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2. Time me by the moon: The evolution and function of lunar timing systems.

Author

Ritter, Andrés and Tessmar-Raible, Kristin

Abstract

The moon has significant impact on the timing of organisms. Can the study of molecular timing mechanisms of marine animals and algae help to understand some of the "weird" correlations between human physiological/behavioral rhythms and the lunar cycle? [ABSTRACT FROM AUTHOR]

Published
2024
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7. Molecular circadian rhythms are robust in marine annelids lacking rhythmic behavior.

Author

Häfker, N. Sören, Holcik, Laurenz, Mat, Audrey M., Ćorić, Aida, Vadiwala, Karim, Beets, Isabel, Stockinger, Alexander W., Atria, Carolina E., Hammer, Stefan, Revilla-i-Domingo, Roger, Schoofs, Liliane, Raible, Florian, and Tessmar-Raible, Kristin

Subjects
CIRCADIAN rhythms, ANNELIDA, MARINE worms, CLOCK genes, METABOLIC regulation, MOLECULAR clock
Abstract

The circadian clock controls behavior and metabolism in various organisms. However, the exact timing and strength of rhythmic phenotypes can vary significantly between individuals of the same species. This is highly relevant for rhythmically complex marine environments where organismal rhythmic diversity likely permits the occupation of different microenvironments. When investigating circadian locomotor behavior of Platynereis dumerilii, a model system for marine molecular chronobiology, we found strain-specific, high variability between individual worms. The individual patterns were maintained for several weeks. A diel head transcriptome comparison of behaviorally rhythmic versus arrhythmic wild-type worms showed that 24-h cycling of core circadian clock transcripts is identical between both behavioral phenotypes. While behaviorally arrhythmic worms showed a similar total number of cycling transcripts compared to their behaviorally rhythmic counterparts, the annotation categories of their transcripts, however, differed substantially. Consistent with their locomotor phenotype, behaviorally rhythmic worms exhibit an enrichment of cycling transcripts related to neuronal/behavioral processes. In contrast, behaviorally arrhythmic worms showed significantly increased diel cycling for metabolism- and physiology-related transcripts. The prominent role of the neuropeptide pigment-dispersing factor (PDF) in Drosophila circadian behavior prompted us to test for a possible functional involvement of Platynereis pdf. Differing from its role in Drosophila, loss of pdf impacts overall activity levels but shows only indirect effects on rhythmicity. Our results show that individuals arrhythmic in a given process can show increased rhythmicity in others. Across the Platynereis population, rhythmic phenotypes exist as a continuum, with no distinct "boundaries" between rhythmicity and arrhythmicity. We suggest that such diel rhythm breadth is an important biodiversity resource enabling the species to quickly adapt to heterogeneous or changing marine environments. In times of massive sequencing, our work also emphasizes the importance of time series and functional tests. Behavioral rhythmicity is often used as a readout for organismal rhythmicity. This study reports high individual diversity in circadian behavioral patterns in a marine annelid worm, showing that behavioral rhythmicity is not correlated with the relative fraction of cycling transcripts or with oscillations in core clock genes. [ABSTRACT FROM AUTHOR]

Published
2024
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8. Virtual reality for freely moving animals

Author

Stowers, John R, Hofbauer, Maximilian, Bastien, Renaud, Griessner, Johannes, Higgins, Peter, Farooqui, Sarfarazhussain, Fischer, Ruth M, Nowikovsky, Karin, Haubensak, Wulf, Couzin, Iain D, Tessmar-Raible, Kristin, and Straw, Andrew D

Published
2017
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10. A Fast And Versatile Method for Simultaneous HCR, Immunohistochemistry And Edu Labeling (SHInE).

Author

Ćorić, Aida, Stockinger, Alexander W, Schaffer, Petra, Rokvić, Dunja, Tessmar-Raible, Kristin, and Raible, Florian

Subjects
HISTOCOMPATIBILITY, IMMUNOHISTOCHEMISTRY, GENE expression, IN situ hybridization, INSPECTION & review
Abstract

Access to newer, fast, and cheap sequencing techniques, particularly on the single-cell level, have made transcriptomic data of tissues or single cells accessible to many researchers. As a consequence, there is an increased need for in situ visualization of gene expression or encoded proteins to validate, localize, or help interpret such sequencing data, as well as put them in context with cellular proliferation. A particular challenge for labeling and imaging transcripts are complex tissues that are often opaque and/or pigmented, preventing easy visual inspection. Here, we introduce a versatile protocol that combines in situ hybridization chain reaction, immunohistochemistry, and proliferative cell labeling using 5-ethynyl-2′-deoxyuridine, and demonstrate its compatibility with tissue clearing. As a proof-of-concept, we show that our protocol allows for the parallel analysis of cell proliferation, gene expression, and protein localization in bristleworm heads and trunks. [ABSTRACT FROM AUTHOR]

Published
2023
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20. Conserved Sensory-Neurosecretory Cell Types in Annelid and Fish Forebrain: Insights into Hypothalamus Evolution

Author

Tessmar-Raible, Kristin, Raible, Florian, Christodoulou, Foteini, Guy, Keren, Rembold, Martina, Hausen, Harald, and Arendt, Detlev

Subjects
Evolution, Biological sciences
Abstract

To link to full-text access for this article, visit this link: http://dx.doi.org/10.1016/j.cell.2007.04.041 Byline: Kristin Tessmar-Raible (1), Florian Raible (1)(2), Foteini Christodoulou (1), Keren Guy (1), Martina Rembold (1), Harald Hausen (3), Detlev Arendt (1) Keywords: DEVBIO; EVO_ECOL; RNA Abstract: Neurosecretory control centers form part of the forebrain in many animal phyla, including vertebrates, insects, and annelids. The evolutionary origin of these centers is largely unknown. To identify conserved, and thus phylogenetically ancient, components of neurosecretory brain centers, we characterize and compare neurons that express the prohormone vasotocin (vasopressin/oxytocin)-neurophysin in the developing forebrain of the annelid Platynereis dumerilii and of the zebrafish. These neurons express the same tissue-restricted microRNA, miR-7, and conserved, cell-type-specific combinations of transcription factors (nk2.1, rx, and otp) that specify their identity, as evidenced by the specific requirement of zebrafish rx3 for vasotocin-neurophysin expression. MiR-7 also labels another shared population of neurons containing RFamides. Since the vasotocinergic and RFamidergic neurons appear to be directly sensory in annelid and fish, we propose that cell types with dual sensory-neurosecretory properties were the starting point for the evolution of neurosecretory brain centers in Bilateria. Author Affiliation: (1) Developmental Biology Unit, European Molecular Biology Laboratory, MeyerhofstraAe 1, D-69012 Heidelberg, Germany (2) Computational Biology Unit, European Molecular Biology Laboratory, MeyerhofstraAe 1, D-69012 Heidelberg, Germany (3) Institut fur Biologie, FU Berlin, Konigin-Luisen-StraAe 1-3, D-14195 Berlin, Germany Article History: Received 3 August 2006; Revised 12 January 2007; Accepted 26 April 2007 Article Note: (miscellaneous) Published: June 28, 2007

Published
2007

22. Opsins and clusters of sensory G-protein-coupled receptors in the sea urchin genome

Author

Raible, Florian, Tessmar-Raible, Kristin, Arboleda, Enrique, Kaller, Tobias, Bork, Peer, Arendt, Detlev, and Arnone, Maria I.

Subjects
Genetic research -- Analysis, Genomics -- Analysis, Anopheles -- Analysis, Proteins -- Analysis, Biological sciences
Abstract

To link to full-text access for this article, visit this link: http://dx.doi.org/10.1016/j.ydbio.2006.08.070 Byline: Florian Raible (a)(b), Kristin Tessmar-Raible (b), Enrique Arboleda (c), Tobias Kaller (b)(d), Peer Bork (a), Detlev Arendt (b), Maria I. Arnone (c) Keywords: Sea urchin; Rhodopsin-type G-protein-coupled receptor (GPCR); Opsin; Surreal-GPCR; Gene cluster; Chemosensation; Olfaction; Pedicellariae, Tube feet Abstract: Rhodopsin-type G-protein-coupled receptors (GPCRs) contribute the majority of sensory receptors in vertebrates. With 979 members, they form the largest GPCR family in the sequenced sea urchin genome, constituting more than 3% of all predicted genes. The sea urchin genome encodes at least six Opsin proteins. Of these, one rhabdomeric, one ciliary and two G.sub.o-type Opsins can be assigned to ancient bilaterian Opsin subfamilies. Moreover, we identified four greatly expanded subfamilies of rhodopsin-type GPCRs that we call sea urchin specific rapidly expanded lineages of GPCRs (surreal-GPCRs). Our analysis of two of these groups revealed genomic clustering and single-exon gene structures similar to the most expanded group of vertebrate rhodopsin-type GPCRs, the olfactory receptors. We hypothesize that these genes arose by rapid duplication in the echinoid lineage and act as chemosensory receptors of the animal. In support of this, group B surreal-GPCRs are most prominently expressed in distinct classes of pedicellariae and tube feet of the adult sea urchin, structures that have previously been shown to react to chemical stimuli and to harbor sensory neurons in echinoderms. Notably, these structures also express different opsins, indicating that sea urchins possess an intricate molecular set-up to sense their environment. Author Affiliation: (a) Computational Unit, EMBL, 69117 Heidelberg, Germany (b) Developmental Unit, EMBL, 69117 Heidelberg, Germany (c) Stazione Zoologica Anton Dohrn, 80121 Napoli, Italy (d) FU Berlin, Institut fur Biologie, Chemie, Pharmazie, Zoologie, Evolution und Systematik der Tiere, 14195 Berlin, Germany Article History: Received 7 June 2006; Revised 28 August 2006; Accepted 30 August 2006

Published
2006

23. Direct interaction of geminin and Six3 in eye development

Author

Bene, Filippo Del, Tessmar-Raible, Kristin, and Wittbrodt, Joachim

Subjects
Environmental issues, Science and technology, Zoology and wildlife conservation
Abstract

Author(s): Filippo Del Bene; Kristin Tessmar-Raible; Joachim Wittbrodt (corresponding author) Organogenesis in vertebrates requires the tight control of cell proliferation and differentiation. The homeobox-containing transcription factor Six3 plays a pivotal [...]

Published
2004
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24. Two light sensors decode moonlight versus sunlight to adjust a plastic circadian/circalunidian clock to moon phase.

Author

Zurl, Martin, Poehn, Birgit, Rieger, Dirk, Krishnan, Shruthi, Rokvic, Dunja, Veedin Rajan, Vinoth Babu, Gerrard, Elliot, Schlichting, Matthias, Orel, Lukas, Ćorić, Aida, Lucas, Robert J., Wolf, Eva, Helfrich-Förster, Charlotte, Raible, Florian, and Tessmar-Raible, Kristin

Subjects
LUNAR phases, SUNSHINE, CRYPTOCHROMES, PLASTICS, DETECTORS, CRYPTOCURRENCIES
Abstract

Many species synchronize their physiology and behavior to specific hours. It is commonly assumed that sunlight acts as the main entrainment signal for ~24-h clocks. However, the moon provides similarly regular time information. Consistently, a growing number of studies have reported correlations between diel behavior and lunidian cycles. Yet, mechanistic insight into the possible influences of the moon on ~24-h timers remains scarce. We have explored the marine bristleworm Platynereis dumerilii to investigate the role of moonlight in the timing of daily behavior. We uncover that moonlight, besides its role in monthly timing, also schedules the exact hour of nocturnal swarming onset to the nights' darkest times. Our work reveals that extended moonlight impacts on a plastic clock that exhibits <24 h (moonlit) or >24 h (no moon) periodicity. Abundance, light sensitivity, and genetic requirement indicate that the Platynereis light receptor molecule r-Opsin1 serves as a receptor that senses moonrise, whereas the cryptochrome protein L-Cry is required to discriminate the proper valence of nocturnal light as either moonlight or sunlight. Comparative experiments in Drosophila suggest that cryptochrome's principle requirement for light valence interpretation is conserved. Its exact biochemical properties differ, however, between species with dissimilar timing ecology. Our work advances the molecular understanding of lunar impact on fundamental rhythmic processes, including those of marine mass spawners endangered by anthropogenic change. [ABSTRACT FROM AUTHOR]

Published
2022
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28. Ancestry of Photic and Mechanic Sensation?

Author

Fritzsch, Bernd, Piatigorsky, Joram, Tessmar-Raible, Kristin, Jékely, Gáspár, Guy, Keren, Raible, Florian, Wittbrodt, Joachim, and Arendt, Detlev

Published
2005

31. Characterization of tmt-opsin2 in Medaka Fish Provides Insight Into the Interplay of Light and Temperature for Behavioral Regulation.

Author

Zekoll, Theresa, Waldherr, Monika, and Tessmar-Raible, Kristin

Subjects
TEMPERATURE control, ORYZIAS latipes, ANIMAL behavior, NEURAL circuitry, DEEP learning
Abstract

One of the big challenges in the study of animal behavior is to combine molecular-level questions of functional genetics with meaningful combinations of environmental stimuli. Light and temperature are important external cues, influencing the behaviors of organisms. Thus, understanding the combined effect of light and temperature changes on wild-type vs. genetically modified animals is a first step to understand the role of individual genes in the ability of animals to cope with changing environments. Many behavioral traits can be extrapolated from behavioral tests performed from automated motion tracking combined with machine learning. Acquired datasets, typically complex and large, can be challenging for subsequent quantitative analyses. In this study, we investigate medaka behavior of tmt-opsin2 mutants vs. corresponding wild-types under different light and temperature conditions using automated tracking combined with a convolutional neuronal network and a Hidden Markov model-based approach. The temperatures in this study can occur in summer vs. late spring/early autumn in the natural habitat of medaka fish. Under summer-like temperature, tmt-opsin2 mutants did not exhibit changes in overall locomotion, consistent with previous observations. However, detailed analyses of fish position revealed that the tmt-opsin2 mutants spent more time in central locations of the dish, possibly because of decreased anxiety. Furthermore, a clear difference in location and overall movement was obvious between the mutant and wild-types under colder conditions. These data indicate a role of tmt-opsin2 in behavioral adjustment, at least in part possibly depending on the season. [ABSTRACT FROM AUTHOR]

Published
2021
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33. Timing strains of the marine insect Clunio marinus diverged and persist with gene flow.

Author

Kaiser, Tobias S., von Haeseler, Arndt, Tessmar‐Raible, Kristin, and Heckel, David G.

Subjects
GENE flow, COLONIZATION (Ecology), NEW moon, FULL moon, ADULT development, SYMPATRIC speciation, CULICOIDES, CHIRONOMUS riparius
Abstract

Genetic divergence of populations in the presence of gene flow is a central theme in speciation research. Theory predicts that divergence can happen with full range overlap – in sympatry – driven by ecological factors, but there are few empirical examples of how ecologically divergent selection can overcome gene flow and lead to reproductive isolation. In the marine midge Clunio marinus (Diptera: Chironomidae) reproduction is ecologically restricted to the time of the lowest tides, which is ensured through accurate control of development and adult emergence by circalunar and circadian clocks. As tidal regimes differ along the coastline, locally adapted timing strains of C. marinus are found in different sites across Europe. At the same time, ecologically suitable low tides occur at both full and new moon and twice a day, providing C. marinus with four nonoverlapping temporal niches at every geographic location. Along the coast of Brittany, which is characterized by a steep gradient in timing of the tides, we found an unusually large number of differentially adapted timing strains, and the first known instances of sympatric C. marinus strains occupying divergent temporal niches. Analysis of mitochondrial genotypes suggests that these timing strains originated from a single recent colonization event. Nuclear genotypes show strong gene flow, sympatric timing strains being the least differentiated. Even when sympatric strains exist in nonoverlapping temporal niches, timing adaptations do not result in genome‐wide genetic divergence, suggesting timing adaptations are maintained by permanent ecological selection. This constitutes a model case for incipient ecological divergence with gene flow. [ABSTRACT FROM AUTHOR]

Published
2021
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34. TMT-Opsins differentially modulate medaka brain function in a context-dependent manner.

Author

Fontinha, Bruno M., Zekoll, Theresa, Al-Rawi, Mariam, Gallach, Miguel, Reithofer, Florian, Barker, Alison J., Hofbauer, Maximilian, Fischer, Ruth M., von Haeseler, Arndt, Baier, Herwig, and Tessmar-Raible, Kristin

Subjects
ORYZIAS latipes, OPSINS, SODIUM channels, SPECTRAL sensitivity, BEHAVIOR
Abstract

Vertebrate behavior is strongly influenced by light. Light receptors, encoded by functional opsin proteins, are present inside the vertebrate brain and peripheral tissues. This expression feature is present from fishes to human and appears to be particularly prominent in diurnal vertebrates. Despite their conserved widespread occurrence, the nonvisual functions of opsins are still largely enigmatic. This is even more apparent when considering the high number of opsins. Teleosts possess around 40 opsin genes, present from young developmental stages to adulthood. Many of these opsins have been shown to function as light receptors. This raises the question of whether this large number might mainly reflect functional redundancy or rather maximally enables teleosts to optimally use the complex light information present under water. We focus on tmt-opsin1b and tmt-opsin2, c-opsins with ancestral-type sequence features, conserved across several vertebrate phyla, expressed with partly similar expression in non-rod, non-cone, non-retinal-ganglion-cell brain tissues and with a similar spectral sensitivity. The characterization of the single mutants revealed age- and light-dependent behavioral changes, as well as an impact on the levels of the preprohormone sst1b and the voltage-gated sodium channel subunit scn12aa. The amount of daytime rest is affected independently of the eyes, pineal organ, and circadian clock in tmt-opsin1b mutants. We further focused on daytime behavior and the molecular changes in tmt-opsin1b/2 double mutants, and found that—despite their similar expression and spectral features—these opsins interact in part nonadditively. Specifically, double mutants complement molecular and behavioral phenotypes observed in single mutants in a partly age-dependent fashion. Our work provides a starting point to disentangle the highly complex interactions of vertebrate nonvisual opsins, suggesting that tmt-opsin-expressing cells together with other visual and nonvisual opsins provide detailed light information to the organism for behavioral fine-tuning. This work also provides a stepping stone to unravel how vertebrate species with conserved opsins, but living in different ecological niches, respond to similar light cues and how human-generated artificial light might impact on behavioral processes in natural environments. Why do teleosts possess more than 40 opsins, many expressed outside the eyes? This study reveals that combined loss of two non-visual opsins rescues the effects of their individual losses on behavior, and on brain levels of the pre-pro-hormone sst1b and a voltage-gated sodium channel subunit. This implicates tmt-opsin-expressing cells, together with other opsins, in behavioral fine-tuning, dependent on ambient light. [ABSTRACT FROM AUTHOR]

Published
2021
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35. Differential Impacts of the Head on Platynereis dumerilii Peripheral Circadian Rhythms.

Author

Arboleda, Enrique, Zurl, Martin, Waldherr, Monika, and Tessmar-Raible, Kristin

Subjects
CIRCADIAN rhythms, CLOCK genes, MARINE worms, DROSOPHILA melanogaster, MICE
Abstract

The marine bristle worm Platynereis dumerilii is a useful functional model system for the study of the circadian clock and its interplay with others, e.g., circalunar clocks. The focus has so far been on the worm's head. However, behavioral and physiological cycles in other animals typically arise from the coordination of circadian clocks located in the brain and in peripheral tissues. Here, we focus on peripheral circadian rhythms and clocks, revisit and expand classical circadian work on the worm's chromatophores, investigate locomotion as read-out and include molecular analyses. We establish that different pieces of the trunk exhibit synchronized, robust oscillations of core circadian clock genes. These circadian core clock transcripts are under strong control of the light-dark cycle, quickly losing synchronized oscillation under constant darkness, irrespective of the absence or presence of heads. Different wavelengths are differently effective in controlling the peripheral molecular synchronization. We have previously shown that locomotor activity is under circadian clock control. Here, we show that upon decapitation worms exhibit strongly reduced activity levels. While still following the light-dark cycle, locomotor rhythmicity under constant darkness is less clear. We also observe the rhythmicity of pigments in the worm's individual chromatophores, confirming their circadian pattern. These size changes continue under constant darkness, but cannot be re-entrained by light upon decapitation. Our works thus provides the first basic characterization of the peripheral circadian clock of P. dumerilii. In the absence of the head, light is essential as a major synchronization cue for peripheral molecular and locomotor circadian rhythms, while circadian changes in chromatophore size can continue for several days in the absence of light/dark changes and the head. Thus, in Platynereis the dependence on the head depends on the type of peripheral rhythm studied. These data show that peripheral circadian rhythms and clocks should also be considered in "non-conventional" molecular model systems, i.e., outside Drosophila melanogaster , Danio rerio , and Mus musculus , and build a basic foundation for future investigations of interactions of clocks with different period lengths in marine organisms. [ABSTRACT FROM AUTHOR]

Published
2019
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36. A Go-type opsin mediates the shadow reflex in the annelid <italic>Platynereis dumerilii</italic>.

Author

Ayers, Thomas, Tsukamoto, Hisao, Gühmann, Martin, Veedin Rajan, Vinoth Babu, and Tessmar-Raible, Kristin

Subjects
PLATYNEREIS dumerilii, OPSINS, PHOTORECEPTORS, REFLEXES, GENE knockout
Abstract

Background: The presence of photoreceptive molecules outside the eye is widespread among animals, yet their functions in the periphery are less well understood. Marine organisms, such as annelid worms, exhibit a 'shadow reflex', a defensive withdrawal behaviour triggered by a decrease in illumination. Herein, we examine the cellular and molecular underpinnings of this response, identifying a role for a photoreceptor molecule of the Go-opsin class in the shadow response of the marine bristle worm Platynereis dumerilii. Results: We found Pdu-Go-opsin1 expression in single specialised cells located in adult Platynereis head and trunk appendages, known as cirri. Using gene knock-out technology and ablation approaches, we show that the presence of Go-opsin1 and the cirri is necessary for the shadow reflex. Consistently, quantification of the shadow reflex reveals a chromatic dependence upon light of approximately 500 nm in wavelength, matching the photoexcitation characteristics of the Platynereis Go-opsin1. However, the loss of Go-opsin1 does not abolish the shadow reflex completely, suggesting the existence of a compensatory mechanism, possibly acting through a ciliary-type opsin, Pdu-c-opsin2, with a Lambdamax of approximately 490 nm. Conclusions: We show that a Go-opsin is necessary for the shadow reflex in a marine annelid, describing a functional example for a peripherally expressed photoreceptor, and suggesting that, in different species, distinct opsins contribute to varying degrees to the shadow reflex. [ABSTRACT FROM AUTHOR]

Published
2018
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37. An Overview of Monthly Rhythms and Clocks.

Author

Raible, Florian, Hiroki Takekata, and Tessmar-Raible, Kristin

Subjects
BIOLOGICAL rhythms, REPRODUCTION
Abstract

Organisms have evolved to cope with geophysical cycles of different period lengths. In this review, we focus on the adaptations of animals to the lunar cycle, specifically, on the occurrence of biological rhythms with monthly (circalunar) or semi-monthly (circasemilunar) period lengths. Systematic experimental investigation, starting in the early twentieth century, has allowed scientists to distinguish between mythological belief and scientific facts concerning the influence of the lunar cycle on animals. These studies revealed that marine animals of various taxa exhibit circalunar or circasemilunar reproductive rhythms. Some of these rely on endogenous oscillators (circalunar or circasemilunar clocks), whereas others are directly driven by external cues, such as the changes in nocturnal illuminance. We review current insight in the molecular and cellular mechanisms involved in circalunar rhythms, focusing on recent work in corals, annelid worms, midges, and fishes. In several of these model systems, the transcript levels of some core circadian clock genes are affected by both light and endogenous circalunar oscillations. How these and other molecular changes relate to the changes in physiology or behavior over the lunar cycle remains to be determined. We further review the possible relevance of circalunar rhythms for terrestrial species, with a particular focus on mammalian reproduction. Studies on circalunar rhythms of conception or birth rates extend to humans, where the lunar cycle was suggested to also affect sleep and mental health. While these reports remain controversial, factors like the increase in "light pollution" by artificial light might contribute to discrepancies between studies. We finally discuss the existence of circalunar oscillations in mammalian physiology. We speculate that these oscillations could be the remnant of ancient circalunar oscillators that were secondarily uncoupled from a natural entrainment mechanism, but still maintained relevance for structuring the timing of reproduction or physiology. The analysis and comparison of circalunar rhythms and clocks are currently challenging due to the heterogeneity of samples concerning species diversity, environmental conditions, and chronobiological conditions. We suggest that future research will benefit from the development of standardized experimental paradigms, and common principles for recording and reporting environmental conditions, especially light spectra and intensities. [ABSTRACT FROM AUTHOR]

Published
2017
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38. Instrument design and protocol for the study of light controlled processes in aquatic organisms, and its application to examine the effect of infrared light on zebrafish.

Author

Dekens, Marcus P. S., Foulkes, Nicholas S., and Tessmar-Raible, Kristin

Subjects
EFFECT of light on fishes, ZEBRA danio, AQUATIC organisms, ELECTROPHYSIOLOGY, PHOTORECEPTORS, EXPERIMENTAL design, BEHAVIOR
Abstract

The acquisition of reliable data strongly depends on experimental design. When studying the effects of light on processes such as behaviour and physiology it is crucial to maintain all environmental conditions constant apart from the one under study. Furthermore, the precise values of the environmental factors applied during the experiment should be known. Although seemingly obvious, these conditions are often not met when the effects of light are being studied. Here, we document and discuss the wavelengths and light intensities of natural and artificial light sources. We present standardised experimental protocols together with building plans of a custom made instrument designed to accurately control light and temperature for experiments using fresh water or marine species. Infrared light is commonly used for recording behaviour and in electrophysiological experiments although the properties of fish photoreceptors potentially allow detection into the far red. As an example of our experimental procedure we have applied our protocol and instrument to specifically test the impact of infrared light (840 nm) on the zebrafish circadian clock, which controls many aspects of behaviour, physiology and metabolism. We demonstrate that infrared light does not influence the zebrafish circadian clock. Our results help to provide a solid framework for the future study of light dependent processes in aquatic organisms. [ABSTRACT FROM AUTHOR]

Published
2017
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39. The Cryptochrome/Photolyase Family in aquatic organisms.

Author

Oliveri, Paola, Fortunato, Antonio E., Petrone, Libero, Ishikawa-Fujiwara, Tomoko, Kobayashi, Yuri, Todo, Takeshi, Antonova, Olga, Arboleda, Enrique, Zantke, Juliane, Tessmar-Raible, Kristin, and Falciatore, Angela

Abstract

Abstract: The Cryptochrome/Photolyase Family (CPF) represents an ancient group of widely distributed UV-A/blue-light sensitive proteins sharing common structures and chromophores. During the course of evolution, different CPFs acquired distinct functions in DNA repair, light perception and circadian clock regulation. Previous phylogenetic analyses of the CPF have allowed reconstruction of the evolution and distribution of the different CPF super-classes in the tree of life. However, so far only limited information is available from the CPF orthologs in aquatic organisms that evolved in environments harboring great diversity of life forms and showing peculiar light distribution and rhythms. To gain new insights into the evolutionary and functional relationships within the CPF family, we performed a detailed study of CPF members from marine (diatoms, sea urchin and annelid) and freshwater organisms (teleost) that populate diverse habitats and exhibit different life strategies. In particular, we first extended the CPF family phylogeny by including genes from aquatic organisms representative of several branches of the tree of life. Our analysis identifies four major super-classes of CPF proteins and importantly singles out the presence of a plant-like CRY in diatoms and in metazoans. Moreover, we show a dynamic evolution of Cpf genes in eukaryotes with various events of gene duplication coupled to functional diversification and gene loss, which have shaped the complex array of Cpf genes in extant aquatic organisms. Second, we uncover clear rhythmic diurnal expression patterns and light-dependent regulation for the majority of the analyzed Cpf genes in our reference species. Our analyses reconstruct the molecular evolution of the CPF family in eukaryotes and provide a solid foundation for a systematic characterization of novel light activated proteins in aquatic environments. [Copyright &y& Elsevier]

Published
2014
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40. Tools for Gene-Regulatory Analyses in the Marine Annelid Platynereis dumerilii.

Author

Backfisch, Benjamin, Kozin, Vitaly V., Kirchmaier, Stephan, Tessmar-Raible, Kristin, and Raible, Florian

Subjects
PLATYNEREIS dumerilii, ANNELIDA, GENETIC regulation, MOLECULAR genetics, GENE expression, BIOINFORMATICS
Abstract

The advent of high-throughput sequencing technology facilitates the exploration of a variety of reference species outside the few established molecular genetic model systems. Bioinformatic and gene expression analyses provide new ways for comparative analyses between species, for instance, in the field of evolution and development. Despite these advances, a critical bottleneck for the exploration of new model species remains the establishment of functional tools, such as the ability to experimentally express genes in specific cells of an organism. We recently established a first transgenic strain of the annelid Platynereis, using a Tc1/mariner-type Mos1 transposon vector. Here, we compare Mos1 with Tol2, a member of the hAT family of transposons. In Platynereis, Tol2-based constructs showed a higher frequency of nuclear genome insertion and sustained gene expression in the G0 generation. However, in contrast to Mos1-mediated transgenes, Tol2-mediated insertions failed to retain fluorescence in the G1 generation, suggesting a germ line-based silencing mechanism. Furthermore, we present three novel expression constructs that were generated by a simple fusion-PCR approach and allow either ubiquitous or cell-specific expression of a reporter gene. Our study indicates the versatility of Tol2 for transient transgenesis, and provides a template for transgenesis work in other emerging reference species. [ABSTRACT FROM AUTHOR]

Published
2014
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41. Evolution of clitellate phaosomes from rhabdomeric photoreceptor cells of polychaetes - a study in the leech Helobdella robusta (Annelida, Sedentaria, Clitellata).

Author

Döring, Carmen, Gosda, Jasmin, Tessmar-Raible, Kristin, Hausen, Harald, Arendt, Detlev, and Purschke, Günter

Subjects
CLITELLATA, POLYCHAETA, HELOBDELLA, PLANT vacuoles, PLANT photoreceptors, BIOINFORMATICS, METAZOA
Abstract

Introduction: In Annelida two types of photoreceptor cells (PRCs) are regarded as generally present, rhabdomeric and ciliary PRCs. In certain taxa, however, an additional type of PRC may occur, the so called phaosomal PRC. Whereas the former two types of PRCs are always organized as an epithelium with their sensory processes projecting into an extracellular cavity formed by the PRCs and (pigmented) supportive cells, phaosomes are seemingly intracellular vacuoles housing the sensory processes. Phaosomal PRCs are the only type of PRC found in one major annelid group, Clitellata. Several hypotheses have been put forward explaining the evolutionary origin of the clitellate phaosomes. To elucidate the evolution of clitellate PRC and eyes the leech Helobdella robusta, for which a sequenced genome is available, was chosen. Results: TEM observations showed that extraocular and ocular PRCs are structurally identical. Bioinformatic analyses revealed predictions for four opsin genes, three of which could be amplified. All belong to the rhabdomeric opsin family and phylogenetic analyses showed them in a derived position within annelid opsins. Gene expression studies showed two of them expressed in the eye and in the extraocular PRCs. Polychaete eye-typic key enzymes for ommochromme and pterin shading pigments synthesis are not expressed in leech eyes. Conclusions: By comparative gene-expression studies we herein provide strong evidence that the phaosomal PRCs typical of Clitellata are derived from the rhabdomeric PRCs characteristic for polychaete adult eyes. Thus, they represent a highly derived type of PRC that evolved in the stem lineage of Clitellata rather than another, primitive type of PRC in Metazoa. Evolution of these PRCs in Clitellata is related to a loss of the primary eyes and most of their photoreceptive elements except for the rhabdomeric PRCs. Most likely this happened while changing to an endobenthic mode of life. This hypothesis of PRC evolution is in accordance with a recently published phylogeny of Annelida based on phylogenomic data. The data provide a nice example how morphologically highly divergent light sensitive structures emerged from a standard type of photoreceptor cell. [ABSTRACT FROM AUTHOR]

Published
2013
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42. Co-Expression of VAL- and TMT-Opsins Uncovers Ancient Photosensory Interneurons and Motorneurons in the Vertebrate Brain.

Author

Fischer, Ruth M., Fontinha, Bruno M., Kirchmaier, Stephan, Steger, Julia, Bloch, Susanne, Inoue, Daigo, Panda, Satchidananda, Rumpel, Simon, and Tessmar-Raible, Kristin

Subjects
OPSINS, PROTEIN research, INTERNEURONS, NEURONS, BRAIN
Abstract

: Evolutionarily conserved, nonvisual opsins appear to endow specific interneurons and motorneurons of the vertebrate brain with light sensitivity, suggesting that environmental light may be able to modulate information processing. [ABSTRACT FROM AUTHOR]

Published
2013
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43. Three consecutive generations of nephridia occur during development of Platynereis dumerilii (Annelida, Polychaeta).

Author

Hasse, Christian, Rebscher, Nicole, Reiher, Wencke, Sobjinski, Kathrin, Moerschel, Erhard, Beck, Lothar, Tessmar-Raible, Kristin, Arendt, Detlev, and Hassel, Monika

Abstract

Molecular data for nephridial development in polychaetes are not available yet. The scope of our work was to establish a reference system for future investigations using two markers for nephridial development: β-tubulin as marker for cilia and alkaline phosphatase (AP) activity for secretory epithelia. The markers identified, unexpectedly, three consecutively forming generations of nephridia: (1) a transitory unciliated, but AP-positive head kidney, (2) a transitory larval nephridium, which undergoes a morphological transition from a protonephridium to a funnelled nephridium concomitant with the development of the coelomic cavity and finally, (3) the serially arranged metanephridia. The spatial arrangement of larval and definitive nephridia, revealed an up to now unknown developmental boundary between the synchronously forming larval and the serially proliferating definitive segments. Development of three consecutive sets of nephridia with different morphology and biochemical properties was unexpected and reveals an interesting multistep process in the development of excretory structures in Platynereis. Developmental Dynamics 239:1967-1976, 2010. © 2010 Wiley-Liss, Inc. [ABSTRACT FROM AUTHOR]

Published
2010
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44. The First Myriapod Genome Sequence Reveals Conservative Arthropod Gene Content and Genome Organisation in the Centipede Strigamia maritima

Author

Chipman, Ariel D., Ferrier, David E. K., Brena, Carlo, Qu, Jiaxin, Hughes, Daniel S. T., Schröder, Reinhard, Torres-Oliva, Montserrat, Znassi, Nadia, Jiang, Huaiyang, Almeida, Francisca C., Alonso, Claudio R., Apostolou, Zivkos, Aqrawi, Peshtewani, Arthur, Wallace, Barna, Jennifer C. J., Blankenburg, Kerstin P., Brites, Daniela, Capella-Gutiérrez, Salvador, Coyle, Marcus, Dearden, Peter K., Du Pasquier, Louis, Duncan, Elizabeth J., Ebert, Dieter, Eibner, Cornelius, Erikson, Galina, Evans, Peter D., Extavour, Cassandra G., Francisco, Liezl, Gabaldón, Toni, Gillis, William J., Goodwin-Horn, Elizabeth A., Green, Jack E., Griffiths-Jones, Sam, Grimmelikhuijzen, Cornelis J. P., Gubbala, Sai, Guigó, Roderic, Han, Yi, Hauser, Frank, Havlak, Paul, Hayden, Luke, Helbing, Sophie, Holder, Michael, Hui, Jerome H. L., Hunn, Julia P., Hunnekuhl, Vera S., Jackson, LaRonda, Javaid, Mehwish, Jhangiani, Shalini N., Jiggins, Francis M., Jones, Tamsin E., Kaiser, Tobias S., Kalra, Divya, Kenny, Nathan J., Korchina, Viktoriya, Kovar, Christie L., Kraus, F. Bernhard, Lapraz, François, Lee, Sandra L., Lv, Jie, Mandapat, Christigale, Manning, Gerard, Mariotti, Marco, Mata, Robert, Mathew, Tittu, Neumann, Tobias, Newsham, Irene, Ngo, Dinh N., Ninova, Maria, Okwuonu, Geoffrey, Ongeri, Fiona, Palmer, William J., Patil, Shobha, Patraquim, Pedro, Pham, Christopher, Pu, Ling-Ling, Putman, Nicholas H., Rabouille, Catherine, Ramos, Olivia Mendivil, Rhodes, Adelaide C., Robertson, Helen E., Robertson, Hugh M., Ronshaugen, Matthew, Rozas, Julio, Saada, Nehad, Sánchez-Gracia, Alejandro, Scherer, Steven E., Schurko, Andrew M., Siggens, Kenneth W., Simmons, DeNard, Stief, Anna, Stolle, Eckart, Telford, Maximilian J., Tessmar-Raible, Kristin, Thornton, Rebecca, van der Zee, Maurijn, von Haeseler, Arndt, Williams, James M., Willis, Judith H., Wu, Yuanqing, Zou, Xiaoyan, Lawson, Daniel, Muzny, Donna M., Worley, Kim C., Gibbs, Richard A., Akam, Michael, and Richards, Stephen

Subjects
Biology and Life Sciences, Computational Biology, Comparative Genomics, Genome Complexity, Genome Evolution, Evolutionary Biology, Organismal Evolution, Animal Evolution, Evolutionary Genetics, Evolutionary Immunology, Genetics, Genomics, Molecular Biology, Molecular Biology Techniques, Sequencing Techniques, Genome Sequencing
Abstract

Myriapods (e.g., centipedes and millipedes) display a simple homonomous body plan relative to other arthropods. All members of the class are terrestrial, but they attained terrestriality independently of insects. Myriapoda is the only arthropod class not represented by a sequenced genome. We present an analysis of the genome of the centipede Strigamia maritima. It retains a compact genome that has undergone less gene loss and shuffling than previously sequenced arthropods, and many orthologues of genes conserved from the bilaterian ancestor that have been lost in insects. Our analysis locates many genes in conserved macro-synteny contexts, and many small-scale examples of gene clustering. We describe several examples where S. maritima shows different solutions from insects to similar problems. The insect olfactory receptor gene family is absent from S. maritima, and olfaction in air is likely effected by expansion of other receptor gene families. For some genes S. maritima has evolved paralogues to generate coding sequence diversity, where insects use alternate splicing. This is most striking for the Dscam gene, which in Drosophila generates more than 100,000 alternate splice forms, but in S. maritima is encoded by over 100 paralogues. We see an intriguing linkage between the absence of any known photosensory proteins in a blind organism and the additional absence of canonical circadian clock genes. The phylogenetic position of myriapods allows us to identify where in arthropod phylogeny several particular molecular mechanisms and traits emerged. For example, we conclude that juvenile hormone signalling evolved with the emergence of the exoskeleton in the arthropods and that RR-1 containing cuticle proteins evolved in the lineage leading to Mandibulata. We also identify when various gene expansions and losses occurred. The genome of S. maritima offers us a unique glimpse into the ancestral arthropod genome, while also displaying many adaptations to its specific life history.

Published
2014
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45. Ciliary Photoreceptors with a Vertebrate-Type Opsin in anInvertebrate Brain.

Author

Arendt, Detlev, Tessmar-Raible, Kristin, Snyman, Heidi, Dorresteijn, Adriaan W., and Wittbrodt, Joachim

Subjects
*VERTEBRATES, *PHOTOBIOLOGY, *PHOTORECEPTORS, *SENSE organs, *INSECTS, *ARTHROPODA
Abstract

For vision, insect and vertebrate eyes use rhabdomeric and ciliary photoreceptor cells, respectively. These cells show distinct architecture and transduce the light signal by different phototransductory cascades. In the marine ragworm Platynereis, we find both cell types: rhabdomeric photoreceptor cells in the eyes and ciliary photoreceptor cells in the brain. The latter use a photopigment closely related to vertebrate rod and cone opsins. Comparative analysis indicates that both types of photoreceptors, with distinct opsins, coexisted in Urbilateria, the last common ancestor of insects and vertebrates, and sheds new light on vertebrate eye evolution. [ABSTRACT FROM AUTHOR]

Published
2004
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46. Biological rhythms: Hormones under moon control.

Author

Andreatta, Gabriele, Raible, Florian, and Tessmar-Raible, Kristin

Subjects
*LUNAR phases, *PUFFERS (Fish), *GENETIC transcription regulation, *TRANSCRIPTION factors, *HORMONES, *BIOLOGICAL rhythms, *CIRCADIAN rhythms
Abstract

Grass puffers are fish that engage in mass spawning controlled by the phase of the moon. A new study shows that prostaglandins released by males and females fine tune these events. In addition, regulation of gnrh1 by a transcription factor expressed in a semilunar rhythm suggests a timing signal for the long-term coordination of gonadal maturation. [ABSTRACT FROM AUTHOR]

Published
2022
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48. Conditional and Specific Cell Ablation in the Marine Annelid Platynereis dumerilii.

Author

Veedin-Rajan, Vinoth Babu, Fischer, Ruth M., Raible, Florian, and Tessmar-Raible, Kristin

Subjects
PLATYNEREIS dumerilii, MARINE biology, BACTERIAL enzymes, NITROREDUCTASES, PHOTORECEPTORS, CELL death, GENE expression
Abstract

The marine annelid Platynereis dumerilii has become a model system for evo-devo, neurobiology and marine biology. The functional assessment of its cell types, however, has so far been very limited. Here we report on the establishment of a generally applicable, cell type specific ablation technique to overcome this restriction. Using a transgenic strain expressing the bacterial enzyme nitroreductase (ntr) under the control of the worm’s r-opsin1 locus, we show that the demarcated photoreceptor cells can be specifically ablated by the addition of the prodrug metronidazole (mtz). TUNEL staining indicates that ntr expressing cells undergo apoptotic cell death. As we used a transgenic strain co-expressing ntr with enhanced green fluorescent protein (egfp) coding sequence, we were able to validate the ablation of photoreceptors not only in fixed tissue, using r-opsin1 riboprobes, but also by monitoring eGFP+ cells in live animals. The specificity of the ablation was demonstrated by the normal presence of the eye pigment cells, as well as of neuronal markers expressed in other cells of the brain, such as phc2, tyrosine hydroxylase and brn1/2/4. Additional analyses of the position of DAPI stained nuclei, the brain’s overall neuronal scaffold, as well as the positions and projections of serotonergic neurons further confirmed that mtz treatment did not induce general abnormalities in the worm’s brain. As the prodrug is administered by adding it to the water, targeted ablation of specific cell types can be achieved throughout the life of the animal. We show that ablation conditions need to be adjusted to the size of the worms, likely due to differences in the penetration of the prodrug, and establish ablation conditions for worms containing 10 to 55 segments. Our results establish mtz/ntr mediated conditional cell ablation as a powerful functional tool in Platynereis. [ABSTRACT FROM AUTHOR]

Published
2013
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49. TALENs Mediate Efficient and Heritable Mutation of Endogenous Genes in the Marine Annelid Platynereis dumerilii.

Author

Bannister, Stephanie, Antonova, Olga, Polo, Alessandra, Lohs, Claudia, Hallay, Natalia, Valinciute, Agne, Raible, Florian, and Tessmar-Raible, Kristin

Subjects
*PLATYNEREIS dumerilii, *TRANSCRIPTION factors, *NUCLEASE genetics, *GENETIC mutation, *GENE expression
Abstract

Platynereis dumerilii is a marine polychaete and an established model system for studies of evolution and development. Platynereis is also a re-emerging model for studying the molecular basis of circalunar reproductive timing: a biological phenomenon observed in many marine species. While gene expression studies have provided new insight into patterns of gene regulation, a lack of reverse genetic tools has so far limited the depth of functional analyses in this species. To address this need, we established customized transcriptional activator-like effector nucleases (TALENs) as a tool to engineer targeted modifications in Platynereis genes. By adapting a workflow of TALEN construction protocols and mutation screening approaches for use in Platynereis, we engineered frameshift mutations in three endogenous Platynereis genes. We confirmed that such mutations are heritable, demonstrating that TALENs can be used to generate homozygous knockout lines in P. dumerilii. This is the first use of TALENs for generating genetic knockout mutations in an annelid model. These tools not only open the door for detailed in vivo functional analyses, but also can facilitate further technical development, such as targeted genome editing. [ABSTRACT FROM AUTHOR]

Published
2014
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50. Genetic and Genomic Tools for the Marine Annelid Platynereis dumerilii.

Author

Zantke, Juliane, Bannister, Stephanie, Veedin Rajan, Vinoth Babu, Raible, Florian, and Tessmar-Raible, Kristin

Subjects
*PLATYNEREIS dumerilii, *MARINE ecology, *GENETICS, *GENOMICS, *FIRE assay
Abstract

The bristle worm Platynereis dumerilii displays many interesting biological characteristics. These include its reproductive timing, which is synchronized to the moon phase, its regenerative capacity that is hormonally controlled, and a slow rate of evolution, which permits analyses of ancestral genes and cell types. As a marine annelid, Platynereis is also representative of the marine ecosystem, as well as one of the three large animal subphyla, the Lophotrochozoa. Here, we provide an overview of the molecular resources, functional techniques, and behavioral assays that have recently been established for the bristle worm. This combination of tools now places Platynereis in an excellent position to advance research at the frontiers of neurobiology, chronobiology, evo-devo, and marine biology. [ABSTRACT FROM AUTHOR]

Published
2014
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