New Subfamily (new + subfamily)

Distribution by Scientific Domains


Selected Abstracts


THE FIRST DAMSELFLIES FROM THE LOWERMOST EOCENE OF DENMARK, WITH A DESCRIPTION OF A NEW SUBFAMILY (ODONATA, ZYGOPTERA: DYSAGRIONIDAE)

PALAEONTOLOGY, Issue 3 2008
JES RUST
Abstract:,Eodysagrion mikkelseni gen. et sp. nov., type species of the new subfamily Eodysagrioninae, and the dysagrionine Primorilestes madseni sp. nov., the first thaumatoneurid damselflies from the lowermost Eocene of Denmark, are described. They confirm the presence of this American family in the Palaeogene of Western Europe. [source]


A New Subfamily of Aphids (Hemiptera, Aphidomorpha) from the Early Cretaceous Lebanese Amber with a Description of the Oldest Apterous Morphs

ACTA GEOLOGICA SINICA (ENGLISH EDITION), Issue 4 2010
Piotr WEGIEREK
Abstract: Aphids are marked by their high polymorphism, but species reported from the Early Cretaceous are known only from alate morphs. The discovery of an apterous adult morph in Lebanese amber and a larva of the same species are very important for the understanding of both the morphological and biological evolution of this insect group at the very early stage of development. Gondvanoaphis estephani new subfamily, new genus and species of the recent aphids family Thelaxidae is described. The characters of the new genus in respect to other genera placed in Thelaxidae are reviewed. The palaeoecological and palaeogeographical data concerning Gondvanoaphis new genus are also discussed. [source]


Laying the foundations for a new classification of Agaonidae (Hymenoptera: Chalcidoidea), a multilocus phylogenetic approach

CLADISTICS, Issue 4 2010
Astrid Cruaud
A phylogeny of the Agaonidae (Chalcidoidea) in their restricted sense, pollinators of Ficus species (Moraceae), is estimated using 4182 nucleotides from six genes, obtained from 101 species representing 19 of the 20 recognized genera, and four outgroups. Data analysed by parsimony and Bayesian inference methods demonstrate that Agaonidae are monophyletic and that the previous classification is not supported. Agaonidae are partitioned into four groups: (i) Tetrapus, (ii) Ceratosolen + Kradibia, (iii) some Blastophaga + Wiebesia species, and (iv) all genera associated with monoecious figs and a few Blastophaga and Wiebesia. The latter group is subdivided into subgroups: (i) Pleistodontes, (ii) Blastophaga psenes and neocaledonian Dolichoris, (iii) some Blastophaga and Wiebesia species, and (iv) Platyscapa, all afrotropical genera and all genera associated with section Conosycea. Eleven genera were recovered as monophyletic, six were para- or polyphyletic, and two cannot be tested with our data set. Based on our phylogeny we propose a new classification for the Agaonidae. Two new subfamilies are proposed: Tetrapusiinae for the genus Tetrapus, and Kradibiinae for Ceratosolen + Kradibia. Liporrhopalum is synonymized with Kradibia and the subgenus Valisia of Blastophaga is elevated to generic rank. These changes resulted in 36 new combinations. Finally, we discuss the hypothesis of co-speciation between the pollinators and their host species by comparing the two phylogenies. ,© The Willi Hennig Society 2009. [source]


Role of protease-activated receptor-2 during cutaneous inflam-mation and the immune response

EXPERIMENTAL DERMATOLOGY, Issue 9 2004
M. Steinhoff
Protease-activated receptors (PARs) constitute a new subfamily of G-protein-coupled receptors with seven transmembrane domains which are activated by various serine proteases such as thrombin, cathepsin G, trypsin or tryptase, and bacterial proteases or mite antigens, for example. PAR2 is a receptor for mast cell tryptase or house dust mite allergens, which is released during inflammation and allergic reactions. In the skin, PAR2 is diversely expressed by keratinocytes, endothelial cells, and occasionally sensory nerves of human skin in various disease states. Moreover, immunocompetent cells such as T cells and neutrophils express functional PAR2, thereby contributing to inflammation and host defense. Own data revealed that PAR2 contributes to neurogenic inflammation by releasing neuropeptides from sensory nerves resulting in oedema, plasma extravasation and infiltration of neutrophils. Thus, mast cells may communicate with sensory nerves in inflammatory tissues by activating PAR2 via tryptase. Moreover, PAR2 agonists upregulate the expression of certain cell-adhesion molecules and cytokines such as interleukin-6 and interleukin-8 on dermal microvascular endothelial cells or regulate neutrophil migration, indicating that PAR2 plays an important role in leucocyte/endothelial interactions. These effects may be partly mediated by NF-,B, an important transcription factor during inflammation and immune response. PAR2 stimulation results in the activation of NF-,B on microvascular endothelial cells and keratinocytes, thereby regulating ICAM-1 expression. We also demonstrate evidence for a diverse expression of PAR2 in various skin diseases and highlight the recent knowledge about the important role of PAR2 during inflammation and the immune response. Together, PAR2 -modulating agents may be new tools for the treatment of inflammatory and allergic diseases in the skin. [source]


Structure of O67745_AQUAE, a hypothetical protein from Aquifex aeolicus

ACTA CRYSTALLOGRAPHICA SECTION F (ELECTRONIC), Issue 5 2007
Vaheh Oganesyan
Using single-wavelength anomalous dispersion data obtained from a gold-derivatized crystal, the X-ray crystal structure of the protein 067745_AQUAE from the prokaryotic organism Aquifex aeolicus has been determined to a resolution of 2.0,Å. Amino-acid residues 1,371 of the 44,kDa protein were identified by Pfam as an HD domain and a member of the metal-dependent phosphohydrolase superfamily (accession No. PF01966). Although three families from this large and diverse group of enzymatic proteins are represented in the PDB, the structure of 067745_AQUAE reveals a unique fold that is unlike the others and that is likely to represent a new subfamily, further organizing the families and characterizing the proteins. Data are presented that provide the first insights into the structural organization of the proteins within this clan and a distal alternative GDP-binding domain outside the metal-binding active site is proposed. [source]


A New Subfamily of Aphids (Hemiptera, Aphidomorpha) from the Early Cretaceous Lebanese Amber with a Description of the Oldest Apterous Morphs

ACTA GEOLOGICA SINICA (ENGLISH EDITION), Issue 4 2010
Piotr WEGIEREK
Abstract: Aphids are marked by their high polymorphism, but species reported from the Early Cretaceous are known only from alate morphs. The discovery of an apterous adult morph in Lebanese amber and a larva of the same species are very important for the understanding of both the morphological and biological evolution of this insect group at the very early stage of development. Gondvanoaphis estephani new subfamily, new genus and species of the recent aphids family Thelaxidae is described. The characters of the new genus in respect to other genera placed in Thelaxidae are reviewed. The palaeoecological and palaeogeographical data concerning Gondvanoaphis new genus are also discussed. [source]


Weighted parsimony phylogeny of the family Characidae (Teleostei: Characiformes)

CLADISTICS, Issue 6 2009
J. Marcos Mirande
The family Characidae, including more than 1000 species, lacks a phylogenetic diagnosis, with many of its genera currently considered as incertae sedis. The aims of the present study are to propose a phylogenetic diagnosis and to assess higher-level relationships of and within Characidae. In this regard, 360 morphological characters are studied for 160 species of Characidae and related families. Phylogenetic analyses under implied weighting and self-weighted optimization are presented, exploring a broad range of parameters. The analysis under self-weighted optimization is innovative for this size of matrices. Familial status of Serrasalmidae is supported, and Acestrorhynchidae and Cynodontidae are included in a monophyletic Characidae. Engraulisoma taeniatum is transferred from Characidae to Gasteropelecidae. Thus constituted, the monophyly of Characidae is supported by seven synapomorphies. A new subfamily, Heterocharacinae, is proposed, and the subfamilies Aphyocharacinae, Aphyoditeinae, Characinae, Gymnocharacinae, and Stevardiinae are redefined. The Glandulocaudinae are included in Stevardiinae together with remaining members of "clade A" (sensuMalabarba and Weitzman, 2003. Comun. Mus. Ciênc. Tecnol. PUCRS, Sér. Zool. 16, 67,151.) and the genera Aulixidens and Nantis. Most incertae sedis genera are assigned, at least tentatively, to a phylogenetically diagnosed clade. [source]