TY  - THES
A1  - Arias Andrés, María de Jesús
T1  - Microbial gene exchange on microplastic particles
T1  - Mikrobieller Gentransfer auf Mikroplastikpartikel
N2  - Plastic pollution is ubiquitous on the planet since several millions of tons of plastic waste enter aquatic ecosystems each year. Furthermore, the amount of plastic produced is expected to increase exponentially shortly. The heterogeneity of materials, additives and physical characteristics of plastics are typical of these emerging contaminants and affect their environmental fate in marine and freshwaters. Consequently, plastics can be found in the water column, sediments or littoral habitats of all aquatic ecosystems. Most of this plastic debris will fragment as a product of physical, chemical and biological forces, producing particles of small size. These particles (< 5mm) are known as “microplastics” (MP). Given their high surface-to-volume ratio, MP stimulate biofouling and the formation of biofilms in aquatic systems. 

As a result of their unique structure and composition, the microbial communities in MP biofilms are referred to as the “Plastisphere.” While there is increasing data regarding the distinctive composition and structure of the microbial communities that form part of the plastisphere, scarce information exists regarding the activity of microorganisms in MP biofilms. This surface-attached lifestyle is often associated with the increase in horizontal gene transfer (HGT) among bacteria. Therefore, this type of microbial activity represents a relevant function worth to be analyzed in MP biofilms. The horizontal exchange of mobile genetic elements (MGEs) is an essential feature of bacteria. It accounts for the rapid evolution of these prokaryotes and their adaptation to a wide variety of environments. The process of HGT is also crucial for spreading antibiotic resistance and for the evolution of pathogens, as many MGEs are known to contain antibiotic resistance genes (ARGs) and genetic determinants of pathogenicity.

In general, the research presented in this Ph.D. thesis focuses on the analysis of HGT and heterotrophic activity in MP biofilms in aquatic ecosystems. The primary objective was to analyze the potential of gene exchange between MP bacterial communities vs. that of the surrounding water, including bacteria from natural aggregates. Moreover, the thesis addressed the potential of MP biofilms for the proliferation of biohazardous bacteria and MGEs from wastewater treatment plants (WWTPs) and associated with antibiotic resistance. Finally, it seeks to prove if the physiological profile of MP biofilms under different limnological conditions is divergent from that of the water communities. Accordingly, the thesis is composed of three independent studies published in peer-reviewed journals. The two laboratory studies were performed using both model and environmental microbial communities. In the field experiment, natural communities from freshwater ecosystems were examined.

In Chapter I, the inflow of treated wastewater into a temperate lake was simulated with a concentration gradient of MP particles. The effects of MP on the microbial community structure and the occurrence of integrase 1 (int 1) were followed. The int 1 is a marker associated with mobile genetic elements and known as a proxy for anthropogenic effects on the spread of antimicrobial resistance genes. During the experiment, the abundance of int1 increased in the plastisphere with increasing MP particle concentration, but not in the surrounding water. In addition, the microbial community on MP was more similar to the original wastewater community with increasing microplastic concentrations. Our results show that microplastic particles indeed promote persistence of standard indicators of microbial anthropogenic pollution in natural waters.

In Chapter II, the experiments aimed to compare the permissiveness of aquatic bacteria towards model antibiotic resistance plasmid pKJK5, between communities that form biofilms on MP vs. those that are free-living. The frequency of plasmid transfer in bacteria associated with MP was higher when compared to bacteria that are free-living or in natural aggregates. Moreover, comparison increased gene exchange occurred in a broad range of phylogenetically-diverse bacteria. The results indicate a different activity of HGT in MP biofilms, which could affect the ecology of aquatic microbial communities on a global scale and the spread of antibiotic resistance.

Finally, in Chapter III, physiological measurements were performed to assess whether microorganisms on MP had a different functional diversity from those in water. General heterotrophic activity such as oxygen consumption was compared in microcosm assays with and without MP, while diversity and richness of heterotrophic activities were calculated by using Biolog® EcoPlates. Three lakes with different nutrient statuses presented differences in MP-associated biomass build up. Functional diversity profiles of MP biofilms in all lakes differed from those of the communities in the surrounding water, but only in the oligo-mesotrophic lake MP biofilms had a higher functional richness compared to the ambient water. The results support that MP surfaces act as new niches for aquatic microorganisms and can affect global carbon dynamics of pelagic environments.

Overall, the experimental works presented in Chapters I and II support a scenario where MP pollution affects HGT dynamics among aquatic bacteria. Among the consequences of this alteration is an increase in the mobilization and transfer efficiency of ARGs. Moreover, it supposes that changes in HGT can affect the evolution of bacteria and the processing of organic matter, leading to different catabolic profiles such as demonstrated in Chapter III. The results are discussed in the context of the fate and magnitude of plastic pollution and the importance of HGT for bacterial evolution and the microbial loop, i.e., at the base of aquatic food webs. The thesis supports a relevant role of MP biofilm communities for the changes observed in the aquatic microbiome as a product of intense human intervention.
N2  - Die Plastikverschmutzung ist auf dem Planeten allgegenwärtig, da jährlich mehrere Millionen Tonnen Plastikabfall in die aquatische Ökosystemen gelangen. Darüber hinaus wird erwartet, dass die Menge an produziertem Plastik in naher Zukunft exponentiell ansteigen wird. Die Heterogenität der Kunststoffmaterialien, ihrer Additive und physikalischen Eigenschaften ist typisch für diese neu auftretenden Schadstoffe und beeinflusst deren Umweltverhalten in Meeres- und Süßwasser. Als Folge kann Plastik in der Wassersäule, den Sedimenten oder Küstenlebensräumen aller aquatischen Ökosysteme gefunden werden. Die meisten dieser Plastikabfälle fragmentieren durch das Zusammenspiel physikalischer, chemischer und biologischer Kräfte, wodurch kleine Partikel erzeugt werden. Diese Partikel (<5mm) sind auch bekannt als "Mikroplastik" (MP). Aufgrund ihres hohen Oberflächen-Volumen-Verhältnisses stimuliert MP das Biofouling und somit die Bildung von Biofilmen in aquatischen Systemen.

Aufgrund ihrer einzigartigen Struktur und Zusammensetzung werden die mikrobiellen Gemeinschaften in MP-Biofilmen als "Plastisphäre" bezeichnet. Während es immer mehr Daten über die spezifische Zusammensetzung und Struktur der mikrobiellen Gemeinschaften – die Teil dieser Plastisphäre sind – gibt, existieren hingegen nur wenige Informationen über die Aktivität von Mikroorganismen in MP-Biofilmen. Dieser Lebensstil des Anheftens und Besiedelns von Oberflächen ist oft mit der Zunahme von horizontalem Gentransfer (HGT) unter Bakterien verknüpft. Diese Art der mikrobiellen Aktivität stellt eine besonders relevante Funktion dar und sollte daher in MP-Biofilmen analysiert werden. Der horizontale Austausch von mobilen genetischen Elementen (MGEs) ist ein wesentliches Merkmal von Bakterien. Er ist verantwortlich für die schnelle Evolution dieser Prokaryoten und ihre Anpassungsfähigkeit an verschiedenste Umweltbedingungen. Der Prozess des HGT ist zudem entscheidend für die Verbreitung von Antibiotikaresistenzen sowie für die Entwicklung von Pathogenen, da viele MGEs bekanntermaßen Antibiotikaresistenzgene (ARGs) und genetische Determinanten für Pathogenität enthalten.

Im Allgemeinen konzentriert sich die Forschung in der vorliegenden Dissertation auf die Analyse des HGT und der heterotrophen Aktivität in MP-Biofilmen in aquatischen Ökosystemen. Das Hauptziel besteht darin, das Potenzial des Genaustausches zwischen MP-Bakteriengemeinschaften und dem des umgebenden Wassers, einschließlich der Bakterien in natürlichen Aggregaten, zu analysieren. Darüber hinaus befasst sich diese Doktorarbeit mit dem Potenzial von MP-Biofilmen zur Ausbreitung biologisch gefährlicher Bakterien und MGEs, die aus Kläranlagen stammen und mit Antibiotikaresistenzen assoziiert sind. Schließlich soll bei verschiedenen limnologischen Bedingungen überprüft werden, ob das jeweilige physiologische Profil von MP-Biofilmen von dem der Wassergemeinschaften abweicht. Dementsprechend besteht die Arbeit aus drei unabhängigen Studien, die in Fachzeitschriften veröffentlicht wurden. In den beiden Laborstudien wurden sowohl mikrobielle Modell- als auch Umwelt-Gemeinschaften betrachtet. Im Freilandexperiment wurden schließlich die natürlichen Gemeinschaften aus Süßwasserökosystemen untersucht.

In Kapitel I wurde der Zufluss von geklärtem Abwasser mit einem Konzentrationsgradienten von MP-Partikeln in einen See der gemäßigten Klimazone simuliert. Dabei wurden die Effekte von MP auf die mikrobielle Gemeinschaftsstruktur und das Auftreten von Integrase 1 (int 1) verfolgt. Int 1 ist ein Marker, der mit mobilen genetischen Elementen assoziiert ist und zur Abschätzung anthropogener Einflüsse auf die Ausbreitung antimikrobieller Resistenzgene verwendet ist. Während des Experiments erhöhte sich das Vorkommen von Int1 in der Plastisphäre mit zunehmender MP-Partikelkonzentration, jedoch nicht im umgebenden Wasser. Darüber hinaus ähnelte die mikrobielle Gemeinschaft auf MP zunehmend der ursprünglichen Abwassergemeinschaft mit steigender Mikroplastikkonzentration. Unsere Ergebnisse zeigen, dass Mikroplastikpartikel tatsächlich die Persistenz von Standardindikatoren mikrobieller anthropogener Verschmutzung in natürlichen Gewässern fördern.

In Kapitel II wurde die Permissivität von aquatischen Bakterien gegen das Modell-Plasmid für Antibiotikaresistenz pKJK5 zwischen Gemeinschaften, die Biofilme auf MP bilden, gegenüber denen, die frei leben, verglichen. Die Häufigkeit des Plasmidtransfers unter den MP-assoziierten Bakterien war höher als unter Bakterien, die frei oder in natürlichen Aggregaten leben. Der verstärkte Genaustausch trat darüber hinaus bei einem breiten Spektrum phylogenetisch diverser Bakterien auf. Die Ergebnisse deuten auf eine unterschiedliche Aktivität von HGT in MP-Biofilmen hin, welche die Ökologie aquatischer mikrobieller Gemeinschaften auf globaler Ebene sowie die Verbreitung von Antibiotikaresistenzen beeinflussen könnten.

Schließlich wurden in Kapitel III physiologische Messungen durchgeführt, um festzustellen, ob Mikroorganismen auf MP eine andere funktionelle Diversität aufwiesen als jene im Wasser. Die generelle heterotrophe Aktivität, wie der Sauerstoffverbrauch, wurde in Mikrokosmentests mit und ohne MP verglichen, während die Diversität und Vielfalt heterotropher Aktivitäten mit Hilfe von Biolog® EcoPlates berechnet wurden. Drei Seen mit unterschiedlichen Nährstoffbedingungen wiesen Unterschiede in der Ausprägung der MP-assoziierten Biomasse auf. In allen Seen unterschieden sich die funktionellen Diversitätsprofile der MP-Biofilme von denen der Gemeinschaften im umgebenden Wasser, aber nur die MP-Biofilme des oligo-mesotrophen Sees hatten eine höhere funktionelle Vielfalt im Verglichen zum Umgebungswasser. Die Ergebnisse verdeutlichen, dass MP-Oberflächen als neue Nischen für aquatische Mikroorganismen fungieren und die globale Kohlenstoffdynamik im Pelagial beeinflussen können.

Insgesamt unterstützen die in den Kapiteln I und II vorgestellten experimentellen Studien ein Szenario, in dem die Umweltverschmutzung durch MP die HGT-Dynamik zwischen aquatischen Bakterien beeinflusst. Zu den Folgen dieser Veränderung gehört eine Erhöhung der Mobilisierungs- und Übertragungseffizienz von ARGs. Darüber hinaus wird vermutet, dass eine Beeinflussung des HGT die Evolution von Bakterien und die Umsetzung von organischem Material verändern könnte, was zu verschiedenen katabolischen Profilen führt, wie in Kapitel III gezeigt. Die Ergebnisse werden in Zusammenhang mit dem Ausmaß der Plastikverschmutzung sowie der Bedeutung von HGT für die bakterielle Entwicklung und „mikrobielle Schleife“, d. h. an der Basis der aquatischen Nahrungsnetze, diskutiert. Diese Doktorarbeit veranschaulicht die Bedeutung von MP-Biofilmgemeinschaften für die beobachteten Veränderungen des aquatischen Mikrobioms als eine Folge der intensiven anthropogenen Eingriffe.
KW  - microplastics
KW  - horizontal gene transfer
KW  - aquatic ecosystem
KW  - microorganisms
KW  - Mikroplastikpartikel
KW  - horizontaler Gentransfer
KW  - aquatische Ökosysteme
KW  - Mikroorganismen
Y1  - 2018
U6  - http://nbn-resolving.de/urn/resolver.pl?urn:nbn:de:kobv:517-opus4-417241
ER  - 
TY  - GEN
A1  - Kunstmann, Ruth Sonja
A1  - Scheidt, Tom
A1  - Buchwald, Saskia
A1  - Helm, Alexandra
A1  - Mulard, Laurence A.
A1  - Fruth, Angelika
A1  - Barbirz, Stefanie
T1  - Bacteriophage Sf6 Tailspike Protein for Detection of Shigella flexneri Pathogens
T2  - Viruses
N2  - Bacteriophage research is gaining more importance due to increasing antibiotic resistance. However, for treatment with bacteriophages, diagnostics have to be improved. Bacteriophages carry adhesion proteins, which bind to the bacterial cell surface, for example tailspike proteins (TSP) for specific recognition of bacterial O-antigen polysaccharide. TSP are highly stable proteins and thus might be suitable components for the integration into diagnostic tools. We used the TSP of bacteriophage Sf6 to establish two applications for detecting Shigella flexneri (S. flexneri), a highly contagious pathogen causing dysentery. We found that Sf6TSP not only bound O-antigen of S. flexneri serotype Y, but also the glucosylated O-antigen of serotype 2a. Moreover, mass spectrometry glycan analyses showed that Sf6TSP tolerated various O-acetyl modifications on these O-antigens. We established a microtiter plate-based ELISA like tailspike adsorption assay (ELITA) using a Strep-tag®II modified Sf6TSP. As sensitive screening alternative we produced a fluorescently labeled Sf6TSP via coupling to an environment sensitive dye. Binding of this probe to the S. flexneri O-antigen Y elicited a fluorescence intensity increase of 80% with an emission maximum in the visible light range. The Sf6TSP probes thus offer a promising route to a highly specific and sensitive bacteriophage TSP-based Shigella detection system.
T3  - Zweitveröffentlichungen der Universität Potsdam : Mathematisch-Naturwissenschaftliche Reihe - 472 
KW  - Shigella flexneri
KW  - bacteriophage
KW  - tailspike proteins
KW  - O-antigen
KW  - serotyping
KW  - microtiter plate assay
KW  - fluorescence sensor
Y1  - 2018
U6  - http://nbn-resolving.de/urn/resolver.pl?urn:nbn:de:kobv:517-opus4-417831
ER  - 
TY  - JOUR
A1  - Kunstmann, Ruth Sonja
A1  - Scheidt, Tom
A1  - Buchwald, Saskia
A1  - Helm, Alexandra
A1  - Mulard, Laurence A.
A1  - Fruth, Angelika
A1  - Barbirz, Stefanie
T1  - Bacteriophage Sf6 Tailspike Protein for Detection of Shigella flexneri Pathogens
JF  - Viruses
N2  - Bacteriophage research is gaining more importance due to increasing antibiotic resistance. However, for treatment with bacteriophages, diagnostics have to be improved. Bacteriophages carry adhesion proteins, which bind to the bacterial cell surface, for example tailspike proteins (TSP) for specific recognition of bacterial O-antigen polysaccharide. TSP are highly stable proteins and thus might be suitable components for the integration into diagnostic tools. We used the TSP of bacteriophage Sf6 to establish two applications for detecting Shigella flexneri (S. flexneri), a highly contagious pathogen causing dysentery. We found that Sf6TSP not only bound O-antigen of S. flexneri serotype Y, but also the glucosylated O-antigen of serotype 2a. Moreover, mass spectrometry glycan analyses showed that Sf6TSP tolerated various O-acetyl modifications on these O-antigens. We established a microtiter plate-based ELISA like tailspike adsorption assay (ELITA) using a Strep-tag®II modified Sf6TSP. As sensitive screening alternative we produced a fluorescently labeled Sf6TSP via coupling to an environment sensitive dye. Binding of this probe to the S. flexneri O-antigen Y elicited a fluorescence intensity increase of 80% with an emission maximum in the visible light range. The Sf6TSP probes thus offer a promising route to a highly specific and sensitive bacteriophage TSP-based Shigella detection system.
KW  - Shigella flexneri
KW  - bacteriophage
KW  - tailspike proteins
KW  - O-antigen
KW  - serotyping
KW  - microtiter plate assay
KW  - fluorescence sensor
Y1  - 2018
U6  - https://doi.org/10.3390/v10080431
SN  - 1999-4915
VL  - 10
IS  - 8
SP  - 1
EP  - 18
PB  - Molecular Diversity Preservation International (MDPI)
CY  - Basel
ER  - 
TY  - GEN
A1  - Nagel, Rebecca
A1  - Kirschbaum, Frank
A1  - Hofmann, Volker
A1  - Engelmann, Jacob
A1  - Tiedemann, Ralph
T1  - Electric pulse characteristics can enable species recognition in African weakly electric fish species
T2  - Scientific Reports
N2  - Communication is key to a wide variety of animal behaviours and multiple modalities are often involved in this exchange of information from sender to receiver. The communication of African weakly electric fish, however, is thought to be predominantly unimodal and is mediated by their electric sense, in which species-specific electric organ discharges (EODs) are generated in a context-dependent and thus variable sequence of pulse intervals (SPI). While the primary function of the electric sense is considered to be electrolocation, both of its components likely carry information regarding identity of the sender. However, a clear understanding of their contribution to species recognition is incomplete. We therefore analysed these two electrocommunication components (EOD waveform and SPI statistics) in two sympatric mormyrid Campylomormyrus species. In a set of five playback conditions, we further investigated which components may drive interspecific recognition and discrimination. While we found that both electrocommunication components are species-specific, the cues necessary for species recognition differ between the two species studied. While the EOD waveform and SPI were both necessary and sufficient for species recognition in C. compressirostris males, C. tamandua males apparently utilize other, non-electric modalities. Mapped onto a recent phylogeny, our results suggest that discrimination by electric cues alone may be an apomorphic trait evolved during a recent radiation in this taxon.
T3  - Zweitveröffentlichungen der Universität Potsdam : Mathematisch-Naturwissenschaftliche Reihe - 470 
KW  - Dwelling Atlantic Mollies
KW  - Organ Discharge Patterns
KW  - Mormyrid Fish
KW  - Pollimyrus-Isidori
KW  - Acoustic-Signals
KW  - Sexual Selection
KW  - Phylogenetic-Relationships
KW  - Hypopomus-Occidentalis
KW  - Convergent Evolution
KW  - Poecili-Mexicana
Y1  - 2018
U6  - http://nbn-resolving.de/urn/resolver.pl?urn:nbn:de:kobv:517-opus4-417577
ER  - 
TY  - JOUR
A1  - Nagel, Rebecca
A1  - Kirschbaum, Frank
A1  - Hofmann, Volker
A1  - Engelmann, Jacob
A1  - Tiedemann, Ralph
T1  - Electric pulse characteristics can enable species recognition in African weakly electric fish species
JF  - Scientific Reports
N2  - Communication is key to a wide variety of animal behaviours and multiple modalities are often involved in this exchange of information from sender to receiver. The communication of African weakly electric fish, however, is thought to be predominantly unimodal and is mediated by their electric sense, in which species-specific electric organ discharges (EODs) are generated in a context-dependent and thus variable sequence of pulse intervals (SPI). While the primary function of the electric sense is considered to be electrolocation, both of its components likely carry information regarding identity of the sender. However, a clear understanding of their contribution to species recognition is incomplete. We therefore analysed these two electrocommunication components (EOD waveform and SPI statistics) in two sympatric mormyrid Campylomormyrus species. In a set of five playback conditions, we further investigated which components may drive interspecific recognition and discrimination. While we found that both electrocommunication components are species-specific, the cues necessary for species recognition differ between the two species studied. While the EOD waveform and SPI were both necessary and sufficient for species recognition in C. compressirostris males, C. tamandua males apparently utilize other, non-electric modalities. Mapped onto a recent phylogeny, our results suggest that discrimination by electric cues alone may be an apomorphic trait evolved during a recent radiation in this taxon.
KW  - Dwelling Atlantic Mollies
KW  - Organ Discharge Patterns
KW  - Mormyrid Fish
KW  - Pollimyrus-Isidori
KW  - Acoustic-Signals
KW  - Sexual Selection
KW  - Phylogenetic-Relationships
KW  - Hypopomus-Occidentalis
KW  - Convergent Evolution
KW  - Poecili-Mexicana
Y1  - 2018
U6  - https://doi.org/10.1038/s41598-018-29132-z
SN  - 2045-2322
VL  - 8
SP  - 1
EP  - 12
PB  - Nature Publishing Group
CY  - London
ER  - 
TY  - GEN
A1  - Broeker, Nina K.
A1  - Kiele, Franziska
A1  - Casjens, Sherwood R.
A1  - Gilcrease, Eddie B.
A1  - Thalhammer, Anja
A1  - Koetz, Joachim
T1  - In Vitro Studies of Lipopolysaccharide-Mediated DNA Release of Podovirus HK620
T2  - Viruses
N2  - Gram-negative bacteria protect themselves with an outermost layer containing lipopolysaccharide (LPS). O-antigen-specific bacteriophages use tailspike proteins (TSP) to recognize and cleave the O-polysaccharide part of LPS. However, O-antigen composition and structure can be highly variable depending on the environmental conditions. It is important to understand how these changes may influence the early steps of the bacteriophage infection cycle because they can be linked to changes in host range or the occurrence of phage resistance. In this work, we have analyzed how LPS preparations in vitro trigger particle opening and DNA ejection from the E. coli podovirus HK620. Fluorescence-based monitoring of DNA release showed that HK620 phage particles in vitro ejected their genome at velocities comparable to those found for other podoviruses. Moreover, we found that HK620 irreversibly adsorbed to the LPS receptor via its TSP at restrictive low temperatures, without opening the particle but could eject its DNA at permissive temperatures. DNA ejection was solely stimulated by LPS, however, the composition of the O-antigen dictated whether the LPS receptor could start the DNA release from E. coli phage HK620 in vitro. This finding can be significant when optimizing bacteriophage mixtures for therapy, where in natural environments O-antigen structures may rapidly change.
T3  - Zweitveröffentlichungen der Universität Potsdam : Mathematisch-Naturwissenschaftliche Reihe - 469 
KW  - O-antigen specific phage
KW  - podovirus
KW  - HK620
KW  - lipopolysaccharide
KW  - in vitro particle opening
KW  - tailspike protein
Y1  - 2018
U6  - http://nbn-resolving.de/urn/resolver.pl?urn:nbn:de:kobv:517-opus4-417493
ER  - 
TY  - JOUR
A1  - Broeker, Nina K.
A1  - Kiele, Franziska
A1  - Casjens, Sherwood R.
A1  - Gilcrease, Eddie B.
A1  - Thalhammer, Anja
A1  - Koetz, Joachim
T1  - In Vitro Studies of Lipopolysaccharide-Mediated DNA Release of Podovirus HK620
JF  - Viruses
N2  - Gram-negative bacteria protect themselves with an outermost layer containing lipopolysaccharide (LPS). O-antigen-specific bacteriophages use tailspike proteins (TSP) to recognize and cleave the O-polysaccharide part of LPS. However, O-antigen composition and structure can be highly variable depending on the environmental conditions. It is important to understand how these changes may influence the early steps of the bacteriophage infection cycle because they can be linked to changes in host range or the occurrence of phage resistance. In this work, we have analyzed how LPS preparations in vitro trigger particle opening and DNA ejection from the E. coli podovirus HK620. Fluorescence-based monitoring of DNA release showed that HK620 phage particles in vitro ejected their genome at velocities comparable to those found for other podoviruses. Moreover, we found that HK620 irreversibly adsorbed to the LPS receptor via its TSP at restrictive low temperatures, without opening the particle but could eject its DNA at permissive temperatures. DNA ejection was solely stimulated by LPS, however, the composition of the O-antigen dictated whether the LPS receptor could start the DNA release from E. coli phage HK620 in vitro. This finding can be significant when optimizing bacteriophage mixtures for therapy, where in natural environments O-antigen structures may rapidly change.
KW  - O-antigen specific phage
KW  - podovirus
KW  - HK620
KW  - lipopolysaccharide
KW  - in vitro particle opening
KW  - tailspike protein
Y1  - 2018
U6  - https://doi.org/10.3390/v10060289
SN  - 1999-4915
VL  - 10
IS  - 6
SP  - 1
EP  - 15
PB  - Molecular Diversity Preservation International (MDPI)
CY  - Basel
ER  - 
TY  - GEN
A1  - Scherer, Ulrike
A1  - Tiedemann, Ralph
A1  - Schlupp, Ingo
T1  - Male size, not female preferences influence female reproductive success in a poeciliid fish (Poecilia latipinna)
BT  - a combined behavioural/genetic approach
T2  - BMC Research Notes
N2  - Objective

We investigated the potential role of indirect benefits for female mate preferences in a highly promiscuous species of live-bearing fishes, the sailfin molly Poecilia latipinna using an integrative approach that combines methods from animal behavior, life-history evolution, and genetics. Males of this species solely contribute sperm for reproduction, and consequently females do not receive any direct benefits. Despite this, females typically show clear mate preferences. It has been suggested that females can increase their reproductive success through indirect benefits from choosing males of higher quality.

Results

Although preferences for large body size have been recorded as an honest signal for genetic quality, this particular study resulted in female preference being unaffected by male body size. Nonetheless, larger males did sire more offspring, but with no effect on offspring quality. This study presents a methodical innovation by combining preference testing with life history measurements—such as the determination of the dry weight of fish embryos—and paternity analyses on single fish embryos.
T3  - Zweitveröffentlichungen der Universität Potsdam : Mathematisch-Naturwissenschaftliche Reihe - 468 
KW  - Fitness
KW  - Life history
KW  - Mate choice
KW  - Microsatellite analysis
KW  - Offspring weight
KW  - Paternity analysis
KW  - Sailfin molly
KW  - Sexual selection
Y1  - 2018
U6  - http://nbn-resolving.de/urn/resolver.pl?urn:nbn:de:kobv:517-opus4-417471
ER  - 
TY  - JOUR
A1  - Scherer, Ulrike
A1  - Tiedemann, Ralph
A1  - Schlupp, Ingo
T1  - Male size, not female preferences influence female reproductive success in a poeciliid fish (Poecilia latipinna)
BT  - a combined behavioural/genetic approach
JF  - BMC Research Notes
N2  - Objective

We investigated the potential role of indirect benefits for female mate preferences in a highly promiscuous species of live-bearing fishes, the sailfin molly Poecilia latipinna using an integrative approach that combines methods from animal behavior, life-history evolution, and genetics. Males of this species solely contribute sperm for reproduction, and consequently females do not receive any direct benefits. Despite this, females typically show clear mate preferences. It has been suggested that females can increase their reproductive success through indirect benefits from choosing males of higher quality.

Results

Although preferences for large body size have been recorded as an honest signal for genetic quality, this particular study resulted in female preference being unaffected by male body size. Nonetheless, larger males did sire more offspring, but with no effect on offspring quality. This study presents a methodical innovation by combining preference testing with life history measurements—such as the determination of the dry weight of fish embryos—and paternity analyses on single fish embryos.
KW  - Fitness
KW  - Life history
KW  - Mate choice
KW  - Microsatellite analysis
KW  - Offspring weight
KW  - Paternity analysis
KW  - Sailfin molly
KW  - Sexual selection
Y1  - 2018
U6  - https://doi.org/10.1186/s13104-018-3487-2
SN  - 1756-0500
VL  - 11
IS  - 364
SP  - 1
EP  - 5
PB  - Biomed Central
CY  - London
ER  - 
TY  - GEN
A1  - Ehrlich, Elias
A1  - Gaedke, Ursula
T1  - Not attackable or not crackable
BT  - How pre-and post-attack defenses with different competition costs affect prey coexistence and population dynamics
T2  - Ecology and Evolution
N2  - It is well-known that prey species often face trade-offs between defense against predation and competitiveness, enabling predator-mediated coexistence. However, we lack an understanding of how the large variety of different defense traits with different competition costs affects coexistence and population dynamics. Our study focusses on two general defense mechanisms, that is, pre-attack (e.g., camouflage) and post-attack defenses (e.g., weaponry) that act at different phases of the predator—prey interaction. We consider a food web model with one predator, two prey types and one resource. One prey type is undefended, while the other one is pre-or post-attack defended paying costs either by a higher half-saturation constant for resource uptake or a lower maximum growth rate. We show that post-attack defenses promote prey coexistence and stabilize the population dynamics more strongly than pre-attack defenses by interfering with the predator’s functional response: Because the predator spends time handling “noncrackable” prey, the undefended prey is indirectly
facilitated. A high half-saturation constant as defense costs promotes coexistence more and stabilizes the dynamics less than a low maximum growth rate. The former imposes high costs at low resource concentrations but allows for temporally high growth rates at predator-induced resource peaks preventing the extinction of the defended prey. We evaluate the effects of the different defense mechanisms and costs on coexistence under different enrichment levels in order to vary the importance of bottom-up and top-down control of the prey community.
T3  - Zweitveröffentlichungen der Universität Potsdam : Mathematisch-Naturwissenschaftliche Reihe - 466 
KW  - coexistence
KW  - competition–defense trade‐off
KW  - defense against predation
KW  - functional response
KW  - indirect facilitation
KW  - predator–prey cycles
Y1  - 2018
U6  - http://nbn-resolving.de/urn/resolver.pl?urn:nbn:de:kobv:517-opus4-417391
ER  -