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Floral nectar is considered the most important floral reward for attracting pollinators. It contains large amounts of carbohydrates besides variable concentrations of amino acids and thus represents an important food source for many pollinators. Its nutrient content and composition can, however, strongly vary within and between plant species. The factors driving this variation in nectar quality are still largely unclear.
We investigated factors underlying interspecific variation in macronutrient composition of floral nectar in 34 different grassland plant species. Specifically, we tested for correlations between the phylogenetic relatedness and morphology of plants and the carbohydrate (C) and total amino acid (AA) composition and C:AA ratios of nectar.
We found that compositions of carbohydrates and (essential) amino acids as well as C:AA ratios in nectar varied significantly within and between plant species. They showed no clear phylogenetic signal. Moreover, variation in carbohydrate composition was related to family‐specific structural characteristics and combinations of morphological traits. Plants with nectar‐exposing flowers, bowl‐ or parabolic‐shaped flowers, as often found in the Apiaceae and Asteraceae, had nectar with higher proportions of hexoses, indicating a selective pressure to decelerate evaporation by increasing nectar osmolality.
Our study suggests that variation in nectar nutrient composition is, among others, affected by family‐specific combinations of morphological traits. However, even within species, variation in nectar quality is high. As nectar quality can strongly affect visitation patterns of pollinators and thus pollination success, this intra‐ and interspecific variation requires more studies to fully elucidate the underlying causes and the consequences for pollinator behaviour.
Protothecosis is an infectious disease caused by organisms currently classified within the green algal genus Prototheca. The disease can manifest as cutaneous lesions, olecranon bursitis or disseminated or systemic infections in both immunocompetent and immunosuppressed patients. Concerning diagnostics, taxonomic validity is important. Prototheca, closely related to the Chlorella species complex, is known to be polyphyletic, branching with Auxenochlorella and Helicosporidium. The phylogeny of Prototheca was discussed and revisited several times in the last decade; new species have been described. Phylogenetic analyses were performed using ribosomal DNA (rDNA) and partial mitochondrial cytochrome b (cytb) sequence data. In this work we use Internal Transcribed Spacer 2 (ITS2) as well as 18S rDNA data. However, for the first time, we reconstruct phylogenetic relationships of Prototheca using primary sequence and RNA secondary structure information simultaneously, a concept shown to increase robustness and accuracy of phylogenetic tree estimation. Using encoded sequence-structure data, Neighbor-Joining, Maximum-Parsimony and Maximum-Likelihood methods yielded well-supported trees in agreement with other trees calculated on rDNA; but differ in several aspects from trees using cytb as a phylogenetic marker. ITS2 secondary structures of Prototheca sequences are in agreement with the well-known common core structure of eukaryotes but show unusual differences in their helix lengths. An elongation of the fourth helix of some species seems to have occurred independently in the course of evolution.
The ITS2 Database
(2012)
The internal transcribed spacer 2 (ITS2) has been used as a phylogenetic marker for more than two decades. As ITS2 research mainly focused on the very variable ITS2 sequence, it confined this marker to low-level phylogenetics only. However, the combination of the ITS2 sequence and its highly conserved secondary structure improves the phylogenetic resolution1 and allows phylogenetic inference at multiple taxonomic ranks, including species delimitation.
The ITS2 Database presents an exhaustive dataset of internal transcribed spacer 2 sequences from NCBI GenBank accurately reannotated. Following an annotation by profile Hidden Markov Models (HMMs), the secondary structure of each sequence is predicted. First, it is tested whether a minimum energy based fold (direct fold) results in a correct, four helix conformation. If this is not the case, the structure is predicted by homology modeling. In homology modeling, an already known secondary structure is transferred to another ITS2 sequence, whose secondary structure was not able to fold correctly in a direct fold.
The ITS2 Database is not only a database for storage and retrieval of ITS2 sequence-structures. It also provides several tools to process your own ITS2 sequences, including annotation, structural prediction, motif detection and BLAST search on the combined sequence-structure information. Moreover, it integrates trimmed versions of 4SALE and ProfDistS for multiple sequence-structure alignment calculation and Neighbor Joining tree reconstruction. Together they form a coherent analysis pipeline from an initial set of sequences to a phylogeny based on sequence and secondary structure.
In a nutshell, this workbench simplifies first phylogenetic analyses to only a few mouse-clicks, while additionally providing tools and data for comprehensive large-scale analyses.
Die 2001 beschriebene Art B. petrii stellt den ersten Umweltkeim der Gattung Bordetella dar, welcher aus einer anaeroben, dechlorinierenden Anreicherungskultur aus Flusssediment isoliert wurde. Phylogenetisch wird B. petrii an die Basis der Gattung Bordetella eingeordnet und ist in evolutionärer Hinsicht deshalb interessant, weil er sowohl für orthologe Gene bestimmter Virulenzfaktoren der pathogenen Bordetellen kodiert als auch typische Eigenschaften von Umweltkeimen aufweist und somit eine Art Bindeglied darstellt. Da B. petrii ein orthologes BvgAS-System besitzt (der Hauptregulator der Virulenzgenexpression in den pathogenen Bordetellen), wurde dessen Struktur im Rahmen dieser Arbeit mittels in silico Analysen untersucht. Dabei konnte gezeigt werden, dass eine Konservierung nur auf Aminosäureebene deutlich zu erkennen ist und der Response Regulator BvgA von B. petrii die stärkste Konservierung aufweist. Desweiteren besitzt B. petrii Gene für zwei Histidinkinasen, BvgS1 und BvgS2, sowie ein separates Gen, welches für eine Hpt-Domäne kodiert. Weitere putative Virulenzfaktoren von B. petrii gehören in die Gruppe der Adhäsionsfaktoren. Diese Faktoren spielen bei den „klassischen“ Bordetellen im Infektionszyklus eine wichtige Rolle für die Anheftung z.B. an die Epithelzellen des Respirationstraktes. Um ein mögliches pathogenes Potential von B. petrii abschätzen zu können, wurden vergleichende Zellkulturstudien mit B. bronchiseptica durchgeführt. Dabei konnte gezeigt werden, dass B. petrii um den Faktor 7,5 weniger in Makrophagen aufgenommen wird. Hinweise auf die Funktionalität des BvgAS-Systems in B. petrii wurden durch Proteomstudien mit einer BvgA-Mutante erhalten, und deuten darauf hin, dass das BvgAS-System in B. petrii möglicherweise eine Funktion in der Respirationskontrolle haben könnte. Im Rahmen der Genomsequenzierung wurden acht genomische Inseln beschrieben, die in dieser Arbeit hinsichtlich ihrer Struktur und ihrem Excisionsverhalten untersucht wurden. Es konnte gezeigt werden, dass die genomischen Inseln, mit Ausnahme der Insel GI0, in verschiedenen Kombinationen, als ringförmige Intermediate aus dem B. petrii Genom ausgeschnitten werden können. Vier der genomischen Inseln (GI1-GI3 und GI6) weisen strukturelle Ähnlichkeiten zu einer Familie syntenischer genomischer Inseln auf, zu denen auch das clc-Element von Pseudomonas sp. Strain B13 zählt. Die größte Ähnlichkeit zum clc-Element weist die Insel GI3 von B. petrii auf. Diese beiden Inseln haben annähernd die gleiche Größe und besitzen Gene zu Abbau von 3-Chlorobenzoat (3-CBA). Die Untersuchung der Stabilität von GI3 ergab, dass nach 125-150 Generationen nur noch 1,5 % der Bakterien die Insel GI3 enthielten. Desweiteren konnte die Übertragung der Insel GI3 von B. petrii auf B. bronchiseptica PS2 gezeigt und der Integrationsbereich bestimmt werden. Im Rahmen dieser Arbeit wurde auch ein neuer Stammbaum der Gattung Bordetella erstellt, in welchen eine Reihe kürzlich neu beschriebener B. petrii Isolate mit aufgenommen wurden wodurch ein zu den pathogenen Bordetellen abgegrenztes Cluster gebildet wird.
The genus Pogonomyrmex is predisposed for analyzing the evolution of ant colony characteristics in general and the sociogenetic structure in particular, due to the renowned biology of several species and the diversity of mating frequency and queen number. This variation in the sociogenetic structure of colonies produces a high variance in intracolonial relatedness which can be a major component driving the evolution of various colony characteristics. To exactly determine the variability of the intracolonial relatedness in the genus Pogonomyrmex both were analyzed, the number of matrilines and patrilines, in selected members of Pogonomyrmex, namely P. (sensu stricto) rugosus, P. (sensu stricto) badius and P. (Ephebomyrmex) pima using DNA fingerprint techniques. The evolution of these colony characteristics were tried to be explained within a phylogenetic framework. For that purpose we constructed a gene-tree of 39 species of the genus Pogonomyrmex. The taxon sampling covered about 83 % of the North American species and 43 % of the South American species. Effective multiple mating of queens was confirmed for P. rugosus (me=4.1) and P. badius (me=6.7). Additionally, both species are monogynous. These results corroborate behavioral observations of multiple mating for these species. Multiple mating is now known from 9 Pogonomyrmex species (behavioral evidence for 3 species – genetic evidence for 6 species). However, in P. (E.) pima all queens that were analyzed were single mated (me=1.0). Therefore, multiple mating may have either evolved early during the evolution of the genus Pogonomyrmex and has subsequently been lost in the subgenus Ephebomyrmex (plesiomorphic hypothesis), or it has first been evolved in the subgenus Pogonomyrmex sensu stricto (apomorphic hypothesis). In P. huachucanus, a species basal to the North- American sensu stricto complex, smaller effective mating number of queens compared to its sensu stricto relatives (J. Gadau and C.-P. Strehl, unpublished) probably do mirror a change from monandry to polyandry during the evolution of more advanced sensu stricto species, which would support the apomorphic hypothesis. The intracolonial relatedness in P. (E.) pima is however rather low. This is probably the result of multiple reproducing queens (polygyny). Polygyny is also documented for at least four other species of the subgenus Ephebomyrex, but so far P. (E.) pima is the only species with genetic evidence. It might be that there was an evolutionary trade-off within the subgenus Ephebomyrmex between polyandry and polygyny. Therefore, both subgenera retained a high intracolonial genetic diversity. This high genetic diversity might be one cause for the success and radiation of the genus Pogonomyrmex in arid environments. Evolution might have favored high genetic diversity of Pogonomyrmex colonies, because it helps colonies to improve their colonial organization and efficiency in performing external tasks. At least in P. badius a link between patrilines and physical polyethism was found, indicative of an improvement of colonial organization via polyandry. Furthermore, the documented extreme levels of polyandry might help P. badius females to overcome the possibility of inbreeding due to restricted dispersal. Restricted dispersal is also found in P. (E.) pima due to wingless, intermorphic queens. However, in P. (E.) pima inbreeding is probably prevented by outcrossing via males because no significant inbreeding is found. In the presented gene trees the subgenus Pogonomyrmex Ephebomyrmex was separated from the subgenus Pogonomyrmex sensu stricto. Therefore, P. Ephebomyrmex might be elevated to generic status, also due to its distinct morphological and life history characters. Nevertheless, for a precise taxonomic revision a broader complement of species has to be applied. Regularly a low number of unrelated workers was found in P. rugosus colonies, which probably stem from brood raids between mature and founding colonies. It is well known that most founding colonies are destroyed by neighboring conspecific mature colonies, but so far it was assumed that the brood of these colonies was also destroyed. This often neglected aspect might be an important fitness token for mature colonies.