Assessing alcohol and nicotine co-consumption in mice

In the last two decades, the widespread application of genetic and genomic approaches has revealed a bacterial world astonishing in its ubiquity and diversity. This review examines how a growing knowledge of the vast range of animal–bacterial interactions, whether in shared ecosystems or intimate symbioses, is fundamentally altering our understanding of animal biology. Specifically, we highlight recent technological and intellectual advances that have changed our thinking about five questions: how have bacteria facilitated the origin and evolution of animals; how do animals and bacteria affect each other’s genomes; how does normal animal development depend on bacterial partners; how is homeostasis maintained between animals and their symbionts; and how can ecological approaches deepen our understanding of the multiple levels of animal–bacterial interaction. As answers to these fundamental questions emerge, all biologists will be challenged to broaden their appreciation of these interactions and to include investigations of the relationships between and among bacteria and their animal partners as we seek a better understanding of the natural world

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The dynamic genome of Hydra

Chapman

Kirkness

Simakov

et al. 2010

Nature

734

721

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The freshwater cnidarian Hydra was first described in 17021 and has been the object of study for 300 years. Experimental studies of Hydra between 1736 and 1744 culminated in the discovery of asexual reproduction of an animal by budding, the first description of regeneration in an animal, and successful transplantation of tissue between animals2. Today, Hydra is an important model for studies of axial patterning3, stem cell biology4 and regeneration5. Here we report the genome of Hydra magnipapillata and compare it to the genomes of the anthozoan Nematostella vectensis6 and other animals. The Hydra genome has been shaped by bursts of transposable element expansion, horizontal gene transfer, trans-splicing, and simplification of gene structure and gene content that parallel simplification of the Hydra life cycle. We also report the sequence of the genome of a novel bacterium stably associated with H. magnipapillata. Comparisons of the Hydra genome to the genomes of other animals shed light on the evolution of epithelia, contractile tissues, developmentally regulated transcription factors, the Spemann–Mangold organizer, pluripotency genes and the neuromuscular junction.

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More than just orphans: are taxonomically-restricted genes important in evolution?

et al. 2009

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The innate immune repertoire in Cnidaria - ancestral complexity and stochastic gene loss

et al. 2007

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Distinct antimicrobial peptide expression determines host species-specific bacterial associations

Franzenburg

Walter

Künzel

et al. 2013

Proc. Natl. Acad. Sci. U.S.A.

264

287

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Animals are colonized by coevolved bacterial communities, which contribute to the host's health. This commensal microbiota is often highly specific to its host-species, inferring strong selective pressures on the associated microbes. Several factors, including diet, mucus composition, and the immune system have been proposed as putative determinants of host-associated bacterial communities. Here we report that species-specific antimicrobial peptides account for different bacterial communities associated with closely related species of the cnidarian Hydra. Gene family extensions for potent antimicrobial peptides, the arminins, were detected in four Hydra species, with each species possessing a unique composition and expression profile of arminins. For functional analysis, we inoculated arminin-deficient and control polyps with bacterial consortia characteristic for different Hydra species and compared their selective preferences by 454 pyrosequencing of the bacterial microbiota. In contrast to control polyps, arminin-deficient polyps displayed decreased potential to select for bacterial communities resembling their native microbiota. This finding indicates that species-specific antimicrobial peptides shape species-specific bacterial associations.host-microbe | Cnidaria | phylosymbiotic | core microbiota | holobiont

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Long-term maintenance of species-specific bacterial microbiota in the basal metazoan Hydra

Fraune

Bosch

2007

Proc. Natl. Acad. Sci. U.S.A.

294

274

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Epithelia in animals are colonized by complex communities of microbes. Although a topic of long-standing interest, understanding the evolution of the microbial communities and their role in triggering innate immune responses has resisted analysis. Cnidaria are among the simplest animals at the tissue grade of organization. To obtain a better understanding of the microbiota associated with phylogenetically ancient epithelia, we have identified the epibiotic and endosymbiotic bacteria of two species of the cnidarian Hydra on the basis of rRNA comparisons. We analyzed individuals of Hydra oligactis and Hydra vulgaris from both laboratory cultures and the wild. We discovered that individuals from both species differ greatly in their bacterial microbiota. Although H. vulgaris polyps have a quite diverse microbiota, H. oligactis appears to be associated with only a limited number of microbes; some of them were found, unexpectedly, to be endosymbionts. Surprisingly, the microfauna showed similar characteristics in individuals of cultures maintained in the laboratory for >30 years and polyps directly isolated from the wild. The significant differences in the microbial communities between the two species and the maintenance of specific microbial communities over long periods of time strongly indicate distinct selective pressures imposed on and within the epithelium. Our analysis suggests that the Hydra epithelium actively selects and shapes its microbial community.endosymbiosis ͉ epithelial defense ͉ innate immunity ͉ microbial community ͉ host-microbe interaction E pithelia of all animals are colonized by complex communities of microbes (1). Different epithelia within one organism have different microbial communities (2). Perturbations and imbalances in this usually beneficial relationship underlie many human diseases. In the absence of bacterial colonization, germfree animals display defects in the ability to fight infections by pathogenic bacteria and viruses (3). The mechanisms, which mediate the interdependent and complex interactions within microbial communities and the host epithelium as well as the influence of the microbiota on immune functions, are not yet discovered. Molecular analysis of the bacterial microbiota in the human stomach (2) recently uncovered an unprecedented bacterial diversity that is different from the bacteria found in mouth or esophagus. In a reciprocal transplantation experiment with the microbial community of mice and zebrafish, evidence was provided (4) that the gut epithelium is actively shaping the microbiota. To recognize and manage these complex communities of microbes, vertebrates, in contrast to invertebrates, are thought (5) to have evolved adaptive immunity.The microbiota living on or in invertebrate epithelia and their influence on the host immune system are largely unknown. Are there identifiable core microbiota associated with a given host species? How are the microbiota selected, and how did they evolve within and between hosts? Here we characterize bacterial diversity within ...

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Transgenic Hydra allow in vivo tracking of individual stem cells during morphogenesis

Wittlieb

Khalturin

Lohmann

et al. 2006

Proc. Natl. Acad. Sci. U.S.A.

284

254

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Understanding the evolution of development in large part relies on the study of phylogenetically old organisms. Cnidarians, such as Hydra, have become attractive model organisms for these studies. However, despite long-term efforts, stably transgenic animals could not be generated, severely limiting the functional analysis of genes. Here we report the efficient generation of transgenic Hydra lines by embryo microinjection. One of these transgenic lines expressing EGFP revealed remarkably high motility of individual endodermal epithelial cells during morphogenesis. We expect that transgenic Hydra will become important tools to dissect the molecular mechanisms of development at the base of the Metazoan tree.EGFP

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Metaorganisms as the new frontier

Bosch

McFall‐Ngai

2011

Zoology

337

251

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Summary Because it appears that almost all organisms are part of an interdependent meta-organism, an understanding of the underlying host-microbe species associations, and of its evolution and molecular underpinnings, has become the new frontier in zoology. The availability of novel highthroughput sequencing methods together with the conceptual understanding that advances mostly originate at the intersection of traditional disciplinary boundaries, enable biologists to dissect the mechanisms that control the interdependent associations of species. In this perspective article, we outline some of the issues in interspecies interactions, present two case studies illuminating the necessity of interfacial research when addressing complex and fundamental zoological problems, and show that an interdisciplinary approach that seeks to understand co-evolved multi-species relationships will connect genomes, phenotypes, ecosystems and the evolutionary forces that have shaped them. We hope that this article inspires other collaborations of a similar nature on the diverse landscape commonly referred to as “zoology”.

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Thomas C. G. Bosch

Animals in a bacterial world, a new imperative for the life sciences

The dynamic genome of Hydra

More than just orphans: are taxonomically-restricted genes important in evolution?

The innate immune repertoire in Cnidaria - ancestral complexity and stochastic gene loss

Distinct antimicrobial peptide expression determines host species-specific bacterial associations

Long-term maintenance of species-specific bacterial microbiota in the basal metazoan Hydra

Transgenic Hydra allow in vivo tracking of individual stem cells during morphogenesis

Metaorganisms as the new frontier

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