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Nep1 (Emg1) is a highly conserved nucleolar protein with an essential function in ribosome biogenesis. A mutation in the human Nep1 homolog causes Bowen–Conradi syndrome—a severe developmental disorder. Structures of Nep1 revealed a dimer with a fold similar to the SPOUT-class of RNA-methyltransferases suggesting that Nep1 acts as a methyltransferase in ribosome biogenesis. The target for this putative methyltransferase activity has not been identified yet. We characterized the RNA-binding specificity of Methanocaldococcus jannaschii Nep1 by fluorescence- and NMR-spectroscopy as well as by yeast three-hybrid screening. Nep1 binds with high affinity to short RNA oligonucleotides corresponding to nt 910–921 of M. jannaschii 16S rRNA through a highly conserved basic surface cleft along the dimer interface. Nep1 only methylates RNAs containing a pseudouridine at a position corresponding to a previously identified hypermodified N1-methyl-N3-(3-amino-3-carboxypropyl) pseudouridine (m1acp3-Psi) in eukaryotic 18S rRNAs. Analysis of the methylated nucleoside by MALDI-mass spectrometry, HPLC and NMR shows that the methyl group is transferred to the N1 of the pseudouridine. Thus, Nep1 is the first identified example of an N1-specific pseudouridine methyltransferase. This enzymatic activity is also conserved in human Nep1 suggesting that Nep1 is the methyltransferase in the biosynthesis of m1acp3-Psi in eukaryotic 18S rRNAs.
Background: Pythium ultimum (P. ultimum) is a ubiquitous oomycete plant pathogen responsible for a variety of diseases on a broad range of crop and ornamental species. Results: The P. ultimum genome (42.8 Mb) encodes 15,290 genes and has extensive sequence similarity and synteny with related Phytophthora species, including the potato blight pathogen Phytophthora infestans. Whole transcriptome sequencing revealed expression of 86% of genes, with detectable differential expression of suites of genes under abiotic stress and in the presence of a host. The predicted proteome includes a large repertoire of proteins involved in plant pathogen interactions although surprisingly, the P. ultimum genome does not encode any classical RXLR effectors and relatively few Crinkler genes in comparison to related phytopathogenic oomycetes. A lower number of enzymes involved in carbohydrate metabolism were present compared to Phytophthora species, with the notable absence of cutinases, suggesting a significant difference in virulence mechanisms between P. ultimum and more host specific oomycete species. Although we observed a high degree of orthology with Phytophthora genomes, there were novel features of the P. ultimum proteome including an expansion of genes involved in proteolysis and genes unique to Pythium. We identified a small gene family of cadherins, proteins involved in cell adhesion, the first report in a genome outside the metazoans. Conclusions: Access to the P. ultimum genome has revealed not only core pathogenic mechanisms within the oomycetes but also lineage specific genes associated with the alternative virulence and lifestyles found within the pythiaceous lineages compared to the Peronosporaceae.
Die Maillard-Reaktion findet während der Lagerung und thermischen Verarbeitung von Lebensmitteln zwischen den darin enthaltenen Proteinen und reduzierenden Kohlehydraten statt. Als Ergebnis der Reaktion entstehen sogenannte advanced glycation end products (AGEs), Protein-Derivate mit Glykierungs-Strukturen. Da Lebensmittel vor dem Verzehr häufig erhitzt werden, ist der Einfluss von AGEs auf die Pathogenese von Nahrungsmittelallergien von großem Interesse. Die Maillard-Reaktion könnte zur Bildung von neuen, für die Pathogenese der Nahrungsmittelallergie relevanten, Immunepitopen beitragen. Das Ziel dieser Arbeit war es, den Einfluss der Maillard-Reaktion auf die T-Zell-Immunogenität, die Antigenität und die von beiden Eigenschaften abhängige Allergenität von Nahrungsmittelallergenen zu untersuchen. Zunächst wurde der Einfluss der Maillard-Reaktion auf die T-Zell-Immunogenität von Ovalbumin (OVA), einem Allergen des Hühnereiweißes, untersucht. Dafür wurde glykiertes OVA (AGE-OVA) hergestellt indem das Protein zusammen mit Glukose erhitzt wurde. In dieser Arbeit konnte zum ersten Mal gezeigt werden, dass ein AGE-Derivat eines Lebensmittelallergens eine höhere T-Zellen-Immunogenität besitzt, als sein natives Gegenstück. Die Aktivierung und Proliferation von CD4+ T-Zellen durch AGE-OVA wurde in vitro durch Co-Kultivierung der T-Zellen mit dendritischen Zellen (DZ) untersucht. DZ sind professionelle Antigen- präsentierende Zellen, welche im Pathomechanismus der Allergie eine wichtige Rolle spielen. Im Vergleich zu nativen OVA und OVA welches ohne Glukose erhitzt wurde, führte die Stimulierung mit AGE-OVA zu einer deutlich erhöhten Aktivierung von OVA-spezifischen CD4+ T-Zellen. Damit DZ T-Zellen aktivieren können, muss das Allergen zunächst durch die DZ aufgenommen werden. In der vorliegenden Arbeit wurde gezeigt, dass die Aufnahme von AGE-OVA wesentlich höher war als die der Kontrollen. Außerdem konnte der scavenger receptor class A type I and II (SR-AI/II) als einer der hauptverantwortlichen Rezeptoren für die Aufnahme von AGE-OVA identifiziert werden. Zusammenfassend lässt sich aus den Ergebnissen dieser Arbeit die Hypothese aufstellen, dass die Glykierung von OVA eine erhöhte Assoziation des Allergens mit SR-AI/II ermöglicht, welche zu einer verstärkten Aufnahme des Allergens durch die DZ führt. Dadurch können mehr Peptide des Allergens an MHC II gebunden und auf der Zelloberfläche präsentiert werden. Das wiederum führt zur beobachteten stärkeren OVA-spezifischen CD4+ T-Zell-Aktivierung durch AGE-OVA. Als nächstes wurde die T-Zell-Immunogenität und Antigenität von AGE-OVA in vivo in einem Mausmodel untersucht. Es zeigte sich, dass AGE-OVA auch in vivo im Vergleich zu den nicht glykierten OVA-Formen eine erhöhte T-Zell-Immunogenität besitzt. Des weiteren führte die Immunisierung mit AGE-OVA zu einer erhöhten Produktion von IgE-Antikörpern. Somit wurde in dieser Arbeit gezeigt, dass AGE-OVA in vivo nicht nur eine erhöhte CD4+ T-Zell-Immunogenität besitzt, sondern auch eine höhere Antigenität hat als natives und ohne Glukose erhitztes OVA. Diese Ergebnisse harmonieren gut miteinander da CD4+ T-Zellen eine zentrale Rolle in der Aktivierung von B-Zellen und der IgE-Produktion durch selbige Zellen spielen. IgE-Antikörper besitzen eine essentielle Funktion beim Auslösen der klinischen Symptomatik der Allergie. Zusammenfassend lässt deshalb sagen, dass die Maillard-Reaktion die Allergenität von OVA erhöhen könnte. Zum Schluss wurden noch die immunstimulatorischen Eigenschaften des Erdnussallergens (AGE)-Ara h 2 untersucht. Da Erdnüsse häufig ernsthafte allergische Reaktionen hervorrufen und selten roh verzehrt werden, war es vom großen Interesse den Einfluss der Maillard-Reaktion auf Immunogenität und Antigenität von rekombinanten Ara h 2 (rAra h 2) zu untersuchen. Es zeigte sich, dass die Glykierung von rAra h 2 durch die Maillard-Reaktion die T-Zellen-Immunogenität, als auch die Antigenität des Allergens reduziert. Abschließend lässt sich sagen, dass die Maillard-Reaktion die allergenen Eigenschaften von Lebensmittelallergenen erheblich beeinflusst indem es die T-Zell-Immunogenität des Allergens verändert. Die Mechanismen welche die T-Zell-Immunogenität beeinflussen wurden hier näher untersucht. Wenn die Glykierung nicht die Bindung der T-Zellen- und/oder B-Zellen-Rezeptoren inhibiert, wird die Allergen-spezifische CD4+ T-Zell-Aktivierung und die davon abhängige IgE-Produktion dadurch erhöht, dass das glykierte Allergen durch DZ verstärkt über SR-AI/II aufgenommen wird. Die vorliegende Arbeit liefert wertvolle Information über die Allergenität von Proteinen die durch die Maillard-Reaktion modifiziert wurden and trägt dazu bei die Mechanismen von Nahrungsmittelallergien besser zu verstehen.
Twenty eight species of Temnocerus Thunberg, 1815 are recognized from Central America (Mexico to Panama) with eight previously described species and 20 new species as follows: T. abdominalis (Voss), T. chiapensis n. sp., T. chiriquensis (Sharp), T. confertus (Sharp), T. cyaneus n. sp., T. ellus n. sp., T. giganteus n. sp., T. guatemalenus (Sharp), T. guerrerensis n. sp., T. herediensis n. sp., T. mexicanus n. sp., T. michoacensis n. sp., T. minutus n. sp., T. niger n. sp., T. oaxacensis n. sp., T. obrieni, n. sp., T. oculatus (Sharp), T. potosi n. sp., T. pseudaeratus n. sp., T. pueblensis n. sp., T. pusillus (Sharp), T. regularis (Sharp), T. rostralis n. sp., T. rugosus n. sp., T. salvensis n. sp., T. tamaulipensis n. sp., T. thesaurus (Sharp) and T. yucatensis n. sp. Rhynchites debilis Sharp is placed in synonymy with Temnocerus guatemalenus (Sharp) and Pselaphorhynchites lindae Hamilton is placed in synonymy with Temnocerus regularis (Sharp). A key to species based on external characters and male genitalia is provided as well as digital images, aedeagus drawings, and map distributions.
Five new species of Orizabus Fairmaire from Mexico and Guatemala are described, illustrated, and compared with other Orizabus species: O. amalgamatus Ratcliffe and Cave, O. delgadoi Ratcliffe and Cave, O. epithecus Ratcliffe and Cave, O. mezclus Ratcliffe and Cave, and O. thomasi Ratcliffe and Cave. An identification key and a checklist of the species in the genus Orizabus are provided.
Three new species of Paragnorimus Becker are described: Paragnorimus atratus n. sp. from Guatemala, P. hondurensis n. sp. from Honduras and Nicaragua, and P. howdeni n. sp. from Guatemala. Based on the overlapping characters of these new species, the genus Peltotrichius Howden is placed in synonymy with Paragnorimus. Paragnorimus is given a broader definition to encompass the new species and the two species formerly placed in the genus Peltotrichius.
The National Collection of Arachnids, Instituto de Biología, Universidad Nacional Autónoma de México (México City) houses 476 chilopod samples, of which 197 are determined to genus and/or species. These are documented here and represent several new state records. Topotypes of eight species of centipedes described by R. V. Chamberlin also documented.
Localities are documented for the milliped Abacion texense (Loomis, 1837) (Callipodida: Abacionidae) whose distribution forms both the northern and southern ordinal limits in the Western Hemisphere. The westernmost component of Abacion Rafinesque, 1820, A. texense is the only milliped species whose range spans the Mississippi and Pecos rivers and the Rio Grande. Distribution extremes are in Hennepin County (Co.), Minnesota, in the north; Terrell and Potter cos., Texas, in the west; Alcorn Co., Mississippi, in the east; and southwestern Tamaulipas, Mexico, in the south. Occurrences are projected for southeastern South Dakota, northwestern Alabama, and the southwestern periphery of Tennessee. The type series of A. texense consists solely of the male holotype, so a neotype will be needed if this individual is ever lost, because no paratypes were officially designated.
The Opisthobranchia comprise highly specialized marine gastropods and have therefore been subject to diverse investigations covering various biological disciplines. However, a robust phylogeny of these gastropods is still lacking and several subclades have only been rarely studied. Furthermore, crucial aspects for the evolution of Opisthobranchia have not been comparatively analysed. Therefore, the aim of the present thesis is to gain new insights into the phylogeny of the Opisthobranchia with special focus on certain critical groups (Pleurobranchomorpha, Acteonoidea) and to assess several crucial features of the evolution of the investigated clades. The combination of four different gene markers (18S rDNA, 28S rDNA, 16S rDNA and CO1) and modern molecular systematic analysis tools were used to construct phylogenetic hypotheses focussing on Opisthobranchia as a whole as well as Pleurobranchomorpha and Acteonoidea in more detail. Intriguing new aspects of phylogeny and evolution of Opisthobranchia were revealed. First of all, monophyly of Opisthobranchia is definitely rejected based on the present data, while monophyly of Euthyneura (comprising Opisthobranchia and Pulmonata) is supported. Monophyly of opisthobranch subclades is confirmed for Nudipleura (as well as its constituting groups Nudibranchia and Pleurobranchomorpha), Umbraculida, Pteropoda (as well as subclades Thecosomata and Gymnosomata) and Acochlidiacea, for Cephalaspidea (if Runcinacea is regarded as a separate clade) and for Sacoglossa (if Cylindrobulla is accepted as an Oxynoacea). Aplysiomorpha are rendered paraphyletic due to the position of Akera bullata, but this result needs further investigation and should be considered with caution. The Nudipleura are found as the first single offshoot of the Euthyneura implying an early evolutionary separation of the last common ancestor of this clade. The remaining taxa form two main clades, one comprising the opisthobranch subgroups Umbraculida, Cephalaspidea, Aplysiomorpha and Pteropoda, while the other contains the pulmonate taxa and the opisthobranch Sacoglossa and Acochlidiacea. The interrelationships within these clades remain largely unresolved due to low statistical support values. However, a possible sister group relationship of Acochlidiacea and Eupulmonata receives statistical support. Opisthobranchia display various highly specific adaptations to diverse food sources. However, evolution of these specialized traits has never been assessed at an analytical level. The current thesis reconstructs the evolution of dietary preferences with novel methodologies based on the newly proposed phylogenetic hypothesis. Reconstruction of dietary evolution revealed herbivory as the ancestral condition in Euthyneura implying that carnivory evolved at least five times independently in the diverse lineages. The first comprehensive molecular phylogenetic hypothesis of the Pleurobranchomorpha could not reveal monophyly of the two main subclades Pleurobranchaeidae and Pleurobranchidae. This is due to the position of a single taxon (Euselenops luniceps) which is assigned to the Pleurobranchaeidae based on morphology but clusters within Pleurobranchidae in the current hypothesis. Furthermore, the tribe Berthellini and the genus Berthella are rendered paraphyletic by the current analyses. The results of molecular systematic analyses were used to reconstruct historical biogeography of Pleurobranchomorpha. Four different methodological approaches were applied yielding ambiguous results for Pleurobranchomorpha. However, the Pleurobranchidae comprising about 80% of the extant Pleurobranchomorpha most probably derived from an Antarctic origin. Dating of the phylogenetic tree via molecular clock methods yielded divergence of Pleurobranchidae into the Antarctic Tomthompsonia antarctica and the remaining species in Early Oligocene. Afterwards the latter underwent rapid radiation during Oligocene and Early Miocene. This divergence event coincides with two major geological events in the Antarctic region. On the one hand, the onset of glaciation and on the other hand the opening of the Drake Passage with concurrent formation of an Antarctic circumpolar current (ACC). I suppose that these sudden and dramatic changes in climate and palaeogeography probably accounted for migration of the last common ancestor of Pleurobranchidae (besides Tomthompsonia) into warmer regions via the Drake Passage to the Western Atlantic and Eastern Pacific and via the South Tasman Rise to the Indo-West Pacific. Furthermore, the ACC may have triggered larval dispersal to the Eastern Atlantic. The phylogenetic position of Acteonoidea has been a matter of debate for decades and they have long been considered as basal opisthobranchs. Results of the present thesis rather support placement in “Lower Heterobranchia” as sister group of Rissoelloidea. The current division of Acteonoidea into three families has never been investigated by means of phylogenetic methods. Thus, this thesis provides the first comprehensive investigation of this clade challenging present division into three families. The results rather support division into two main clades with the monogeneric Bullinidae clustering within Aplustridae doubting its separate status. Additionally, Rictaxis punctocaelatus which has been assigned to Acteonidae clusters basal to Aplustridae rendering Acteonidae paraphyletic. Since information on morphology of R. punctocaelatus was lacking until now, I conducted the first detailed investigation on morphology and histology of this species in order to reassess the unexpected molecular systematic placement. Character tracing analyses revealed similarities with both acteonoidean families implying an intermediate position of this species which might be assigned to a separate family in the future. Furthermore, the common features of Acteonidae and Rictaxis (massive shell, small foot, anterior mantle cavity opening, and absence of oral gland) are possibly plesiomorphic for the whole Acteonoidea. In summary, the results of the present thesis provide valuable novel insights into the phylogeny and evolution of the Opisthobranchia by employing state-of-the-art approaches of molecular systematics and evolutionary reconstruction. Thus, diverse hypotheses on opisthobranch phylogeny and evolution were either supported or rejected as well as novel hypotheses proposed which offer the basis for further research on these extraordinary gastropods.
Poster presentation at 5th German Conference on Cheminformatics: 23. CIC-Workshop Goslar, Germany. 8-10 November 2009 We demonstrate the theoretical and practical application of modern kernel-based machine learning methods to ligand-based virtual screening by successful prospective screening for novel agonists of the peroxisome proliferator-activated receptor gamma (PPARgamma) [1]. PPARgamma is a nuclear receptor involved in lipid and glucose metabolism, and related to type-2 diabetes and dyslipidemia. Applied methods included a graph kernel designed for molecular similarity analysis [2], kernel principle component analysis [3], multiple kernel learning [4], and, Gaussian process regression [5]. In the machine learning approach to ligand-based virtual screening, one uses the similarity principle [6] to identify potentially active compounds based on their similarity to known reference ligands. Kernel-based machine learning [7] uses the "kernel trick", a systematic approach to the derivation of non-linear versions of linear algorithms like separating hyperplanes and regression. Prerequisites for kernel learning are similarity measures with the mathematical property of positive semidefiniteness (kernels). The iterative similarity optimal assignment graph kernel (ISOAK) [2] is defined directly on the annotated structure graph, and was designed specifically for the comparison of small molecules. In our virtual screening study, its use improved results, e.g., in principle component analysis-based visualization and Gaussian process regression. Following a thorough retrospective validation using a data set of 176 published PPARgamma agonists [8], we screened a vendor library for novel agonists. Subsequent testing of 15 compounds in a cell-based transactivation assay [9] yielded four active compounds. The most interesting hit, a natural product derivative with cyclobutane scaffold, is a full selective PPARgamma agonist (EC50 = 10 ± 0.2 microM, inactive on PPARalpha and PPARbeta/delta at 10 microM). We demonstrate how the interplay of several modern kernel-based machine learning approaches can successfully improve ligand-based virtual screening results.
Poster presentation at 5th German Conference on Cheminformatics: 23. CIC-Workshop Goslar, Germany. 8-10 November 2009 Protein kinases are important targets for drug development. The almost identical protein folding of kinases and the common co-substrate ATP leads to the problem of inhibitor selectivity. Type II inhibitors, targeting the inactive conformation of kinases, occupy a hydrophobic pocket with less conserved surrounding amino acids. Human polo-like kinase 1 (Plk1) represents a promising target for approaches to identify new therapeutic agents. Plk1 belongs to a family of highly conserved serine/threonine kinases, and is a key player in mitosis, where it modulates the spindle checkpoint at metaphase/anaphase transition. Plk1 is over-expressed in all today analyzed human tumors of different origin and serves as a negative prognostic marker in cancer patients. The newly identified inhibitor, SBE13, a vanillin derivative, targets Plk1 in its inactive conformation. This leads to selectivity within the Plk family and towards Aurora A. This selectivity can be explained by docking studies of SBE13 into the binding pocket of homology models of Plk1, Plk2 and Plk3 in their inactive conformation. SBE13 showed anti-proliferative effects in cancer cell lines of different origins with EC50 values between 5 microM and 39 microM and induced apoptosis. Increasing concentrations of SBE13 result in increasing amounts of cells in G2/M phase 13 hours after double thymidin block of HeLa cells. The kinase activity of Plk1 was inhibited with an IC50 of 200 pM. Taken together, we could show that carefully designed structure-based virtual screening is well-suited to identify selective type II kinase inhibitors targeting Plk1 as potential anti-cancer therapeutics.
New taxa of Epiphloeinae Kuwert (Cleridae) and Chaetosomatidae Crowson (Coleoptera: Cleroidea)
(2010)
Twenty-one new taxa of Cleridae and one of Chaetosomatidae are described including four new genera: Acanthocollis, Decaphloeus, Megaphloeus, and Stegnoclava. Twenty new species are described: five species of Amboakis Opitz (A. ampla, A. antegalba, A. diffusa, A. demagna, A. waodani, one species of Epiphloeus Spinola (E. erwini), four species of Madoniella Pic (M. aspera, M. darlingtoni, M. divida, M. spilota), two species of Plocamocera Spinola (P. clinata, P. lena), seven species of Pyticeroides Kuwert (P. latisentis, P. moraquesi, P. parvoporis, P. pinnacerinis, P. pullis, P. turbosiris, P. ustulatis), and one species of Chaetosomatidae (Chaetosoma colossa).
The authorship and type species of the genera Acentroptera and Metazycera are reviewed. The correct author of Acentroptera is Guérin-Méneville, 1844; Acentroptera dejeani Guérin-Méneville, 1844, is here designated as the type species. Metazycera is the correct spelling of the genus described by Chevrolat, 1837; the type species is Hispa trimaculata Olivier, 1808, by monotypy; Metaxycera Baly, 1864 is an unjustified emendation.
Specimens of Megacopta cribraria (Fabricius) were collected in northern Georgia in late October 2009, where they were invading homes in large numbers. This is the first known occurrence of this species and the family Plataspidae in the New World. Megacopta cribraria was previously known from Asia and Australia. A key is provided to separate Plataspidae from other families of Pentatomoidea in America North of Mexico. A diagnosis and figures are provided to facilitate recognition of M. cribraria. Reported host plants and other aspects of the biology of this species are reviewed. Megacopta cribraria is considered a pest of numerous legumes in Asia, has the potential to provide biological control of kudzu, Pueraria montana var. lobata (Willd.) Ohwi, (Fabaceae) and likely will continue to be a household pest in the vicinity of kudzu fields as well as become a pest of North American legume crops.
The species of the genus Lathropus Erichson are reviewed for Florida and the West Indies, excluding the Lesser Antilles. Seven species are recorded from this region, three of which are described as new: Lathropus chickcharnie Thomas, new species, Lathropus jamaicensis Thomas, new species, and Lathropus rhabdophloeoides Thomas, new species. A lectotype is designated for Lathropus vernalis Casey, and Lathropus striatus Casey is synonymized under Lathropus vernalis Casey, new synonymy. Illustrations and a key to the species of this geographgic region are provided.
Background: Environmental noise is ubiquitous in population growth processes, with a well acknowledged potential to affect populations regardless of their sizes. It therefore deserves consideration in population dynamics modelling. The usual approach to incorporating noise into population dynamical models is to make some model parameter(s) (typically the growth rate, the carrying capacity, or both) stochastic and responsive to environment fluctuations. It is however still unclear whether including noise in one or/and another parameter makes a difference to the model performance. Here we investigated this issue with a focus on model fit and predictive accuracy. To do this, we developed three population dynamical models of the Ricker type with the noise included in the growth rate (Model 1), in the carrying capacity (Model 2), and in both (Model 3). We generated several population time series under each model, and used a Bayesian approach to fit the three models to the simulated data. We then compared the model performances in fitting to the data and in forecasting future observations. Results: When the mean intrinsic growth rate, r, in the data was low, the three models had roughly comparable performances, irrespective of the true model and the level of noise. As r increased, Models 1 performed best on data generated from it, and Model 3 tended to perform best on data generated from either Models 2 or Model 3. Model 2 was uniformly outcompeted by the other two models, regardless of the true model and the level of noise. The correlation between the deviance information criterion (DIC) and the mean square error (MSE) used respectively as measure of fit and predictive accuracy was broadly positive. Conclusion: Our results suggested that the way environmental noise is incorporated into a population dynamical model may profoundly affect its performance. Overall, we found that including noise in one or/and another parameter does not matter as long as the mean intrinsic growth rate, r, is low. As r increased, however, the three models performed differently. Models 1 and 3 broadly outperformed Model 2, the first having the advantage of being simple and more computationally tractable. A comforting result emerging from our analysis is the broad positive correlation between MSEs and DICs, suggesting that the latter may also be informative about the predictive performance of a model.
The Anthonomus juniperinus group, with descriptions of two new species (Coleoptera: Curculionidae)
(2010)
The Anthonomus juniperinus (Sanborn) species group is defined and two new species, Anthonomus sanborni, new species, and A. rileyi new species, from the United States are described, keyed and illustrated. The three species of the group are associated with the plant genus Juniperus and the larvae of A. juniperinus are known to develop in fungal galls of Gymnosporangium spp. as well as fruits of the Eastern redcedar, Juniperus virginiana L. The biology of the group and its taxonomic relationships to other species of Anthonomus Germar are also discussed.
The fauna of Phanaeini of the northeast of Brazil was investigated through fieldwork in the States of Ceará, Maranhão and Piauí, and through study of preserved material from other states. Seven species of Phanaeini are newly recorded from these three states. Of these, two species are also new records for the northeast region: Phanaeus melibaeus Blanchard and an unidentified Dendropaemon Perty species. A total of 13 new state records are given for eight of the 15 species of Phanaeini recorded from the northeast to date, including three new state genus records. A key is provided for identification of all species. Detailed distributional information is presented together with habitat and bait preferences and other ecological data for each species. The diversity and distribution of the tribe in the northeast is discussed in the context of regional biotopes and wider geographic ranges. The fauna is shown to be more diverse than previously believed, containing both endemic and widespread elements occurring in species assemblages that differ according to habitat type and elevation, leading to substantial complementarity of diversity amongst the main biogeographic provinces and biotopes of the region.
Four new species of Cydistomyia Taylor from New Guinea, C. missimiensis, C. madangiensis, C. waigani, and C. moresbyensis, are described and figured. A revised key to the females of New Guinea Cydistomyia and New Guinea collection records for 57 additional species of Tabanidae are provided. A table with the approximate longitudes and latitudes of all but one locality listed is provided.
Hiltonius carpinus carpinus Chamberlin, 1943 (Spirobolida: Spirobolidae), is authoritatively recorded from the United States for the first time; it is known only from southern/southeastern Arizona but should be expected in adjoining counties of New Mexico. The northernmost locality is the Pinaleno Mountains, Graham County, and its distribution extends to southern Mexico; the other subspecies, H. c. vulcan (Chamberlin, 1953), occurs in Guatemala. The range of H. c. carpinus includes the type locality of the enigmatic H. fossulifer (Pocock, 1908), lending credence to prior suggestions that the names are synonymous. Three new Mexican states – Durango, Jalisco, and Nuevo León – are documented for H. c. carpinus.
New species are described in the tribe Piezocerini: Gorybia rondonia sp. nov. from Brazil (Rondônia) and G. bahiensis sp. nov. from Brazil (Bahia); in the tribe Hexoplonini: Calycibidion rubricolle sp. nov. from Brazil (Bahia); in the tribe Ibidionini, Tropidina: Tropidion argentina sp. nov. from Argentina (La Rioja) and T. boliviensis sp. nov. from Bolivia (Santa Cruz); in the tribe Rhinotragini: Ommata (Ommata) albitarsis sp. nov. from Brazil (Rondônia); and in the tribe Rhopalophorini: Cosmisoma viridescens sp. nov. from Brazil (Bahia). To validate the tribal names, Hexoplon Thomson, 1864 and Tropidion Thomson, 1867, are here designated type genera of Hexoplonini and Tropidiina, respectively.
The transcription factor p63 is expressed as at least six different isoforms, of which two have been assigned critical biological roles within ectodermal development and skin stem cell biology on the one hand and supervision of the genetic stability of oocytes on the other hand. These two isoforms contain a C-terminal inhibitory domain that negatively regulates their transcriptional activity. This inhibitory domain contains two individual components: one that uses an internal binding mechanism to interact with and mask the transactivation domain and one that is based on sumoylation. We have carried out an extensive alanine scanning study to identify critical regions within the inhibitory domain. These experiments show that a stretch of ~13 amino acids is crucial for the binding function. Further, investigation of transcriptional activity and the intracellular level of mutants that cannot be sumoylated suggests that sumoylation reduces the concentration of p63. We therefore propose that the inhibitory function of the C-terminal domain is in part due to direct inhibition of the transcriptional activity of the protein and in part due to indirect inhibition by controlling the concentration of p63. Keywords: p63, transcriptional regulation, auto-inhibition, sumoylation