at dusk in phase with core clock genes period and timeless, while cry1 shows a weaker rhythm. Changes in cry1 and cry2 expression correlate with activation of the seasonal response, suggesting a possible link. Finally, we map the expression of cry1 and cry2 genes to clock neurons in the pars lateralis, a region essential for the photoperiodic response. Our results support a role for cry as elements of the aphid circadian clock and suggest a role in photoreception for cry1 and in clock repression for cry2. [ABSTRACT FROM AUTHOR]

Published
2022
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17. Antibodies Against the Clock Proteins Period and Cryptochrome Reveal the Neuronal Organization of the Circadian Clock in the Pea Aphid.

Author

Colizzi, Francesca Sara, Beer, Katharina, Cuti, Paolo, Deppisch, Peter, Martínez Torres, David, Yoshii, Taishi, and Helfrich-Förster, Charlotte

Subjects
PEA aphid, CRYPTOCHROMES, CIRCADIAN rhythms, DROSOPHILA melanogaster, ENDOCRINE glands, MOLTING
Abstract

Circadian clocks prepare the organism to cyclic environmental changes in light, temperature, or food availability. Here, we characterized the master clock in the brain of a strongly photoperiodic insect, the aphid Acyrthosiphon pisum , immunohistochemically with antibodies against A. pisum Period (PER), Drosophila melanogaster Cryptochrome (CRY1), and crab Pigment-Dispersing Hormone (PDH). The latter antibody detects all so far known PDHs and PDFs (Pigment-Dispersing Factors), which play a dominant role in the circadian system of many arthropods. We found that, under long days, PER and CRY are expressed in a rhythmic manner in three regions of the brain: the dorsal and lateral protocerebrum and the lamina. No staining was detected with anti-PDH, suggesting that aphids lack PDF. All the CRY1-positive cells co-expressed PER and showed daily PER/CRY1 oscillations of high amplitude, while the PER oscillations of the CRY1-negative PER neurons were of considerable lower amplitude. The CRY1 oscillations were highly synchronous in all neurons, suggesting that aphid CRY1, similarly to Drosophila CRY1, is light sensitive and its oscillations are synchronized by light-dark cycles. Nevertheless, in contrast to Drosophila CRY1, aphid CRY1 was not degraded by light, but steadily increased during the day and decreased during the night. PER was always located in the nuclei of the clock neurons, while CRY was predominantly cytoplasmic and revealed the projections of the PER/CRY1-positive neurons. We traced the PER/CRY1-positive neurons through the aphid protocerebrum discovering striking similarities with the circadian clock of D. melanogaster : The CRY1 fibers innervate the dorsal and lateral protocerebrum and putatively connect the different PER-positive neurons with each other. They also run toward the pars intercerebralis, which controls hormone release via the neurohemal organ, the corpora cardiaca. In contrast to Drosophila , the CRY1-positive fibers additionally travel directly toward the corpora cardiaca and the close-by endocrine gland, corpora allata. This suggests a direct link between the circadian clock and the photoperiodic control of hormone release that can be studied in the future. [ABSTRACT FROM AUTHOR]

Published
2021
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18. Proper Lie groupoids are real analytic.

Author

Martínez Torres, David

Subjects
*GROUPOIDS, *EVIDENCE
Abstract

We show that any proper Lie groupoid admits a compatible real analytic structure. Our proof hinges on a Weyl unitary trick of sorts for appropriate local holomorphic groupoids. [ABSTRACT FROM AUTHOR]

Published
2020
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19. Melatonin in the seasonal response of the aphid Acyrthosiphon pisum.

Author

Barberà, Miquel, Escrivá, Laura, Collantes‐Alegre, Jorge Mariano, Meca, Giuseppe, Rosato, Ezio, and Martínez‐Torres, David

Subjects
PEA aphid, MELATONIN, APHIDS, CENTRAL nervous system, INSECT hormones, PARTHENOGENESIS
Abstract

Aphids display life cycles largely determined by the photoperiod. During the warm long‐day seasons, most aphid species reproduce by viviparous parthenogenesis. The shortening of the photoperiod in autumn induces a switch to sexual reproduction. Males and sexual females mate to produce overwintering resistant eggs. In addition to this full life cycle (holocycle), there are anholocyclic lineages that do not respond to changes in photoperiod and reproduce continuously by parthenogenesis. The molecular or hormonal events that trigger the seasonal response (i.e., induction of the sexual phenotypes) are still unknown. Although circadian synthesis of melatonin is known to play a key role in vertebrate photoperiodism, the involvement of the circadian clock and/or of the hormone melatonin in insect seasonal responses is not so well established. Here we show that melatonin levels in the aphid Acyrthosiphon pisum are significantly higher in holocyclic aphids reared under short days than under long days, while no differences were found between anholocyclic aphids under the same conditions. We also found that melatonin is localized in the aphid suboesophageal ganglion (SOG) and in the thoracic ganglionic mass (TGM). In analogy to vertebrates, insect‐type arylalkylamine N‐acetyltransferases (i‐AANATs) are thought to play a key role in melatonin synthesis. We measured the expression of four i‐AANAT genes identified in A. pisum and localized two of them in situ in the insect central nervous systems (CNS). Levels of expression of these genes were compatible with the quantities of melatonin observed. Moreover, like melatonin, expression of these genes was found in the SOG and the TGM. [ABSTRACT FROM AUTHOR]

Published
2020
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20. Poisson manifolds of compact types (PMCT 1).

Author

Crainic, Marius, Fernandes, Rui Loja, and Martínez Torres, David

Subjects
AFFINE geometry, MANIFOLDS (Mathematics), FOLIATIONS (Mathematics), TOPOLOGY, ORBIFOLDS
Abstract

This is the first in a series of papers dedicated to the study of Poisson manifolds of compact types (PMCTs). This notion encompasses several classes of Poisson manifolds defined via properties of their symplectic integrations. In this first paper we establish some fundamental properties and constructions of PMCTs. For instance, we show that their Poisson cohomology behaves very much like the de Rham cohomology of a compact manifold (Hodge decomposition, non-degenerate Poincaré duality pairing, etc.) and that the Moser trick can be adapted to PMCTs. More important, we find unexpected connections between PMCTs and symplectic topology: PMCTs are related with the theory of Lagrangian fibrations and we exhibit a construction of a non-trivial PMCT related to a classical question on the topology of the orbits of a free symplectic circle action. In subsequent papers, we will establish deep connections between PMCTs and integral affine geometry, Hamiltonian G-spaces, foliation theory, orbifolds, Lie theory and symplectic gerbes. [ABSTRACT FROM AUTHOR]

Published
2019
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21. CONFIRMATION OF THE PRESENCE OF PACHYPAPPA WARSHAVENSIS (NASONOV, 1894) [HEMPITERA APHIDIDAE] IN THE IBERIAN PENINSULA.

Author

CASIRAGHI, ALICE, MARTÍNEZ-TORRES, DAVID, and HIDALGO, NICOLÁS PÉREZ

Subjects
*APHIDS, *CLASSIFICATION of insects, *GEOGRAPHICAL distribution of insects, *INSECT phylogeny
Abstract

The aphid Pachypappa warshavensis (Nasonov) (Aphididae: Eriosomatinae: Pemphigini) on its primary host Populus alba L. is properly confirmed in the Iberian Peninsula. The species was initially cited as Asiphum varsoviensis (Mordvilko, 1835) in Spain, but the absence of specimens in the entomological collections, as well as the alleged limited distribution to the countries of Northern and Eastern Europe, made it removed from the list of the Ibero-Balearic aphids. P. warshavensis is a Palaearctic species that is widely distributed in Europe (Belarus, Germany, Hungary, Poland, Romania, Serbia, Spain, Sweden and Ukraine) and Central Asia (Kazakhstan). The identification based on morphological and molecular characters (COI) has been confirmed and the fundatrix and its winged fundatrigenia are described. In addition, phylogenetic relationships based on COI sequences of P. warshavensis with other Pachypappa species available in the databases are presented. [ABSTRACT FROM AUTHOR]

Published
2019
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22. Zeroth Poisson Homology, Foliated Cohomology and Perfect Poisson Manifolds.

Author

Martínez-Torres, David and Miranda, Eva

Abstract

We prove that, for compact regular Poisson manifolds, the zeroth homology group is isomorphic to the top foliated cohomology group, and we give some applications. In particular, we show that, for regular unimodular Poisson manifolds, top Poisson and foliated cohomology groups are isomorphic. Inspired by the symplectic setting, we define what a perfect Poisson manifold is. We use these Poisson homology computations to provide families of perfect Poisson manifolds. [ABSTRACT FROM AUTHOR]

Published
2018
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23. Semisimple coadjoint orbits and cotangent bundles.

Author

Martínez Torres, David

Subjects
ORBITAL mechanics, KEPLER'S equation, ORBITAL velocity, LINDBLAD resonance, IWASAWA theory
Abstract

Semisimple (co)adjoint orbits through real hyperbolic elements are well known to be symplectomorphic to cotangent bundles. We provide a new proof of this fact based on elementary results on both the Lie theory and symplectic geometry. Our proof establishes a new connection between the Iwasawa horospherical projection and the symplectic geometry of real hyperbolic (co)adjoint orbits. [ABSTRACT FROM AUTHOR]

Published
2016
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24. Two mitochondrial haplotypes in Pterochloroides persicae (Hemiptera: Aphididae: Lachninae) associated with different feeding sites.

Author

Lassaad, Mdellel, Martínez‐Torres, David, and Monia, Ben Halima Kamel

Subjects
*PTEROCHLOROIDES persicae, *HAPLOTYPES, *MITOCHONDRIA, *INSECT feeding & feeds, *CYTOCHROME oxidase, *SINGLE nucleotide polymorphisms, *MOLECULAR cloning, *INSECT genetics
Abstract

Pterochloroides persicae (Cholodkovsky) is an aphid species belonging to the subfamily Lachninae that uses different members of Rosaceae (specially Prunus spp.) as hosts. Partial sequences from the mitochondrial cytochrome c oxidase 1 (COI) and the nuclear long-wave opsin genes were obtained for approximately 100 P. persicae aphid individuals sampled from 34 colonies collected mainly in Tunisia and other Mediterranean locations. The variability found at the mitochondrial locus revealed the presence of two maternal haplotypes in the studied area that differed in a single nucleotide. The nuclear gene analyzed, however, failed to reveal any variability in this species. The variability found at the COI locus was related to the season of aphid sampling and with the site of feeding, with haplotype I mostly detected in samples collected in spring and summer on trunks and branches and haplotype II only detected in aphids collected in autumn on roots. The observed pattern of molecular variation suggests the presence of two clonal races of P. persicae coexisting in the studied area differentially adapted to conditions prevalent in the alternative seasons and/or to different feeding sites. [ABSTRACT FROM AUTHOR]

Published
2013
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25. A new aphid genus and species (Hemiptera: Aphididae: Macrosiphini) living on ferns in Costa Rica and Mexico.

Author

Nieto Nafría, Juan M., Pérez Hidalgo, Nicolás, Martínez-Torres, David, and Villalobos Muller, William

Subjects
APHIDS, FERNS, PTERIDIUM, INSECT morphology, MOLECULAR biology, CYTOCHROME oxidase, BIOLOGICAL divergence
Abstract

Copyright of Canadian Entomologist is the property of Cambridge University Press and its content may not be copied or emailed to multiple sites or posted to a listserv without the copyright holder's express written permission. However, users may print, download, or email articles for individual use. This abstract may be abridged. No warranty is given about the accuracy of the copy. Users should refer to the original published version of the material for the full abstract. (Copyright applies to all Abstracts.)

Published
2013
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26. NONLINEAR SYMPLECTIC GRASSMANNIANS AND HAMILTONIAN ACTIONS IN PREQUANTUM LINE BUNDLES.

Author

MARTÍNEZ TORRES, DAVID

Subjects
*NONLINEAR theories, *GRASSMANN manifolds, *HAMILTONIAN systems, *QUANTUM theory, *DIFFEOMORPHISMS, *SYMPLECTIC manifolds, *LIE algebras
Abstract

In this paper we extend to the Fréchet setting the following well-known fact about finite-dimensional symplectic geometry: if a Lie group G acts on a symplectic manifold in a Hamiltonian fashion with momentum map μ, given x ∈ M the isotropy group Gx acts linearly on the tangent space in a Hamiltonian fashion, with momentum map the Taylor expansion of μ up to degree 2. We use this result to give a conceptual explanation for a formula of Donaldson in [Scalar curvature and projective embeddings. I, J. Differential Geom.59(3) (2001) 479-522], which describes the momentum map of the Hamiltonian infinitesimal action of the Lie algebra of the group of Hamiltonian diffeomorphisms of a closed integral symplectic manifold, on sections of its prequantum line bundle. [ABSTRACT FROM AUTHOR]

Published
2012

27. Combination of molecular data support the existence of three main lineages in the phylogeny of aphids (Hemiptera: Aphididae) and the basal position of the subfamily Lachninae

Author

Ortiz-Rivas, Benjamín and Martínez-Torres, David

Subjects
*APHIDS, *MOLECULAR phylogeny, *ADAPTIVE radiation, *NUCLEOTIDE sequence, *ANIMAL genetics, *INSECT host plants
Abstract

Abstract: The first molecular studies on the phylogeny of aphids (Hemiptera: Aphididae) bumped into a striking lack of phylogenetic structure for taxa levels higher than tribe, probably as a consequence of the rapid adaptive radiation that this group of insects went through during the Late Cretaceous. Here we present a new attempt to infer the relationships between major aphid taxa by the separate and combined analysis of two nuclear sequences (the long-wavelength opsin gene and the elongation factor 1α gene) and two mitochondrial sequences (the genes encoding the subunit 6 of the F-ATPase and the subunit II of the cytochrome oxidase). Our results confirm previous results with the grouping of the subfamilies analysed in three main lineages, that are named A+D (subfamilies Aphidinae, Calaphidinae, Chaitophorinae, Drepanosiphinae and Pterocommatinae), E+T (subfamilies Anoeciinae, Eriosomatinae, Hormaphidinae, Mindarinae and Thelaxinae) and L (subfamily Lachninae). Furthermore, phylogenetic reconstructions generally support the early branching of the subfamily Lachninae in the phylogeny of aphids. Although some relationships among subfamilies inside lineages are not highly supported, our results are compatible with a scenario for the evolution of aphid life cycles with only four transitions of feeding from gymnosperms to angiosperms and two origins of host alternation. [Copyright &y& Elsevier]

Published
2010
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28. Molecular phylogeny of Iberian Fordini (Aphididae: Eriosomatinae): implications for the taxonomy of genera Forda and Paracletus.

Author

ORTIZ-RIVAS, BENJAMÍN, MARTÍNEZ-TORRES, DAVID, and HIDALGO, NICOLÁS PÉREZ

Subjects
*TAXONOMY, *MOLECULAR phylogeny, *APHIDS, *HEMIPTERA, *PISTACIA, *LIFE cycles (Biology)
Abstract

Mediterranean representatives of the galling aphid tribe Fordini (Hemiptera: Aphididae: Eriosomatinae) are usually grouped under the subtribe term Fordina. Aphids within Fordina display two-year life cycles, alternating between Pistacia shrubs, where they induce conspicuous galls, and roots of Poaceae species. The high number of morphs present in a given species, the lack of knowledge of the complete cycle in some species, and the similarity between homologous morphs observed in different species pose many taxonomic problems in this group. We present results of a survey to elucidate the phylogenetic relationships among Fordini species present in the Iberian Peninsula and the Canary Islands. Sequences from the nuclear long-wavelength opsin (LWO) and translation elongation factor 1α (EF-1α) genes and from a region of the mitochondrial DNA containing the genes encoding the subunits six and eight of the F-ATPase were used to infer relationships among 10 Fordina species, namely Smynthurodes betae, Aploneura lentisci, Baizongia pistaciae, two Geoica species ( G. utricularia and G. setulosa), three species of Forda and two of Paracletus. Relationships between and within representatives of the genera Forda and Paracletus, both exemplifying taxonomic and ecological problems, were investigated in greater depth through extensive sampling and morphometric analysis. A total of eight, six and six samples from F. formicaria, F. marginata and F. riccobonii, respectively, were included in the survey, along with 40 and 4 samples classified initially as P. cimiciformis and P. donisthorpei, respectively. Our results are relevant to current studies on the evolution of host selection by aphids and on the evolution of gall morphology. Our phylogeny suggests that the group can be divided into two main clades. One clade is composed of aphids inducing small, low-capacity galls on either P. atlantica or P. terebinthus ( Smynthurodes betae and genera Forda and Paracletus). The second clade is composed of species inducing larger galls on P. lentiscus and P. terebinthus ( Aploneura lentisci, Baizongia pistaciae and Geoica species). Our results suggest that revision of diagnostic characters used in the taxonomy of Paracletus is needed, and suggest Forda rotunda as a new synonym of Paracletus cimiciformis syn.n. [ABSTRACT FROM AUTHOR]

Published
2009
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29. Characterisation, analysis of expression and localisation of circadian clock genes from the perspective of photoperiodism in the aphid Acyrthosiphon pisum.

Author

Barberà, Miquel, Collantes-Alegre, Jorge Mariano, and Martínez-Torres, David

Subjects
*PEA aphid, *PHOTOPERIODISM, *CLOCK genes, *CIRCADIAN rhythms, *INSECT reproduction, *INSECTS
Abstract

Aphids are typical photoperiodic insects that switch from viviparous parthenogenetic reproduction typical of long day seasons to oviparous sexual reproduction triggered by the shortening of photoperiod in autumn yielding an overwintering egg in which an embryonic diapause takes place. While the involvement of the circadian clock genes in photoperiodism in mammals is well established, there is still some controversy on their participation in insects. The availability of the genome of the pea aphid Acyrthosiphon pisum places this species as an excellent model to investigate the involvement of the circadian system in the aphid seasonal response. In the present report, we have advanced in the characterisation of the circadian clock genes and showed that these genes display extensive alternative splicing. Moreover, the expression of circadian clock genes, analysed at different moments of the day, showed a robust cycling of central clock genes period and timeless . Furthermore, the rhythmic expression of these genes was shown to be rapidly dampened under DD (continuous darkness conditions), thus supporting the model of a seasonal response based on a heavily dampened circadian oscillator. Additionally, increased expression of some of the circadian clock genes under short-day conditions suggest their involvement in the induction of the aphid seasonal response. Finally, in situ localisation of transcripts of genes period and timeless in the aphid brain revealed the site of clock neurons for the first time in aphids. Two groups of clock cells were identified: the Dorsal Neurons (DN) and the Lateral Neurons (LN), both in the protocerebrum . [ABSTRACT FROM AUTHOR]

Published
2017
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30. A NEW GENUS AND SPECIES OF ASTERACEAE-INHABITING APHID (HEMIPTERA: APHIDIDAE) FROM COSTA RICA AND MEXICO.

Author

PILAR MIER DURANTE, M., PÉREZ HIDALGO, NICOLÁS, MARTÍNEZ-TORRES, DAVID, GARCÍA-TEJERO, SERGIO, PEÑA MARTÍNEZ, REBECA, and NIETO NAFRÍA, JUAN M.

Subjects
*HEMIPTERA, *CLASSIFICATION of insects, *GENE expression, *INSECT genetics, *BIDENS, *PRINCIPAL components analysis, *MOLECULAR biology
Abstract

Ucrimyzus villalobosi Mier Durante & Pérez Hidalgo gen. n., sp. n. (Hemiptera: Aphididae: Macrosiphini) are described from apterous and alate viviparous females collected on species of genera Bidens, Schkuhria, Senecio and Stevia (Asteraceae: Asteroideae) in Costa Rica and Mexico. Principal components analysis (PCA) was done to verify that the studied aphids belong to a single species regardless of their geographical origin or host plant. Molecular analyses were carried out on the sequences of a fragment of the mitochondrial gene encoding for cytochrome c oxidase subunit 1 (COI) and of a fragment of the nuclear gene encoding elongation factor 1α (EF1α). The taxonomic discussion takes into account the conclusions of the molecular analyses and the morphologic study compared with other genera of Macrosiphini. The identification keys by Blackman & Eastop (2006) to aphids living on each mentioned plant genus are modified to include the new species. [ABSTRACT FROM AUTHOR]

Published
2013
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31. Molecular systematics of aphids (Homoptera: Aphididae): new insights from the long-wavelength opsin gene

Author

Ortiz-Rivas, Benjamín, Moya, Andrés, and Martínez-Torres, David

Subjects
*APHIDS, *PHYLOGENY, *MOLECULAR dynamics, *BIOLOGY
Abstract

Viviparous aphids (Aphididae) constitute a monophyletic group within the Homoptera with more than 4000 extant species worldwide but higher diversity in temperate regions. Several aspects of their biology account for attention paid to this group of insects. Their plant-sap-sucking way of feeding with many species transmitting viruses to crop plants has important implications on crop management strategies. Cyclical parthenogenesis associated in many groups to host alternation and elaborate polyphenisms is of special interests for evolutionists. Finally, the ancient association of most aphid species with intracellular endosymbiotic bacteria (Buchnera sp.) has also received much attention from evolutionists interested in mechanisms involved in the symbiotic process. Knowing the phylogenetic relationships among major aphid taxa is of special interest to evolutionists interested in the above issues. However, until recently, molecular approaches to aphid phylogeny were absent and discussions on the evolution of aphid life-cycles and on evolutionary aspects of their symbiotic association with Buchnera were framed by morphology-based phylogenies. Recently, two reports using molecular approaches attempted to address the yet unresolved phylogeny of Aphididae with limited although somehow different conclusions. In the present report we study the utility of the long-wave opsin gene in resolving phylogenetic relationships among seven subfamilies within the Aphididae. Our results corroborate some previously proposed relationships and suggest a revision of some others. In particular, our data support grouping the analysed aphid species into three main clades, being the subfamily Lachninae one of them, which contradicts its generally accepted sistership relationship with the subfamily Aphidinae. Moreover, our data also suggest a basal position of Lachninae which has implications on current discussions about the ancestrality of conifer-feeding in modern aphids. [Copyright &y& Elsevier]

Published
2004
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32. Identification of a gene overexpressed in aphids reared under short photoperiod

Author

Ramos, Silvia, Moya, Andrés, and Martínez-Torres, David

Subjects
*GENES, *PEA aphid
Abstract

Most aphids develop a cyclic parthenogenesis life-cycle. After several generations of viviparously produced parthenogenetic females, follows a single annual generation of sexual individuals, usually in autumn, that mate and lay the sexual eggs. Shortening of photoperiod at the end of the summer (together with temperature) is a key factor inducing the sexual response. Currently no genes involved in the cascade of events that lead to the appearance of sexual forms have been reported. After a Differential Display RT-PCR survey performed on Acyrthosiphon pisum aphids, we identified a gene that is overexpressed in aphids reared under short photoperiod conditions that induce sexuality in this species. This cDNA (called ApSDI-1) shows similarities with a protein involved in amino acid transport in GABAergic neurons. Since several studies implicate GABAergic transmission in the generation and modulation of circadian rhythmicity, we propose that ApSDI-1 could be involved in the transduction of the photoperiodic message and therefore be a candidate to participate at some point in processes that trigger the sexual response in aphids. This is the first gene identified in aphids whose expression is governed by the photoperiod. [Copyright &y& Elsevier]

Published
2003
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33. Insulin-like peptides involved in photoperiodism in the aphid Acyrthosiphon pisum.

Author

Barberà, Miquel, Cañas-Cañas, Rubén, and Martínez-Torres, David

Subjects
*PEA aphid, *APHIDS, *INSULIN receptors, *PEPTIDES, APHID control
Abstract

Aphids were the first animals reported as photoperiodic as their life cycles are strongly determined by the photoperiod. During the favourable seasons (characterised by long days) aphid populations consist exclusively of viviparous parthenogenetic females (known as virginoparae). Shortening of the photoperiod in autumn is perceived by aphids as the signal that anticipates the harsh season, leading to a switch in the reproductive mode giving place to the sexual morphs (oviparae females and males) that mate and lay winter-resistant (diapause-like) eggs. The molecular and cellular basis governing the switch between the two reproductive modes are far from being understood. Classical experiments identified a group of neurosecretory cells in the pars intercerebralis of the aphid brain (the so called group I of neurosecretory cells) that were essential for the development of embryos as parthenogenetic females and were thus proposed to synthesise a parthenogenesis promoting substance that was termed "virginoparin". Since insulin-like peptides (ILPs) have been implicated in the control of diapause in other insects, we investigated their involvement in aphid photoperiodism. We compared the expression of two ILPs (ILP1 and ILP4) and an Insulin receptor coding genes in A. pisum aphids reared under long- and short-day conditions. The three genes showed higher expression in long-day reared aphids. In addition, we localised the site of expression of the two ILP genes in the aphid brain. Both genes were found to be expressed in the group I of neurosecretory cells. Altogether, our results suggest that ILP1 and ILP4 play an important role in the control of the aphid life-cycle by promoting the parthenogenetic development during long-day seasons while their repression by short days would activate the sexual development. Thus we propose these ILPs correspond to the so called "virginoparin" by early bibliography. A possible connection with the circadian system is also discussed. Image 1 • ILP1 and ILP4 expression is higher under parthenogenesis promoting conditions (long days) in holocyclic aphids. • No difference in levels of expression of ILPs in anholocyclic aphids reared under LD and SD photoperiods. • ILP1/4 transcripts are localised in the group I of neurosecretory cells in the pars intercerebralis of the protocerebrum. • Our results point to ILP1 and ILP4 being the parthenogenesis promoting factor called virginoparin in early bibliography. [ABSTRACT FROM AUTHOR]

Published
2019
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34. Characterisation, analysis of expression and localisation of the opsin gene repertoire from the perspective of photoperiodism in the aphid Acyrthosiphon pisum.

Author

Collantes-Alegre, Jorge Mariano, Mattenberger, Florian, Barberà, Miquel, and Martínez-Torres, David

Subjects
*PEA aphid, *ACYRTHOSIPHON, *INSECT physiology, *PHOTOPERIODISM, *INSECT genetics, *GENE expression, *INSECTS
Abstract

Organisms exhibit a wide range of seasonal responses as adaptions to predictable annual changes in their environment. These changes are originally caused by the effect of the Earth’s cycles around the sun and its axial tilt. Examples of seasonal responses include floration, migration, reproduction and diapause. In temperate climate zones, the most robust variable to predict seasons is the length of the day (i.e. the photoperiod). The first step to trigger photoperiodic driven responses involves measuring the duration of the light-dark phases, but the molecular clockwork performing this task is poorly characterized. Photopigments such as opsins are known to participate in light perception, being part of the machinery in charge of providing information about the luminous state of the surroundings. Aphids (Hemiptera: Aphididae) are paradigmatic photoperiodic insects, exhibiting a strong induction to diapause when the light regime mimics autumn conditions. The availability of the pea aphid ( Acyrthosiphon pisum ) genome has facilitated molecular approaches to understand the effect of light stimulus in the photoperiodic induction process. We have identified, experimentally validated and characterized the expression of the full opsin gene repertoire in the pea aphid. Among identified opsin genes in A. pisum , arthropsin is absent in most insects sequenced to date (except for dragonflies and two other hemipterans) but also present in a crustacean, an onychophoran and chelicerates. We have quantified the expression of these genes in aphids exposed to different photoperiodic conditions and at different times of the day and localized their transcripts in the aphid brain. Clear differences in expression patterns were found, thus relating opsin expression with the photoperiodic response. [ABSTRACT FROM AUTHOR]

Published
2018
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35. Determination of melatonin in Acyrthosiphon pisum aphids by liquid chromatography–tandem mass spectrometry.

Author

Escrivá, Laura, Manyes, Lara, Barberà, Miquel, Martínez-Torres, David, and Meca, Guiseppe

Subjects
*PHYSIOLOGICAL effects of melatonin, *PEA aphid, *LIQUID chromatography, *TANDEM mass spectrometry, *SEASONAL physiological variations, *STANDARD deviations, *SOLVENT extraction, *INSECTS
Abstract

Melatonin is a hormone mainly involved in the regulation of circadian and seasonal rhythms in both invertebrates and vertebrates. Despite the identification of melatonin in many insects, its involvement in the insect seasonal response remains unclear. A liquid chromatography tandem mass spectrometry (LC–MS/MS) method has been developed for melatonin analysis in aphids ( Acyrthosiphon pisum ) for the first time. After comparing two different procedures and five extraction solvents, a sample preparation procedure with a mixture of methanol/water (50:50) was selected for melatonin extraction. The method was validated by analyzing melatonin recovery at three spiked concentrations (5, 50 and 100 pg/mg) and showed satisfactory recoveries (75–110%), and good repeatability, expressed as relative standard deviation (<10%). Limits of detection (LOD) and quantitation (LOQ) were 1 pg/mg and 5 pg/mg, respectively. Eight concentration levels were used for constructing the calibration curves which showed good linearity between LOQ and 200 times LOQ. The validated method was successfully applied to 26 aphid samples demonstrating its usefulness for melatonin determination in insects. This is -to our knowledge- the first identification of melatonin in aphids by LC–MS/MS. [ABSTRACT FROM AUTHOR]

Published
2016
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36. Progress in the characterization of insulin-like peptides in aphids: Immunohistochemical mapping of ILP4.

Author

Cuti, Paolo, Barberà, Miquel, Veenstra, Jan A., and Martínez-Torres, David

Subjects
*APHIDS, *PEA aphid, *PEPTIDES, *CEREBRAL hemispheres, *CIRCADIAN rhythms, *NEURAL stem cells, *SUPRACHIASMATIC nucleus
Abstract

Aphids were the first animals described as photoperiodic due to their seasonal switch from viviparous parthenogenesis to sexual reproduction (cyclical parthenogenesis) caused by the shortening of the photoperiod in autumn. This switch produces a single sexual generation of oviparous females and males that mate and lay diapausing cold-resistant eggs that can overcome the unfavourable environmental conditions typical of winter in temperate regions. Previous studies have hinted at a possible implication of two insulin-like peptides (ILP1 and ILP4) in the aphid seasonal response, changing their expression levels between different photoperiodic conditions. Moreover, in situ localization of their transcripts in particular neurosecretory cells (NSCs) in the aphid brain supported the idea that these neuropeptides could correspond to the formerly called virginoparin, an uncharacterized factor originally proposed to be transported directly to the aphid embryos to promote their development as parthenogenetic individuals. To further investigate the fate of these ILPs, we raised a specific antiserum against one of them (ILP4) and mapped this neuropeptide by immunohistochemistry (IHC) in Acyrthosiphon pisum and Megoura viciae aphids. Coincident with in situ localization, our results show that ILP4 is synthesized in two groups (one in each brain hemisphere) of four neurosecretory cells in the pars intercerebralis (NSC group I) and then it is transported outside the brain to the corpora cardiaca. From there, three nerves (two laterals and one medial) transport it to the abdomen. Although no precise site of release has been found, the terminations of these nerves near the germaria would be compatible with the proposal of a direct connection between group I of NSCs and the reproductive system by localized release. In addition, we detected some collateral arborizations originating from the eight NSCs going to the pars lateralis , where clock neurons and some photoreceptors have been previously localized, suggesting a possible communication between the circadian and photoperiodic systems. [Display omitted] • We raised a specific antiserum against A. pisum ILP4. • Eight ILP4-producing cells are found in the pars intercerebralis from late embryos to adults. • Collateral arborizations extend to the pars lateralis , possibly contacting clock neurons. • Axons from ILP4 cells pass through the corpora cardiaca and innervate the abdomen. • ILP4 synthesis and transport do not differ between holocyclic and anholocyclic aphids. [ABSTRACT FROM AUTHOR]

Published
2021
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