20,265 results on '"CNIDARIA"'
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2. A new look at the architecture and dynamics of the Hydra nerve net.
- Author
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Keramidioti, Athina, Schneid, Sandra, Busse, Christina, Cramer von Laue, Christoph, Bertulat, Bianca, Salvenmoser, Willi, Hess, Martin, Alexandrova, Olga, Glauber, Kristine, Steele, Robert, Hobmayer, Bert, Holstein, Thomas, and David, Charles
- Subjects
Hydra ,developmental biology ,gap junction ,innexin ,nerve bundles ,nerve net ,neuroscience ,Animals ,Hydra ,Nerve Net ,Neurons ,Neurites ,Cnidaria - Abstract
The Hydra nervous system is the paradigm of a simple nerve net. Nerve cells in Hydra, as in many cnidarian polyps, are organized in a nerve net extending throughout the body column. This nerve net is required for control of spontaneous behavior: elimination of nerve cells leads to polyps that do not move and are incapable of capturing and ingesting prey (Campbell, 1976). We have re-examined the structure of the Hydra nerve net by immunostaining fixed polyps with a novel antibody that stains all nerve cells in Hydra. Confocal imaging shows that there are two distinct nerve nets, one in the ectoderm and one in the endoderm, with the unexpected absence of nerve cells in the endoderm of the tentacles. The nerve nets in the ectoderm and endoderm do not contact each other. High-resolution TEM (transmission electron microscopy) and serial block face SEM (scanning electron microscopy) show that the nerve nets consist of bundles of parallel overlapping neurites. Results from transgenic lines show that neurite bundles include different neural circuits and hence that neurites in bundles require circuit-specific recognition. Nerve cell-specific innexins indicate that gap junctions can provide this specificity. The occurrence of bundles of neurites supports a model for continuous growth and differentiation of the nerve net by lateral addition of new nerve cells to the existing net. This model was confirmed by tracking newly differentiated nerve cells.
- Published
- 2024
3. Jellyfish envenomation with delayed hypersensitivity and concurrent SARS-CoV-2 infection
- Author
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Cheema, Karan S, Johanis, Michael, Young, Peter A, and Bae, Gordon H
- Subjects
Cnidaria ,concurrent viral infection ,COVID-19 ,delayed hypersensitivity ,envenomation ,jellyfish ,nematocysts ,SARS-CoV-2 ,Waikiki ,Hawaii - Published
- 2024
4. Spatiotemporal distribution of the non-indigenous peach blossom jellyfish Craspedacusta sowerbii in British Columbia, Canada.
- Author
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Lüskow, Florian and Pakhomov, Evgeny A.
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INTRODUCED species , *HYDROZOA , *MEDUSOZOA , *CNIDARIA , *JELLYFISHES - Abstract
The introduction of non-indigenous species (NIS) to exotic habitats can have tremendous impacts on native biodiversity, food webs, and ecosystem services. One globally distributed aquatic NIS is the hydrozoan Craspedacusta sowerbii Lankester, 1880. The species' northern distribution boundary in North America is situated in British Columbia (BC), Canada. It is thus of paramount interest to understand its ecology in this warming invaded habitat, allowing for insights into other regions. Specimens of the genus Craspedacusta have been reported in 34 freshwater systems since August 1990. These reported locations are generally shallow (<10 m), most often of natural origin, and have a small surface area (<0.1 km2). We observed an exponential trend of medusa observations from 1990 till the end of the 2020s. The first seasonal records are in July and the latest in October, with peak sightings reported in August and September. After 2012, regional temperature anomalies during July and August were mostly positive, which overlaps with the period of the majority of reported C. sowerbii sightings. Until this day, all examined medusae are males. [ABSTRACT FROM AUTHOR]
- Published
- 2024
- Full Text
- View/download PDF
5. Diet, feeding, and niche overlap of west coast steenbras (Lithognathus aureti) and silver kob (Argyrosomus inodorus) in the northern Benguela.
- Author
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Shikongo, Arariky S. and Wilhelm, Margit R.
- Subjects
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OSTEICHTHYES , *GASTROINTESTINAL contents , *COMPOSITION of feeds , *CNIDARIA , *CONTENT analysis - Abstract
In this study, we described and compared the diet, monthly feeding intensity, and condition of west coast steenbras (Lithognathus aureti) and silver kob (Argyrosomus inodorus) caught at a unique habitat in the northern Benguela. Stomach contents of 179 west coast steenbras and 114 silver kob caught from October 2020 to September 2022 were investigated. The peak in feeding intensity of west coast steenbras appeared to be opportunistic during winter and summer periods depending on food availability. The fish condition, however, peaked at the beginning (October) and at the end (April) of the austral summer spawning period, with the hepatosomatic index (HSI) at 1.5% and the condition factor (CF) at 0.022%. Seven prey taxa were found in the diet of west coast steenbras (bivalves, bony fishes, other mollusks, algae, crustaceans, cnidaria, and polychaetas) and six taxa in the diet of silver kob (bivalves, crustaceans, bony fishes, algae, starfish, and zooplankton), indicating generalist feeding behavior in both the species. The bivalves were the most important prey items in the diet of west coast steenbras (95.9% index of relative importance [IRI]). The most important prey items in the diet of silver kob were crustaceans (83.1% IRI) and bony fishes (16.0% IRI). Crustaceans were most important in the diet of small‐to‐medium‐sized silver kob, whereas bony fishes were most important in the diet of larger silver kob (>75 cm), with significant differences of IRI% by size class. Schoener's index of niche overlap indicated a relatively low overall niche overlap (0.11) between west coast steenbras and silver kob. This allows them to coexist as their feeding habits allow them to occupy unique niches in the coastal reef and sandy habitat and reduce competition for resources. [ABSTRACT FROM AUTHOR]
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- 2024
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6. Not all heroes wear shells: New data on the spicules' morphology in acochlidimorph mollusc.
- Author
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Mikhlina, Anna L., Nikitenko, Ekaterina D., and Vortsepneva, Elena V.
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NUDIBRANCHIA , *SPONGES (Invertebrates) , *CNIDARIA , *GASTROPODA , *PLATYHELMINTHES - Abstract
Calcareous skeletal structures are common among different invertebrate groups, including Porifera, Cnidaria, Platyhelminthes, Mollusca, and Echinodermata. They appear externally as shells, plates, or scales, or internally as subepidermal spicules. Although typically formed outside of the cells, in one class of gastropod molluscs, the Heterobranchia, subepidermal and intracellular spicules are found—a rare case, at least for the molluscs. This type of spicules is present in several phylogenetically distant groups of heterobranch molluscs (Rhodopemorpha, Acochlidimorpha, and Nudibranchia), each different in terms of morphology and autecology. This raises questions about the origin and homology of subepidermal spicules in heterobranch molluscs. To answer these questions, understanding the process of spicule formation is crucial. This is impeded by insufficient data on the fine structure of the subepidermal spicules and adjacent epithelia. To address this problem, we carried out a comprehensive morphological study of subepidermal spicules and the body wall in one species of Acochlidimorpha. We revealed variations in the cellular composition of the epidermis, musculature organization, and spicules' arrangement, which most likely reflect the different functional roles of the spicule complex within Heterobranchia representatives. However, the obtained data are insufficient to answer the question of the origin of spicules and their homology within Heterobranchia. [ABSTRACT FROM AUTHOR]
- Published
- 2024
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7. Clinical, histopathological and phylogenetic analysis of Myxobolus lentisturalis (Myxozoa: Myxobolidae) infecting the musculature of farmed population of goldfish (Carassius auratus) in Iran: 2021–2022.
- Author
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Rahmati-Holasoo, Hooman, Marandi, Amin, Mousavi, Hosseinali Ebrahimzadeh, Arabkhazaeli, Fatemeh, Shokrpoor, Sara, and Ziafati Kafi, Zahra
- Subjects
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GOLDFISH , *ORNAMENTAL fishes , *MAXIMUM likelihood statistics , *SKELETAL muscle , *MICROSCOPY - Abstract
There is a claimed increase in the global prevalence and incidence of emerging diseases observed in many organisms. Myxozoa represents an essential group of metazoan parasites that hold both economic and ecological significance. In the current study, 1% of the fish population at two commercial goldfish (Carassius auratus) farms in Tehran and Ghom province, Iran, developed cavitating muscular lesions resembling humps in February 2021 and January 2022. Fish displaying pathological abnormalities were transported to the Ornamental Fish Clinic and subjected to clinical examination. Light microscopy was subsequently used to examine wet smears of skin and gills, as well as whitish exudate. In addition, tissue homogenates were collected for more precise identification and molecular confirmation. The study discovered that individuals from the goldfish farms were infected with the pathogenic myxozoan Myxobolus lentisuturalis, which caused significant damage to the epaxial muscles. The spores collected from the humps had a lack of uniformity and were primarily ellipsoidal in shape. Histopathological analysis also revealed parasites in various stages of development, such as plasmodia and spores, as well as inflammatory cell infiltration (macrophage, giant cell and lymphoplasmacytic infiltration) between skeletal muscle fibers. Phylogenetic analysis of M. lentisuturalis was performed by using MEGA 11 and the maximum likelihood method. M. lentisuturalis is a myxozoan parasite that has been sparsely recorded and lacks widespread recognition. The current study is the first clinical, histopathological, and molecular characterization of M. lentisuturalis isolated from the skeletal musculature of goldfish (C. auratus) in Iran. [ABSTRACT FROM AUTHOR]
- Published
- 2024
- Full Text
- View/download PDF
8. An update of data compilation on the biological response to ocean acidification and overview of the OA-ICC data portal.
- Author
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Yang, Yan, Brockmann, Patrick, Galdino, Carolina, Schindler, Uwe, and Gazeau, Frédéric
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OCEAN acidification , *DATA libraries , *MARINE organisms , *MOLLUSKS , *CNIDARIA - Abstract
The number of studies investigating the effects of ocean acidification on marine organisms and communities increases every year. Results are not easily comparable since the carbonate chemistry and ancillary data are not always reported in similar units and scales and are not calculated using similar sets of constants. To facilitate data comparison, a data compilation hosted by the PANGAEA Data Publisher was initiated in 2008 and is updated on a regular basis (10.1594/PANGAEA.962556; Ocean Acidification International Coordination Centre (OA-ICC), 2023). By November 2023, a total of 1501 datasets (over 25 million data points) from 1554 papers had been archived. To easily filter and access relevant biological response data from this compilation, a user-friendly portal (https://oa-icc.ipsl.fr , last access: 9 November 2023) was launched in 2018. Here, we present an update of this data compilation since its second description by Yang et al. (2016) and provide an overview of the OA-ICC portal for ocean acidification biological response data, launched in 2018. Most of the study sites from which data have been archived are in the North Atlantic Ocean, North Pacific Ocean, South Pacific Ocean, and Mediterranean Sea, while polar oceans are still relatively poorly represented. Mollusca and Cnidaria are still the best-represented taxonomic groups. The biological processes most reported in the datasets are growth and morphology. Other variables that can potentially be affected by ocean acidification and are often reported include calcification/dissolution, primary production/photosynthesis, and biomass/abundance. The majority of the compiled datasets have considered ocean acidification as a single stressor, but their relative contribution has decreased from 68 % before 2015 to 57 % today, showing a clear tendency towards more data archived from multifactorial studies. [ABSTRACT FROM AUTHOR]
- Published
- 2024
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9. Effectiveness of Sampling Techniques in Collecting the Polyp Stage of the Invasive Freshwater Hydrozoan Craspedacusta sowerbii.
- Author
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Zhu, Jonathan A. and Folino-Rorem, Nadine C.
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BODIES of water , *AUTUMN , *GLASS-reinforced plastics , *WATER temperature , *WOOD - Abstract
Simple Summary: The invasive freshwater jellyfish Craspedacusta sowerbii exists as a microscopic polyp stage and a more visible, pelagic jellyfish-like medusa stage. Current methods to collect these polyps are challenging and time consuming, so we developed a more efficient method involving glass and plastic microscope slides. Polyps became established on these slides, confirming the efficacy of our method. Current sampling methods for detecting the presence of the invasive freshwater hydrozoan Craspedacusta sowerbii rely mainly on visual confirmation of the medusa stage. Confirming the presence of the polyp stage is equally important for observing medusae since typical late summer/early fall occurrences or observations of medusae are sporadic though are becoming more frequent. The polyp stage is important as it is the organism's primary stage and is present throughout the year depending on water temperatures. Therefore, sampling methods for the polyp stage are, commonly, the collection of substrates such as rocks, plants, or pieces of wood in a given body of water, and these can be cumbersome to examine. Polyps are also small, transparent, and difficult to see on natural substrates. Based on a preliminary culturing of the polyp stage on glass and plastic microscope slides in the laboratory, we designed a sampling methodology based on submerging four substrate types (glass and plastic microscope slides, Hester-Dendy discs, and small glass Petri dishes) to confirm the presence of C. sowerbii polyps in the field. We tested this method in three lakes in the Illinois–Indiana region (USA). Two of the lakes have recorded sightings of medusae but the third has no record of polyps or medusae. The sampling method we designed was effective in that C. sowerbii polyps were found on both plastic and glass slides. While this method can be sufficient for detection of the polyp stage, it also shows potential for improvement; we highlight abiotic and biotic ecological parameters as significant factors influencing the collection of C. sowerbii polyps to be considered for future methodologies. [ABSTRACT FROM AUTHOR]
- Published
- 2024
- Full Text
- View/download PDF
10. Habitat suitability modeling of Aurelia jellyfish (Cnidaria, Scyphozoa) in the Gulf of Mexico suggests distinct species' distributions based on tolerance limits.
- Author
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Frolova, Alexandra, Retchless, David, and Miglietta, Maria Pia
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SPECIES distribution , *OFFSHORE gas well drilling , *WATER temperature , *TERRITORIAL waters , *ARTIFICIAL reefs , *KARENIA brevis , *CNIDARIA , *JELLYFISHES - Abstract
Aurelia is a genus of scyphozoan jellyfish with cosmopolitan distribution and a propensity to form large aggregations, or "blooms." Along the northern Gulf of Mexico (GoM) coast, blooms of Aurelia have caused problems for human enterprise. Mature Aurelia sp. 9 and sp. 18 medusae are observed each season, yet their benthic originators, the polyps, have never been found in nature in the GoM. The absence of information on polyp locations greatly limits our understanding of bloom formation, as we are unable to identify bloom origins or study medusae production in situ. To address the lack of knowledge on polyp distribution, suitable habitats, including natural and artificial settlement substrates for A. sp. 9 and A. sp. 18 were modeled using a GIS spatial analysis, utilizing previously published experimentally derived species' tolerance ranges for temperature and salinity. Spatial models considered temperature and salinity parameters from surface down to 1500 m utilizing a ¼ degree grid size. The results suggest the GoM coastal waters have suitable environmental parameters for A. sp. 9 but not A. sp. 18 and that water temperature, but not salinity, limits the distribution of both species. Also, 94% of GoM artificial reefs and 97% of gas platforms fell within the modeled distribution range for A. sp. 9, compared to only 37% and 40% for A. sp. 18, respectively. Models suggest that A. sp. 18 may be an offshore species restricted to the deeper shelf waters of the GoM by summer-high water temperatures and that future increases in water temperature, such as those expected with climate change, may negatively impact Aurelia jellyfish populations in the northern GoM. [ABSTRACT FROM AUTHOR]
- Published
- 2024
- Full Text
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11. Multiple Non-Destructive Approaches to Analysis of the Early Silurian Chain Coral Halysites from South China.
- Author
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Ren, Xinyi, Hu, Yazhou, Liu, Peiyu, Liang, Yue, Chen, Feiyang, Qiu, Hao, Strotz, Luke C., Liang, Kun, and Zhang, Zhifei
- Subjects
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X-ray computed microtomography , *FLUORESCENCE spectroscopy , *COMPUTED tomography , *SCANNING electron microscopy , *CHEMICAL structure , *EDIACARAN fossils , *CORAL reefs & islands , *CNIDARIA - Abstract
Cnidarians are among the most important diploblastic organisms, elucidating many of the early stages of Metazoan evolution. However, Cnidarian fossils from Cambrian deposits have been rarely documented, mainly due to difficulties in identifying early Cnidarian representatives. Halysites, a tabulate coral from Silurian reef systems, serves as a crucial taxon for interpreting Cambrian cnidarians. Traditionally, the biological characteristics of Halysites have been analyzed using methods limited by pretreatment requirements (destructive testing) and the chamber size capacity of relevant analytical instruments. These constraints often lead to irreversible information loss and inadequate data extraction. This means that, to date, there has been no high-resolution three-dimensional mineralization analysis of Halysites. This study aims to introduce novel, non-destructive techniques to analyze the internal structure and chemical composition of Halysites. Furthermore, it seeks to elucidate the relationship between coral organisms and biomineralization in reef settings and to compare Silurian Tabulata with putative Cambrian cnidarians. Techniques such as micro-X-ray fluorescence spectrometry (micro-XRF), micro-X-ray computed tomography (micro-CT), and scanning electron microscopy (SEM) were employed in this research. With the help of high-resolution micro-CT scanning, we identify the growth pattern of Halysites, showing both lateral and vertical development. The lateral multiple-branching growth pattern of Halysites corals is first established herein. The flaggy corallite at the initial stage of branching is also observed. The micro-XRF mapping results reveal the occurrence of septa spines for Halysites, a trait previously thought rare or absent. Additionally, the ratio of coral volume to the surrounding rock was assessed, revealing that Halysites reefs were relatively sparse (volume ratio = ~30%). The cavities between Halysites likely provided more space for other organisms (e.g., rugose corals and bryozoans) when compared to other coral reef types. Additionally, we provide a comparative analysis of post-Cambrian colonial calcareous skeletons, offering insights into the structural features and growth patterns of early skeletal metazoans across the Ediacaran–Cambrian boundary. [ABSTRACT FROM AUTHOR]
- Published
- 2024
- Full Text
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12. Redescription of the commercially harvested jellyfish, <italic>Crambionella orsini</italic> and <italic>Lobonemoides gracilis</italic> (Cnidaria: Scyphozoa) from Sri Lanka.
- Author
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Karunarathne, Krishan D., Amaya, H.K.T., Digamadulla, D.S., and de Croos, M.D.S.T.
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FISHERY management , *CNIDARIA , *HYDROZOA , *MEDUSOZOA , *JELLYFISHES - Abstract
Two types of edible jellyfish, namely ‘ball-type’ and ‘white-type’, were reported to be commercially harvested respectively from the southeast and northwest coasts of Sri Lanka, but their taxonomic identity was unknown. Therefore, medusae collected in the ‘
Waya-jel -Survey’, together with specimens from museums, were examined, comparing their morphomeristic data with information from the literature. As per results, the ‘ball-type’ and ‘white-type’ jellyfish species were recognized respectively asCrambionella orsini (Vanhöffen 1888) andLobonemoides gracilis Light 1914 for the first time from Sri Lanka, with a detailed account of morphological features. Among the four valid species of the genusCrambionella ,C. orsini is distinguished by the presence of 16 velar lappets per octant, without tubercles. The two congeners ofL. gracilis, namelyL. robustus Stiasny 1920 andL. sewelli Rao 1931, were synonymized toL. gracilis , makingLobonemoides monospecific, thusL. gracilis is recognized by the presence of papillae on the exumbrella; 1–6 elongated velar lappets between two successive rhopalia; and the window-like openings and long, spindle-shaped appendages on the oral arms. Likewise, the present study re-describesC. orsini andL. gracilis providing a basic component for efficient management of jellyfish fishery resources in Sri Lanka as well as in other Asian countries. [ABSTRACT FROM AUTHOR]- Published
- 2024
- Full Text
- View/download PDF
13. Sea anemones (Actinia equina) show consistent individual differences in boldness and thoroughness but lack a behavioural syndrome.
- Author
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Simpson, Samantha and Briffa, Mark
- Subjects
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ANIMAL diversity , *STARTLE reaction , *SEA anemones , *BAYESIAN analysis , *INDIVIDUAL differences - Abstract
Behavioural syndromes are suites of behaviours that corelate between-individuals but the same behaviours may also show within-individual correlations owing to state dependency or trade-offs. Therefore, overall phenotypic behavioural correlations must be separated into their between- and within-individual components. We investigate how startle response duration (an index of boldness) and time taken to reject an inert item (an index of investigation thoroughness) covary in beadlet sea anemones, Actinia equina. Anemones took longer to reject a more complex item compared to a simpler one, validating this measure of investigation thoroughness. We then quantified between- and within-individual correlations using a Bayesian analysis and an alternative frequentist analysis, which returned the same results. Startle responses decreased with anemone size while thoroughness decreased across repeated observations, indicative of simple learning. For each behaviour, repeatability was significant but relatively low and there was no behavioural syndrome. Rather, the two behaviours showed a negative within-individual correlation in most individuals. Thus, boldness and thoroughness are unlikely to be under correlative selection, and they may instead be expressed independently, in line with the general pattern that cross-contextual behavioural syndromes are comparatively rare. It now appears that this pattern may extend broadly across animal diversity. [ABSTRACT FROM AUTHOR]
- Published
- 2024
- Full Text
- View/download PDF
14. Induction of apoptosis by double-stranded RNA was present in the last common ancestor of cnidarian and bilaterian animals.
- Author
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Kozlovski, Itamar, Jaimes-Becerra, Adrian, Sharoni, Ton, Lewandowska, Magda, Karmi, Ola, and Moran, Yehu
- Subjects
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DOUBLE-stranded RNA , *CNIDARIA , *APOPTOSIS , *SEA anemones , *GENE expression , *INTRACELLULAR pathogens , *HOST-virus relationships - Abstract
Apoptosis, a major form of programmed cell death, is an essential component of host defense against invading intracellular pathogens. Viruses encode inhibitors of apoptosis to evade host responses during infection, and to support their own replication and survival. Therefore, hosts and their viruses are entangled in a constant evolutionary arms race to control apoptosis. Until now, apoptosis in the context of the antiviral immune system has been almost exclusively studied in vertebrates. This limited phyletic sampling makes it impossible to determine whether a similar mechanism existed in the last common ancestor of animals. Here, we established assays to probe apoptosis in the sea anemone Nematostella vectensis, a model species of Cnidaria, a phylum that diverged approximately 600 million years ago from the rest of animals. We show that polyinosinic:polycytidylic acid (poly I:C), a synthetic long double-stranded RNA mimicking viral RNA and a primary ligand for the vertebrate RLR melanoma differentiation-associated protein 5 (MDA5), is sufficient to induce apoptosis in N. vectensis. Furthermore, at the transcriptomic level, apoptosis related genes are significantly enriched upon poly(I:C) exposure in N. vectensis as well as bilaterian invertebrates. Our phylogenetic analysis of caspase family genes in N. vectensis reveals conservation of all four caspase genes involved in apoptosis in mammals and revealed a cnidarian-specific caspase gene which was strongly upregulated. Altogether, our findings suggest that apoptosis in response to a viral challenge is a functionally conserved mechanism that can be traced back to the last common ancestor of Bilateria and Cnidaria. Author summary: Apoptosis is a programmed cell death mechanism used by vertebrates to efficiently block viral infection. The presence of long double-stranded RNA (dsRNA) in the cytosol is a key feature of DNA and RNA virus replication and is absent from uninfected mammalian host cells. Therefore, the ability to sense and respond to viral dsRNAs is crucial for organismal survival. Indeed, numerous studies in mammals have shown that dsRNA has the capacity to trigger a robust apoptosis as antiviral response. However, such studies were limited to vertebrates, and it remained largely unclear how such systems have evolved. Here, we used the sea anemone Nematostella vectensis, member of phylum Cnidaria (jellyfish, corals, hydroids and sea anemones), to address this topic. We demonstrated that indeed dsRNA is sufficient to induce apoptosis in Nematostella and uncovered a conserved network of genes involved in this process. Further, by comparing the results of gene expression analyses in sea anemones and other diverse animal groups such as oysters and lancelets, we show that apoptosis is prevalent in many animal groups and was already part of the response to dsRNA in the last common ancestor of Cnidaria and most other animals that lived 600 million years ago. [ABSTRACT FROM AUTHOR]
- Published
- 2024
- Full Text
- View/download PDF
15. Morphological and Molecular Identification of Porpita porpita (Hydrozoa: Porpitidae) Larval and Colonial Phases.
- Author
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Santiago-Valentín, Jeimy Denisse, Bautista-Guerrero, Eric, Rodríguez-Troncoso, Alma Paola, Franco-Gordo, María del Carmen, Razo-López, Mauricio Alejandro, and Godínez-Domínguez, Enrique
- Subjects
- *
LIFE cycles (Biology) , *COLONIES (Biology) , *ONTOGENY , *LARVAE , *CNIDARIA - Abstract
Porpita porpita is a colonial polymorphic hydrozoan distributed in temperate and tropical zones. This species, like most hydrozoans, possesses a metagenetic life cycle with alternating life forms: medusa stage, polypoid colony, and planula larva. However, a characterization of its early stages of development is still lacking. For this study, an integrative description of the larval stages and the hydroid colony was performed using molecular and histologic tools. The results show that P. porpita develops through three larval stages: preplanula, planula, and premetamorphic planula. The preplanula is distinguished by an absence of polarity, the planula by differentiation of the oral–aboral poles, and the premetamorphic stage by cellular differentiation. Furthermore, two morphologies of young hydroids with different developmental patterns of gonozooids and dactylozooids were observed; notably, it was not possible to observe the gastrozooid in either. Taxonomic identification was confirmed using mitochondrial (COI) and ribosomal (18S and 28S) markers. Our analysis indicates that the COI gene exhibits higher intraspecific variability compared to the 18s and 28s rDNA ribosomal genes. The presented results support the future identification of P. porpita based on morphological characteristics, regardless of the stage of development. Specifically, they shed light on the diversity of mesozooplankton in reef communities. [ABSTRACT FROM AUTHOR]
- Published
- 2024
- Full Text
- View/download PDF
16. Clinical, histopathological and phylogenetic analysis of Myxobolus lentisturalis (Myxozoa: Myxobolidae) infecting the musculature of farmed population of goldfish (Carassius auratus) in Iran: 2021–2022
- Author
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Hooman Rahmati-Holasoo, Amin Marandi, Hosseinali Ebrahimzadeh Mousavi, Fatemeh Arabkhazaeli, Sara Shokrpoor, and Zahra Ziafati Kafi
- Subjects
Cnidaria ,Differential interference contrast ,Myxobolus lentisuturalis myxosporea ,Bivalvulida ,Rhodamine ,Veterinary medicine ,SF600-1100 - Abstract
Abstract There is a claimed increase in the global prevalence and incidence of emerging diseases observed in many organisms. Myxozoa represents an essential group of metazoan parasites that hold both economic and ecological significance. In the current study, 1% of the fish population at two commercial goldfish (Carassius auratus) farms in Tehran and Ghom province, Iran, developed cavitating muscular lesions resembling humps in February 2021 and January 2022. Fish displaying pathological abnormalities were transported to the Ornamental Fish Clinic and subjected to clinical examination. Light microscopy was subsequently used to examine wet smears of skin and gills, as well as whitish exudate. In addition, tissue homogenates were collected for more precise identification and molecular confirmation. The study discovered that individuals from the goldfish farms were infected with the pathogenic myxozoan Myxobolus lentisuturalis, which caused significant damage to the epaxial muscles. The spores collected from the humps had a lack of uniformity and were primarily ellipsoidal in shape. Histopathological analysis also revealed parasites in various stages of development, such as plasmodia and spores, as well as inflammatory cell infiltration (macrophage, giant cell and lymphoplasmacytic infiltration) between skeletal muscle fibers. Phylogenetic analysis of M. lentisuturalis was performed by using MEGA 11 and the maximum likelihood method. M. lentisuturalis is a myxozoan parasite that has been sparsely recorded and lacks widespread recognition. The current study is the first clinical, histopathological, and molecular characterization of M. lentisuturalis isolated from the skeletal musculature of goldfish (C. auratus) in Iran.
- Published
- 2024
- Full Text
- View/download PDF
17. Coevolution of the Tlx homeobox gene with medusa development (Cnidaria: Medusozoa).
- Author
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Travert, Matthew, Boohar, Reed, Sanders, Steven M, Boosten, Manon, Leclère, Lucas, Steele, Robert E, and Cartwright, Paulyn
- Subjects
Animals ,Cnidaria ,Genes ,Homeobox ,Transcriptional Activation ,Genetics - Abstract
Cnidarians display a wide diversity of life cycles. Among the main cnidarian clades, only Medusozoa possesses a swimming life cycle stage called the medusa, alternating with a benthic polyp stage. The medusa stage was repeatedly lost during medusozoan evolution, notably in the most diverse medusozoan class, Hydrozoa. Here, we show that the presence of the homeobox gene Tlx in Cnidaria is correlated with the presence of the medusa stage, the gene having been lost in clades that ancestrally lack a medusa (anthozoans, endocnidozoans) and in medusozoans that secondarily lost the medusa stage. Our characterization of Tlx expression indicate an upregulation of Tlx during medusa development in three distantly related medusozoans, and spatially restricted expression patterns in developing medusae in two distantly related species, the hydrozoan Podocoryna carnea and the scyphozoan Pelagia noctiluca. These results suggest that Tlx plays a key role in medusa development and that the loss of this gene is likely linked to the repeated loss of the medusa life cycle stage in the evolution of Hydrozoa.
- Published
- 2023
18. Cnidarian Sleep
- Author
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Francis, Diana A., Abrams, Michael J., Gehrman, Philip, editor, C. Keene, Alex, editor, and F. Grant, Struan, editor
- Published
- 2024
- Full Text
- View/download PDF
19. Doublecortin-like kinase is required for cnidocyte development in Nematostella vectensis
- Author
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Johanna E. M. Kraus, Henriette Busengdal, Yulia Kraus, Harald Hausen, and Fabian Rentzsch
- Subjects
Neurite ,Microtubule ,Cytoskeleton ,Cnidocyte ,Nervous system evolution ,Cnidaria ,Neurology. Diseases of the nervous system ,RC346-429 - Abstract
Abstract The complex morphology of neurons requires precise control of their microtubule cytoskeleton. This is achieved by microtubule-associated proteins (MAPs) that regulate the assembly and stability of microtubules, and transport of molecules and vesicles along them. While many of these MAPs function in all cells, some are specifically or predominantly involved in regulating microtubules in neurons. Here we use the sea anemone Nematostella vectensis as a model organism to provide new insights into the early evolution of neural microtubule regulation. As a cnidarian, Nematostella belongs to an outgroup to all bilaterians and thus occupies an informative phylogenetic position for reconstructing the evolution of nervous system development. We identified an ortholog of the microtubule-binding protein doublecortin-like kinase (NvDclk1) as a gene that is predominantly expressed in neurons and cnidocytes (stinging cells), two classes of cells belonging to the neural lineage in cnidarians. A transgenic NvDclk1 reporter line revealed an elaborate network of neurite-like processes emerging from cnidocytes in the tentacles and the body column. A transgene expressing NvDclk1 under the control of the NvDclk1 promoter suggests that NvDclk1 localizes to microtubules and therefore likely functions as a microtubule-binding protein. Further, we generated a mutant for NvDclk1 using CRISPR/Cas9 and show that the mutants fail to generate mature cnidocytes. Our results support the hypothesis that the elaboration of programs for microtubule regulation occurred early in the evolution of nervous systems.
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- 2024
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20. Evolution of myxozoan mitochondrial genomes: insights from myxobolids
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Tatiana Orli Milkewitz Sandberg, Dayana Yahalomi, Noam Bracha, Michal Haddas-Sasson, Tal Pupko, Stephen D. Atkinson, Jerri L. Bartholomew, Jin Yong Zhang, and Dorothée Huchon
- Subjects
Cnidaria ,MtDNA ,Molecular evolution ,Organellar genome ,Phylogenomics ,Biotechnology ,TP248.13-248.65 ,Genetics ,QH426-470 - Abstract
Abstract Background Myxozoa is a class of cnidarian parasites that encompasses over 2,400 species. Phylogenetic relationships among myxozoans remain highly debated, owing to both a lack of informative morphological characters and a shortage of molecular markers. Mitochondrial (mt) genomes are a common marker in phylogeny and biogeography. However, only five complete myxozoan mt genomes have been sequenced: four belonging to two closely related genera, Enteromyxum and Kudoa, and one from the genus Myxobolus. Interestingly, while cytochrome oxidase genes could be identified in Enteromyxum and Kudoa, no such genes were found in Myxobolus squamalis, and another member of the Myxobolidae (Henneguya salminicola) was found to have lost its entire mt genome. To evaluate the utility of mt genomes to reconstruct myxozoan relationships and to understand if the loss of cytochrome oxidase genes is a characteristic of myxobolids, we sequenced the mt genome of five myxozoans (Myxobolus wulii, M. honghuensis, M. shantungensis, Thelohanellus kitauei and, Sphaeromyxa zaharoni) using Illumina and Oxford Nanopore platforms. Results Unlike Enteromyxum, which possesses a partitioned mt genome, the five mt genomes were encoded on single circular chromosomes. An mt plasmid was found in M. wulii, as described previously in Kudoa iwatai. In all new myxozoan genomes, five protein-coding genes (cob, cox1, cox2, nad1, and nad5) and two rRNAs (rnl and rns) were recognized, but no tRNA. We found that Myxobolus and Thelohanellus species shared unidentified reading frames, supporting the view that these mt open reading frames are functional. Our phylogenetic reconstructions based on the five conserved mt genes agree with previously published trees based on the 18S rRNA gene. Conclusions Our results suggest that the loss of cytochrome oxidase genes is not a characteristic of all myxobolids, the ancestral myxozoan mt genome was likely encoded on a single circular chromosome, and mt plasmids exist in a few lineages. Our findings indicate that myxozoan mt sequences are poor markers for reconstructing myxozoan phylogenetic relationships because of their fast-evolutionary rates and the abundance of repeated elements, which complicates assembly.
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- 2024
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21. Swimming ability of the Carybdea marsupialis (Cnidaria: Cubozoa: Carybdeidae): implications for its spatial distribution.
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Bordehore, C., Manchado‐Pérez, S., and Fonfría, E. S.
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SWIMMING , *VIDEO recording , *JELLYFISHES , *OCEAN currents , *CNIDARIA , *AQUARIUMS , *SWIMMERS - Abstract
Although usually considered part of the plankton, cubozoans are strong swimmers. The aim of this study was to determine the influence of the active swimming ability of the box jellyfish Carybdea marsupialis on the spatial distribution of a well‐studied population in the NW Mediterranean where adults and juveniles do not overlap geographically. To accomplish this, we analyzed the swimming speed, effective velocity, effective displacement index (EDI), and proficiency of 27 individuals with diagonal bell widths (DBWs) ranging from 1.1 to 36 mm. The laboratory analysis utilized conventional video recordings and the video analysis tool Tracker. Mean swimming speed for small juveniles, medium juveniles and adults was 9.7 ± 0.8, 21.9 ± 2.3 and 43.1 ± 1.8 mm s−1 (mean ± se), respectively. Effective velocity was also proportional to size, ranging from 5.0 ± 0.7 to 38.8 ± 3.1 mm s−1 (mean ± se). The calculated EDI for each group was 0.51 ± 0.05, 0.84 ± 0.06 and 0.90 ± 0.05 (mean ± se), respectively. Proficiency showed an inverse trend, from 6.4 ± 0.6 s−1 for the small juveniles to 1.36 ± 0.05 for adults (mean ± se). Comparing the swimming speed results with the local currents obtained from drifting buoys analyzed in the area, adults would be able to swim strongly enough to overcome almost 70% of the currents, whereas the small juveniles would not reach 17%. This would allow larger individuals to select their habitat, while smaller individuals are left dependent on advection. Although experiments adding currents in aquaria would be necessary to confirm these theoretical results, the data obtained would be useful in improving the performance of bio‐mathematical models used to predict jellyfish blooms since, even though the sting of C. marsupialis is non‐fatal, it may produce systemic effects in sensitive swimmers. [ABSTRACT FROM AUTHOR]
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- 2024
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22. Doublecortin-like kinase is required for cnidocyte development in Nematostella vectensis.
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Kraus, Johanna E. M., Busengdal, Henriette, Kraus, Yulia, Hausen, Harald, and Rentzsch, Fabian
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TUBULINS , *SEA anemones , *NERVOUS system , *MICROTUBULE-associated proteins , *CELL physiology , *CYTOSKELETON - Abstract
The complex morphology of neurons requires precise control of their microtubule cytoskeleton. This is achieved by microtubule-associated proteins (MAPs) that regulate the assembly and stability of microtubules, and transport of molecules and vesicles along them. While many of these MAPs function in all cells, some are specifically or predominantly involved in regulating microtubules in neurons. Here we use the sea anemone Nematostella vectensis as a model organism to provide new insights into the early evolution of neural microtubule regulation. As a cnidarian, Nematostella belongs to an outgroup to all bilaterians and thus occupies an informative phylogenetic position for reconstructing the evolution of nervous system development. We identified an ortholog of the microtubule-binding protein doublecortin-like kinase (NvDclk1) as a gene that is predominantly expressed in neurons and cnidocytes (stinging cells), two classes of cells belonging to the neural lineage in cnidarians. A transgenic NvDclk1 reporter line revealed an elaborate network of neurite-like processes emerging from cnidocytes in the tentacles and the body column. A transgene expressing NvDclk1 under the control of the NvDclk1 promoter suggests that NvDclk1 localizes to microtubules and therefore likely functions as a microtubule-binding protein. Further, we generated a mutant for NvDclk1 using CRISPR/Cas9 and show that the mutants fail to generate mature cnidocytes. Our results support the hypothesis that the elaboration of programs for microtubule regulation occurred early in the evolution of nervous systems. [ABSTRACT FROM AUTHOR]
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- 2024
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23. Oxygen supersaturation adds resistance to a cnidarian: Symbiodiniaceae holobiont under moderate warming in experimental settings.
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Arossa, Silvia, Klein, Shannon G., Garuglieri, Elisa, Steckbauer, Alexandra, Parry, Anieka J., Alva Garcia, Jacqueline V., Alamoudi, Taiba, Xinyuan Yang, Shiou-Han Hung, Salazar, Octavio R., Marasco, Ramona, Fusi, Marco, Aranda, Manuel, Daffonchio, Daniele, and Duarte, Carlos M.
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SUPERSATURATION ,THERMAL stresses ,MARINE biology ,BACTERIAL communities ,OXYGEN ,CNIDARIA - Abstract
Ocean warming reduces O
2 solubility and increases organismal O2 demand, endangering marine life. Coastal ecosystems, however, experience O2 supersaturation during peak daytime temperatures due to metabolic cycles. Recent discoveries show that this environmental supersaturation can reduce the vulnerability of tropical species to warming by satisfying their oxygen requirements. To test whether this also occurs within the cnidarian holobiont, we elevated internal O2 in Cassiopea andromeda at nighttime (i.e. holobiont respiration prevails on Symbiodniaceae O2 production) relying on bell pulsation for ventilation, then experimentally subjected them to thermal stress (+1°C day-1 ). Though ecologically unrealistic, this approach verified our hypothesis and eliminated confounding factors. Holobionts were exposed to either constant levels of 100% air saturation (100AS) or nighttime supersaturation (NSS; where 100% air saturation transitioned to O2 supersaturation at nighttime). At sublethal temperatures, supersaturation mitigated reductions in holobiont size of ~ 10.37% (-33.418% ± 0.345 under 100AS vs -23.039% ± 0.687 under NSS). Supersaturation alleviated chlorophyll-a loss by 42.73% until 34°C, when counteraction of this process could not be sustained due to excessive thermal stress. Supersaturation also enriched potentially beneficial bacterial taxa of the microbiome and selected a more consistent bacterial community. Although modest, the detected effects show that a O2 surplus increased the resistance of the holobionts to thermal stress. [ABSTRACT FROM AUTHOR]- Published
- 2024
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24. Evolution of glial cells: a non-bilaterian perspective.
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Sheloukhova, Larisa and Watanabe, Hiroshi
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NEUROGLIA , *CELLULAR evolution , *NERVOUS system , *CTENOPHORA , *SPONGES (Invertebrates) - Abstract
Nervous systems of bilaterian animals generally consist of two cell types: neurons and glial cells. Despite accumulating data about the many important functions glial cells serve in bilaterian nervous systems, the evolutionary origin of this abundant cell type remains unclear. Current hypotheses regarding glial evolution are mostly based on data from model bilaterians. Non-bilaterian animals have been largely overlooked in glial studies and have been subjected only to morphological analysis. Here, we provide a comprehensive overview of conservation of the bilateral gliogenic genetic repertoire of non-bilaterian phyla (Cnidaria, Placozoa, Ctenophora, and Porifera). We overview molecular and functional features of bilaterian glial cell types and discuss their possible evolutionary history. We then examine which glial features are present in non-bilaterians. Of these, cnidarians show the highest degree of gliogenic program conservation and may therefore be crucial to answer questions about glial evolution. [ABSTRACT FROM AUTHOR]
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- 2024
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25. Conservation of Protein Kinase A Substrates in the Cnidarian Coral Spermatozoa Among Animals and Their Molecular Evolution.
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Morita, Masaya, Hanahara, Nozomi, Teramoto, Mariko M., and Tarigan, Ariyo Imanuel
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BIOLOGICAL evolution , *BIOCHEMICAL substrates , *MOLECULAR evolution , *PROTEIN kinases , *CNIDARIA , *SPERMATOZOA , *FISH spawning , *CORALS , *ACROPORA - Abstract
The coral Acropora spp., known for its reef-building abilities, is a simultaneous hermaphroditic broadcast spawning species. Acropora spp. release gametes into seawater, activating sperm motility. This activation is mediated by adenylyl cyclase (AC) and protein kinase A (PKA). Notably, membrane-permeable cAMP (8-bromo-cAMP) promotes sperm motility activation of Acropora florida. While the signal transduction for PKA-dependent motility activation is highly conserved among animals, the downstream signaling of PKA remains unclear. In this study, we used mass spectrometry (MS) analyses to identify sperm proteins in the coral Acropora digitifera, as well as the serine/threonine residues of potential PKA substrates, and then, we investigated the conservation of these proteins from corals to vertebrates. We identified 148 sperm proteins of A. digitifera with typical PKA recognition motifs, namely RRXT and RRXS. We subsequently used ORTHOSCOPE to screen for orthologs encoding these 148 proteins from corals to vertebrates. Among the isolated orthologs, we identified positive selection in 48 protein-encoding genes from 18 Acropora spp. Subsequently, we compared the conservation rates of the PKA phosphorylation motif residues between the orthologs under positive and purifying selections. Notably, the serine residues of the orthologs under positive selection were more conserved. Therefore, adaptive evolution might have occurred in the orthologs of PKA substrate candidates from corals to vertebrates, accompanied by phosphorylation residue conservation. Collectively, our findings suggest that while PKA signal transduction, including substrates in sperm, may have been conserved, the substrates may have evolved to adapt to diverse fertilization conditions, such as synchronous broadcast spawning. [ABSTRACT FROM AUTHOR]
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- 2024
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26. Highly conserved and extremely evolvable: BMP signalling in secondary axis patterning of Cnidaria and Bilateria.
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Mörsdorf, David, Knabl, Paul, and Genikhovich, Grigory
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BONE morphogenetic proteins , *MIRROR images , *FRUIT flies , *FUNCTIONAL analysis , *CNIDARIA - Abstract
Bilateria encompass the vast majority of the animal phyla. As the name states, they are bilaterally symmetric, that is with a morphologically clear main body axis connecting their anterior and posterior ends, a second axis running between their dorsal and ventral surfaces, and with a left side being roughly a mirror image of their right side. Bone morphogenetic protein (BMP) signalling has widely conserved functions in the formation and patterning of the second, dorso-ventral (DV) body axis, albeit to different extents in different bilaterian species. Whilst initial findings in the fruit fly Drosophila and the frog Xenopus highlighted similarities amongst these evolutionarily very distant species, more recent analyses featuring other models revealed considerable diversity in the mechanisms underlying dorsoventral patterning. In fact, as phylogenetic sampling becomes broader, we find that this axis patterning system is so evolvable that even its core components can be deployed differently or lost in different model organisms. In this review, we will try to highlight the diversity of ways by which BMP signalling controls bilaterality in different animals, some of which do not belong to Bilateria. Future research combining functional analyses and modelling is bound to give us some understanding as to where the limits to the extent of the evolvability of BMP-dependent axial patterning may lie. [ABSTRACT FROM AUTHOR]
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- 2024
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27. Antholoba fabiani sp. nov. (Actiniaria, Metridioidea, Antholobidae fam. nov.), a new species and family of sea anemone of the southwestern Atlantic, Brazil.
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Durán-Fuentes, Jeferson A., González-Muñoz, Ricardo, Daly, Marymegan, and Stampar, Sérgio N.
- Abstract
The genus Antholoba Hertwig, 1882 (Actiniaria, Enthemonae) is characterized by the presence of short and numerous tentacles, a folded oral disc in lobes or cup-shaped with an expanded distal part, transversely wrinkled body wall surface, a very long mesogloeal sphincter, parietobasilar muscles poorly developed, and the absence of acontia. Currently, the genus Antholoba is classified within the family Actinostolidae Carlgren, 1893 (superfamily Actinostoloidea Carlgren, 1932) and comprises two valid species: A. achates (Drayton in Dana, 1846) which have been recorded in Antarctica, the southwestern Atlantic, and the southeastern-western Pacific; and A. perdix (Drayton in Dana, 1846) which is distributed in the northwestern Atlantic, including the Gulf of Mexico. In recent collections along Ubatuba Bay in northern São Paulo, Brazil, we found specimens of a third, unknown species, which exhibits morphological and genetic differences from the only other species recorded from that place, A. achates (Drayton in Dana, 1846). Additionally, we examined five specimens of A. achates collected in Penha, Santa Catarina State, for morphological comparison. Our phylogenetic analyses, using molecular data, affirm the difference between the two species. Furthermore, the resultant phylogenetic trees recover the species of the genus Antholoba as a sister group to the acuticulate clade, within the superfamily Metridioidea, instead of within Actinostoloidea. We describe the material from Ubatuba as a new species, A. fabiani sp. nov., providing information and photographs of its external and internal anatomy, as well as cnidom, along with sequences of mitochondrial (12S, 16S, and COIII) and nuclear (18S and 28S) markers. Additionally, we propose placing the genus Antholoba within Metridioidea, and introduce the new family Antholobidae fam. nov. [ABSTRACT FROM AUTHOR]
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- 2024
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28. Description of a new species of Stenula Barnard, 1962 (Amphipoda: Stenothoidae) from British Columbia, Canada associated with Bouillonia sp. (Cnidaria: Hydrozoa: Tubulariidae), with a key to the world species of Stenula.
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Tandberg, Anne Helene S and Vader, Wim
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AMPHIPODA ,CNIDARIA ,HYDROZOA ,SPECIES - Abstract
A new species of the amphipod family Stenothoidae found living in association with tubulariid hydroids in British Columbia, Canada is described. Stenula traudlae sp. nov. , which has a rounded naked telson, a rounded posterodistal tooth on Ep3, and a heavily spinose P5, is described morphologically. We also include an updated key to world species of Stenula s.l. Associations of amphipods with tubulariids and other small hosts are discussed. [ABSTRACT FROM AUTHOR]
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- 2024
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29. On the reproduction of the solitary cold-water coral Fungiacyathus fragilis Sars, 1872 (Cnidaria: Scleractinia), and a new record in the SW Atlantic Ocean deep sea.
- Author
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Calderón, Rodrigo N., Penchaszadeh, Pablo E., and Lauretta, Daniel
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DEEP-sea corals ,SCLERACTINIA ,SUBMARINE valleys ,ASEXUAL reproduction ,REPRODUCTION ,CONTINENTAL slopes ,CNIDARIA ,BACTEROIDES fragilis - Abstract
The first record of the solitary stony coral Fungiacyathus (Fungiacyathus) fragilis is reported from the southwestern Atlantic Ocean. Specimens were collected at the Mar del Plata submarine canyon in the Argentinian continental slope at 2419–3447 m depth during 2012 and 2013. The four specimens studied through histological sections were gonochoric. A high fecundity was recorded for one female (26,496 oocytes per polyp). The maximum size of oocytes was 786 µm suggesting lecitotrophic development, also no planulae were observed. Both previtellogenic and large vitellogenic oocytes were found in all females. Evidence of asexual reproduction was identified in corallum of a dried specimen. [ABSTRACT FROM AUTHOR]
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- 2024
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30. CLOCK evolved in cnidaria to synchronize internal rhythms with diel environmental cues.
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Aguillon, Raphael, Rinsky, Mieka, Simon-Blecher, Noa, Doniger, Tirza, Appelbaum, Lior, and Levy, Oren
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- *
CIRCADIAN rhythms , *MOLECULAR clock , *CLOCK genes , *CNIDARIA , *NEURONAL differentiation , *GENE expression , *RHYTHM - Abstract
The circadian clock enables anticipation of the day/night cycle in animals ranging from cnidarians to mammals. Circadian rhythms are generated through a transcription-translation feedback loop (TTFL or pacemaker) with CLOCK as a conserved positive factor in animals. However, CLOCK's functional evolutionary origin and mechanism of action in basal animals are unknown. In the cnidarian Nematostella vectensis, pacemaker gene transcript levels, including NvClk (the Clock ortholog), appear arrhythmic under constant darkness, questioning the role of NvCLK. Utilizing CRISPR/Cas9, we generated a NvClk allele mutant (NvClkΔ), revealing circadian behavior loss under constant dark (DD) or light (LL), while maintaining a 24 hr rhythm under light-dark condition (LD). Transcriptomics analysis revealed distinct rhythmic genes in wild-type (WT) polypsunder LD compared to DD conditions. In LD, NvClkΔ/Δ polyps exhibited comparable numbers of rhythmic genes, but were reduced in DD. Furthermore, under LD, the NvClkΔ/Δ polyps showed alterations in temporal pacemaker gene expression, impacting their potential interactions. Additionally, differential expression of non-rhythmic genes associated with cell division and neuronal differentiation was observed. These findings revealed that a light-responsive pathway can partially compensate for circadian clock disruption, and that the Clock gene has evolved in cnidarians to synchronize rhythmic physiology and behavior with the diel rhythm of the earth's biosphere. [ABSTRACT FROM AUTHOR]
- Published
- 2024
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31. Photosynthesis and other factors affecting the establishment and maintenance of cnidarian–dinoflagellate symbiosis.
- Author
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Tran, Cawa, Rosenfield, Gabriel R., Cleves, Phillip A., Krediet, Cory J., Paul, Maitri R., Clowez, Sophie, Grossman, Arthur R., and Pringle, John R.
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SYMBIOSIS , *COLONIZATION (Ecology) , *ALGAL cells , *PHOTOSYNTHESIS , *SEA anemones , *CNIDARIA , *CORALS - Abstract
Coral growth depends on the partnership between the animal hosts and their intracellular, photosynthetic dinoflagellate symbionts. In this study, we used the sea anemone Aiptasia, a laboratory model for coral biology, to investigate the poorly understood mechanisms that mediate symbiosis establishment and maintenance. We found that initial colonization of both adult polyps and larvae by a compatible algal strain was more effective when the algae were able to photosynthesize and that the long-term maintenance of the symbiosis also depended on photosynthesis. In the dark, algal cells were taken up into host gastrodermal cells and not rapidly expelled, but they seemed unable to reproduce and thus were gradually lost. When we used confocal microscopy to examine the interaction of larvae with two algal strains that cannot establish stable symbioses with Aiptasia, it appeared that both pre- and post-phagocytosis mechanisms were involved. With one strain, algae entered the gastric cavity but appeared to be completely excluded from the gastrodermal cells. With the other strain, small numbers of algae entered the gastrodermal cells but appeared unable to proliferate there and were slowly lost upon further incubation. We also asked if the exclusion of either incompatible strain could result simply from their cells' being too large for the host cells to accommodate. However, the size distributions of the compatible and incompatible strains overlapped extensively. Moreover, examination of macerates confirmed earlier reports that individual gastrodermal cells could expand to accommodate multiple algal cells. This article is part of the theme issue 'Sculpting the microbiome: how host factors determine and respond to microbial colonization'. [ABSTRACT FROM AUTHOR]
- Published
- 2024
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32. The oceanic pleuston community as a potentially crucial life-cycle pathway for pelagic fish-infecting parasitic worms.
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Louvard, Clarisse, Yong, Russell Q.-Y., Cutmore, Scott C., and Cribb, Thomas H.
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HELMINTHS , *TREMATODA , *TOP predators , *NUMBERS of species , *PELAGIC fishes , *SPECIES diversity , *CNIDARIA , *HOST specificity (Biology) - Abstract
[Display omitted] • Free-floating pleuston harbours large numbers of hemiuroid metacercariae. • Four of seven hemiuroid taxa sampled were molecularly identified to species. • Open ocean hemiuroid life-cycles are highly plastic with low host specificity. • We found low species richness suggesting alternative pelagic or benthic transmission pathways. • Transmission may depend on trophic interactions both at the surface and at depth. Pleustonic organisms form an important part of pelagic ecosystems by contributing to pelagic trophic chains and supporting connectivity between oceanic habitats. This study systematically analysed the trematode community harboured by pleustonic molluscs and cnidarians from offshore Queensland, Australia. Four mollusc and three cnidarian species were collected from beaches of North Stradbroke Island, Queensland. Two mollusc species and all three cnidarians harboured large numbers of hemiuroid metacercariae (Trematoda: Hemiuroidea). Eight taxa from four hemiuroid families (Accacoeliidae, Didymozoidae, Hemiuridae and Sclerodistomidae) were distinguished via molecular sequencing. Four of those taxa were identified to species. All trematode taxa except one didymozoid were shared by two or more host species; five species occurred in both gastropods and cnidarians. It is hypothesised that the life-cycles of these hemiuroids are highly plastic, involving multiple opportunistic pathways of metacercarial transmission to the definitive hosts. Transmission and the use of pleuston by hemiuroids likely varies with sea surface use and ontogenetic trophic shifts of apex predators. The small number of trematode species found in pleuston is consistent with significant ecological specificity, and the inference that other pelagic trematodes use alternative pathways of transmission that do not involve pleustonic organisms. Such pathways may involve i) pelagic hosts exclusively; ii) benthic or demersal hosts exclusively, consumed by apex predators during their dives; or iii) both benthic and pelagic hosts in transmission chains dependent on vertical migrations of prey. The influence of the connectivity of open-ocean ecosystems on parasite transmission is identified as an area in critical need of research. [ABSTRACT FROM AUTHOR]
- Published
- 2024
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33. Conserved Genes in Highly Regenerative Metazoans Are Associated with Planarian Regeneration.
- Author
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Chereddy, Shankar C R R and Makino, Takashi
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NERVOUS system regeneration , *RNA interference , *TRANSCRIPTION factors , *SMALL interfering RNA , *GENES , *SKIN regeneration , *CNIDARIA - Abstract
Metazoan species depict a wide spectrum of regeneration ability which calls into question the evolutionary origins of the underlying processes. Since species with high regeneration ability are widely distributed throughout metazoans, there is a possibility that the metazoan ancestor had an underlying common molecular mechanism. Early metazoans like sponges possess high regenerative ability, but, due to the large differences they have with Cnidaria and Bilateria regarding symmetry and neuronal systems, it can be inferred that this regenerative ability is different. We hypothesized that the last common ancestor of Cnidaria and Bilateria possessed remarkable regenerative ability which was lost during evolution. We separated Cnidaria and Bilateria into three classes possessing whole-body regenerating, high regenerative ability, and low regenerative ability. Using a multiway BLAST and gene phylogeny approach, we identified genes conserved in whole-body regenerating species and lost in low regenerative ability species and labeled them Cnidaria and Bilaterian regeneration genes. Through transcription factor analysis, we identified that Cnidaria and Bilaterian regeneration genes were associated with an overabundance of homeodomain regulatory elements. RNA interference of Cnidaria and Bilaterian regeneration genes resulted in loss of regeneration phenotype for HRJDa , HRJDb , DUF21 , DISP3 , and ARMR genes. We observed that DUF21 knockdown was highly lethal in the early stages of regeneration indicating a potential role in wound response. Also, HRJDa , HRJDb , DISP3 , and ARMR knockdown showed loss of regeneration phenotype after second amputation. The results strongly correlate with their respective RNA-seq profiles. We propose that Cnidaria and Bilaterian regeneration genes play a major role in regeneration across highly regenerative Cnidaria and Bilateria. [ABSTRACT FROM AUTHOR]
- Published
- 2024
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34. Signalling pathway associated with discharge of cnidocyst induced by reduced glutathione in Hydra plagiodesmica (Dioni, 1968).
- Author
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Gavazzi, María Victoria, Ronderos, Jorge Rafael, and Alzugaray, María Eugenia
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CELLULAR signal transduction , *GLUTATHIONE , *CALCIUM channels , *SENSORY receptors , *ENDOPLASMIC reticulum , *HYDROZOA - Abstract
In the present work, we study the effect of different stimuli (living preys, its homogenate, and reduced glutathione (GSH)) on the discharge of desmonemes in the freshwater cnidarian, Hydra plagiodesmica (Dioni, 1968) (Cnidaria: Hydrozoa). Once confirmed their stimulatory effect, we choose GSH to analyze the relevance of Ca2+, the probable identity of the sensory receptor molecule, and the specific signalling pathway driving the discharge mechanism. Our results show that not only mechanical, but also chemical stimuli by itself may stimulate the discharge of desmonemes. Using calcium chelators, we verify that the discharge mechanism triggered by GSH is dependent on calcium. By mean of drugs that inhibit proteins pertaining to canonical signalling pathways, including GPCRs, we show that GSH causes the influx of Ca2+ via L-type voltage sensitive calcium channel (VGCC), and its release by mean of endoplasmic reticulum calcium channels. Moreover, our results suggest that the putative receptor for GSH is a GPCR coupled to Gq, which produces IP3 and Ca2+ as second messengers. Finally, we show that the genome of Hydra vulgaris (Pallas, 1766) predicts the existence of the different subunits of L-type VGCC, showing a high level of conservation when compared with other groups of Metazoa. [ABSTRACT FROM AUTHOR]
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- 2024
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35. Three new species and a status revision of Hydroidomedusa (Cnidaria: Hydrozoa) from the coast of China.
- Author
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Chen, Xiaoyin, Hu, Zhijie, Xiang, Peng, Yang, Jia, Chang, Lin, Xu, Zhenzu, and Wang, Chunguang
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- *
HYDROZOA , *CNIDARIA , *WATER depth , *SPECIES , *COASTS - Abstract
Three previously unknown species of Hydroidomedusa are described from plankton samples collected during oceanographic cruises undertaken along the coast of China. The Anthomedusae Ectopleura dongshanensis Xu, Chen & Chang sp. n. and Ectopleura brevinema Xu, Chen & Wang sp. n. were collected in Dongshan Bay, and the Leptomedusae species Eirene globogonia Xu & Chen sp. n. was found in the shallow waters of Hainan Island. All new species are described and illustrated here. The species Eirene chiaochowensis (Kao, Li , Chang & Li , 1958) stat. rev. is revised to a valid species. Keys to known species of the genera Ectopleura and Eirene are provided. All specimens were deposited at the Third Institute of Oceanography, China. [ABSTRACT FROM AUTHOR]
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- 2024
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36. Sea Anemone Membrane Attack Complex/Perforin Superfamily Demonstrates an Evolutionary Transitional State between Venomous and Developmental Functions.
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Surm, Joachim M, Landau, Morani, Columbus-Shenkar, Yaara Y, and Moran, Yehu
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SEA anemones ,PERFORINS ,SCLERACTINIA ,VENOM ,CHROMOSOME duplication ,ALCYONACEA ,COMPARATIVE genomics - Abstract
Gene duplication is a major force driving evolutionary innovation. A classic example is generating new animal toxins via duplication of physiological protein-encoding genes and recruitment into venom. While this process drives the innovation of many animal venoms, reverse recruitment of toxins into nonvenomous cells remains unresolved. Using comparative genomics, we find members of the Membrane Attack Complex and Perforin Family (MAC) have been recruited into venom-injecting cells (cnidocytes), in soft and stony corals and sea anemones, suggesting that the ancestral MAC was a cnidocyte expressed toxin. Further investigation into the model sea anemone Nematostella vectensis reveals that three members have undergone Nematostella -specific duplications leading to their reverse recruitment into endomesodermal cells. Furthermore, simultaneous knockdown of all three endomesodermally expressed MACs leads to mis-development, supporting that these paralogs have nonvenomous function. By resolving the evolutionary history and function of MACs in Nematostella , we provide the first proof for reverse recruitment from venom to organismal development. [ABSTRACT FROM AUTHOR]
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- 2024
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37. Synthetic ShK-like Peptide from the Jellyfish Nemopilema nomurai Has Human Voltage-Gated Potassium-Channel-Blocking Activity.
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Kim, Ye-Ji, Jo, Yejin, Lee, Seung Eun, Kim, Jungeun, Choi, Jae-Pil, Lee, Nayoung, Won, Hyokyoung, Woo, Dong Ho, and Yum, Seungshic
- Abstract
We identified a new human voltage-gated potassium channel blocker, NnK-1, in the jellyfish Nemopilema nomurai based on its genomic information. The gene sequence encoding NnK-1 contains 5408 base pairs, with five introns and six exons. The coding sequence of the NnK-1 precursor is 894 nucleotides long and encodes 297 amino acids containing five presumptive ShK-like peptides. An electrophysiological assay demonstrated that the fifth peptide, NnK-1, which was chemically synthesized, is an effective blocker of hKv1.3, hKv1.4, and hKv1.5. Multiple-sequence alignment with cnidarian Shk-like peptides, which have Kv1.3-blocking activity, revealed that three residues (
3 Asp,25 Lys, and34 Thr) of NnK-1, together with six cysteine residues, were conserved. Therefore, we hypothesized that these three residues are crucial for the binding of the toxin to voltage-gated potassium channels. This notion was confirmed by an electrophysiological assay with a synthetic peptide (NnK-1 mu) where these three peptides were substituted with3 Glu,25 Arg, and34 Met. In conclusion, we successfully identified and characterized a new voltage-gated potassium channel blocker in jellyfish that interacts with three different voltage-gated potassium channels. A peptide that interacts with multiple voltage-gated potassium channels has many therapeutic applications in various physiological and pathophysiological contexts. [ABSTRACT FROM AUTHOR]- Published
- 2024
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38. Evolution of myxozoan mitochondrial genomes: insights from myxobolids.
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Sandberg, Tatiana Orli Milkewitz, Yahalomi, Dayana, Bracha, Noam, Haddas-Sasson, Michal, Pupko, Tal, Atkinson, Stephen D., Bartholomew, Jerri L., Zhang, Jin Yong, and Huchon, Dorothée
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MYXOZOA , *GENOMES , *CYTOCHROME oxidase , *BIOGEOGRAPHY , *MITOCHONDRIA , *TRANSFER RNA , *PLASMIDS - Abstract
Background: Myxozoa is a class of cnidarian parasites that encompasses over 2,400 species. Phylogenetic relationships among myxozoans remain highly debated, owing to both a lack of informative morphological characters and a shortage of molecular markers. Mitochondrial (mt) genomes are a common marker in phylogeny and biogeography. However, only five complete myxozoan mt genomes have been sequenced: four belonging to two closely related genera, Enteromyxum and Kudoa, and one from the genus Myxobolus. Interestingly, while cytochrome oxidase genes could be identified in Enteromyxum and Kudoa, no such genes were found in Myxobolus squamalis, and another member of the Myxobolidae (Henneguya salminicola) was found to have lost its entire mt genome. To evaluate the utility of mt genomes to reconstruct myxozoan relationships and to understand if the loss of cytochrome oxidase genes is a characteristic of myxobolids, we sequenced the mt genome of five myxozoans (Myxobolus wulii, M. honghuensis, M. shantungensis, Thelohanellus kitauei and, Sphaeromyxa zaharoni) using Illumina and Oxford Nanopore platforms. Results: Unlike Enteromyxum, which possesses a partitioned mt genome, the five mt genomes were encoded on single circular chromosomes. An mt plasmid was found in M. wulii, as described previously in Kudoa iwatai. In all new myxozoan genomes, five protein-coding genes (cob, cox1, cox2, nad1, and nad5) and two rRNAs (rnl and rns) were recognized, but no tRNA. We found that Myxobolus and Thelohanellus species shared unidentified reading frames, supporting the view that these mt open reading frames are functional. Our phylogenetic reconstructions based on the five conserved mt genes agree with previously published trees based on the 18S rRNA gene. Conclusions: Our results suggest that the loss of cytochrome oxidase genes is not a characteristic of all myxobolids, the ancestral myxozoan mt genome was likely encoded on a single circular chromosome, and mt plasmids exist in a few lineages. Our findings indicate that myxozoan mt sequences are poor markers for reconstructing myxozoan phylogenetic relationships because of their fast-evolutionary rates and the abundance of repeated elements, which complicates assembly. [ABSTRACT FROM AUTHOR]
- Published
- 2024
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39. Shining light on dinoflagellate photosystem I.
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Lin, Senjie, Wu, Shuaishuai, He, Jiamin, Wang, Xiaoyu, and Grossman, Arthur R.
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PHOTOSYSTEMS ,ANTENNAS (Electronics) ,CNIDARIA ,DINOFLAGELLATES ,SYMBIODINIUM ,CORALS - Abstract
Dinoflagellates are ecologically important and essential to corals and other cnidarians as phytosymbionts, but their photosystems had been underexplored. Recently, photosystem I (PSI) of dinoflagellate Symbiodinium sp. was structurally characterized using cryo-Electron Microscopy (cryo-EM). These analyses revealed a distinct organization of the PSI supercomplex, including two previously unidentified subunits, PsaT and PsaU, and shed light on interactions between light harvesting antenna proteins and the PSI core. These results have implications with respect to the evolution of dinoflagellates and their association with cnidarians. [ABSTRACT FROM AUTHOR]
- Published
- 2024
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40. Paragoniastrea variabilis Kishi, Nomura & Fukami, sp. nov. (Cnidaria, Anthozoa, Scleractinia), a new coral species previously considered as a variant of Paragoniastrea deformis, from Japan and northern Taiwan.
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Kishi, Daigo, Nomura, Keiichi, Nozawa, Yoko, Arakaki, Seiji, and Fukami, Hironobu
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SCLERACTINIA , *ANTHOZOA , *CORALS , *MOLECULAR phylogeny , *SPECIES , *CNIDARIA - Abstract
A new zooxanthellate scleractinian coral, Paragoniastrea variabilis Kishi, Nomura & Fukami, sp. nov. (Scleractinia, Merulinidae), is described from non-coral reef regions of Japan and northern Taiwan. This new species was previously recognized as a morphological variant of Paragoniastrea deformis (Veron, 1990) and can be morphologically distinguished from that species by lacking groove-and-tube structures on corallite wall joints, and by having larger calices, numerous septa, and up to three corallites in one valley. The new species also formed an independent clade from its congeners, P. australensis (Milne Edwards & Haime, 1857), P. deformis and P. russelli (Wells, 1954), in the molecular phylogeny based on the mitochondrial intergenic region and nuclear ribosomal internal transcribed spacers. [ABSTRACT FROM AUTHOR]
- Published
- 2024
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41. Distribution and Genetic Lineages of the Craspedacusta sowerbii Species Complex (Cnidaria, Olindiidae) in Italy.
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Morpurgo, Massimo, Marrone, Federico, Ciutti, Francesca, Cappelletti, Cristina, Vorhauser, Samuel, Alber, Renate, Dossena, Matteo, Salmaso, Nico, Fontaneto, Diego, Caputo, Luciano, and Vecchioni, Luca
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BIOLOGICAL classification , *CYTOCHROME oxidase , *SPECIES , *JELLYFISHES , *INTRODUCED species , *CNIDARIA - Abstract
Simple Summary: The genus Craspedacusta comprises invasive freshwater jellyfish species present in all continents except Antarctica. Due to the morphological plasticity of the medusa stage, the number of species in the genus Craspedacusta is still disputed. Here, we shed new light on the distribution of the genetic lineages of these non-native species across the Italian peninsula, Sicily, and Sardinia. Since the first Italian record in 1946 and up to the last available review in 2017, Craspedacusta medusae were reported in 40 Italian water bodies. In the present study, we report 21 new records of Craspedacusta medusae presence since its latest finding in 2017. Furthermore, we present results of the molecular analyses conducted on the collected medusae. Our findings show the presence of two distinctive genetic lineages of Craspedacusta in Italy: (i) a group whose distribution ranges from central to northern Italy; and (ii) a group that comprises three populations from northern Italy and the single Sicilian population known to date. Olindiid freshwater jellyfishes of the genus Craspedacusta Lankester, 1880 are native to eastern Asia; however, some species within the genus have been introduced worldwide and are nowadays present in all continents except Antarctica. To date, there is no consensus regarding the taxonomy within the genus Craspedacusta due to the morphological plasticity of the medusa stages. The species Craspedacusta sowerbii Lankester, 1880 was first recorded in Italy in 1946, and until 2017, sightings of the jellyfish Craspedacusta were reported for 40 water bodies. Here, we shed new light on the presence of the freshwater jellyfishes belonging to the genus Craspedacusta across the Italian peninsula, Sardinia, and Sicily. First, we report 21 new observations of this non-native taxon, of which eighteen refer to medusae sightings, two to environmental DNA sequencing, and one to the finding of polyps. Then, we investigate the molecular diversity of collected Craspedacusta specimens, using a Bayesian analysis of sequences of the mitochondrial gene encoding for Cytochrome c Oxidase Subunit I (mtDNA COI). Our molecular analysis shows the presence of two distinctive genetic lineages: (i) a group that comprises sequences obtained from populations ranging from central to northern Italy; (ii) a group that comprises three populations from northern Italy—i.e., those from the Lake Levico, the Lake Santo of Monte Terlago, and the Lake Endine—and the single known Sicilian population. We also report for the first time a mtDNA COI sequence obtained from a Craspedacusta medusa collected in Spain. [ABSTRACT FROM AUTHOR]
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- 2024
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42. First insights into the embryo and larval biology of the antipatharian coral Antipathella wollastoni.
- Author
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Rakka, Maria, Godinho, Antonio, Bilan, Meri, and Carreiro-Silva, Marina
- Abstract
Antipatharians are conspicuous habitat-forming coral species in shallow, mesophotic and deep sea environments worldwide. Despite their ecological importance, very little is known about their early life stages. In this study, we provide the first detailed description of the embryo and larval biology of the antipatharian coral species Antipathella wollastoni. Embryos were reared in aquaria, allowing observations of the embryo development, embryo and larval survival, as well as larval swimming behavior of the species. After gametes were released into the water column, fertilized oocytes developed into planktotrophic planulae within 48 h. Embryo and larval mortality was high, and median survival was 12–18 h. Larvae were active swimmers, with an average swimming speed of 0.35 ± 0.12 mm s−1. These larval characteristics contradict previous descriptions of antipatharian larvae that report non-feeding, crawling larvae, therefore further studies are imperative to better understand early life processes in this taxonomic order. [ABSTRACT FROM AUTHOR]
- Published
- 2024
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43. Unravelling the relationships among Madrepora Linnaeus, 1758, Oculina Lamark, 1816 and Cladocora Ehrenberg, 1834 (Cnidaria: Anthozoa: Scleractinia).
- Author
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Addamo, Anna M., Modrell, Melinda S., Taviani, Marco, and Machordom, Annie
- Subjects
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ACROPORA , *SCLERACTINIA , *ANTHOZOA , *DEEP-sea corals , *CORALS , *CNIDARIA - Abstract
Despite the widespread use of integrative taxonomic approaches, many scleractinian coral genera and species remain grouped in polyphyletic families, classified as incertae sedis or simply understudied. Oculinidae Gray, 1847 represents a family for which many taxonomic questions remain unresolved, particularly those related to some of the current genera, such as Oculina Lamark, 1816 or recently removed genera, including Cladocora Ehrenberg, 1834 and Madrepora Linnaeus, 1758. Cladocora is currently assigned to the family Cladocoridae Milne Edwards & Haime, 1857 and a new family, Bathyporidae Kitahara, Capel, Zilberberg & Cairns, 2024, was recently raised to accommodate Madrepora. However, the name Bathyporidae is not valid because this was not formed on the basis of a type genus name. To resolve taxonomic questions related to these three genera, the evolutionary relationships are explored through phylogenetic analyses of 18 molecular markers. The results of these analyses support a close relationship between the species Oculina patagonica and Cladocora caespitosa, indicating that these may belong to the same family (and possibly genus), and highlighting the need for detailed revisions of Oculina and Cladocora. By contrast, a distant relationship is found between these two species and Madrepora oculata, with the overall evidence supporting the placement of Madrepora in the resurrected family Madreporidae Ehrenberg, 1834. This study advances our knowledge of coral systematics and highlights the need for a comprehensive review of the genera Oculina, Cladocora and Madrepora. [ABSTRACT FROM AUTHOR]
- Published
- 2024
- Full Text
- View/download PDF
44. The branched mitochondrial respiratory chain from the jellyfish Stomolophus sp2 as a probable adaptive response to environmental changes.
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Nevarez-Lopez, C. A., Muhlia-Almazan, A., Gamero-Mora, E., Sanchez-Paz, A., Sastre-Velasquez, C. D., and Lopez-Martinez, J.
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MITOCHONDRIAL membranes , *JELLYFISHES , *MITOCHONDRIA , *PLANT mitochondria , *CNIDARIA , *MASS spectrometry , *CLIMATE change - Abstract
During their long evolutionary history, jellyfish have faced changes in multiple environmental factors, to which they may selectively fix adaptations, allowing some species to survive and inhabit diverse environments. Previous findings have confirmed the jellyfish's ability to synthesize large ATP amounts, mainly produced by mitochondria, in response to environmental challenges. This study characterized the respiratory chain from the mitochondria of the jellyfish Stomolophus sp2 (previously misidentified as Stomolophus meleagris). The in-gel activity from isolated jellyfish mitochondria confirmed that the mitochondrial respiratory chain contains the four canonical complexes I to IV and F0F1-ATP synthase. Specific additional activity bands, immunodetection, and mass spectrometry identification confirmed the occurrence of four alternative enzymes integrated into a branched mitochondrial respiratory chain of Stomolophus sp2: an alternative oxidase and three dehydrogenases (two NADH type II enzymes and a mitochondrial glycerol-3-phosphate dehydrogenase). The analysis of each transcript sequence, their phylogenetic relationships, and each protein's predicted models confirmed the mitochondrial alternative enzymes' identity and specific characteristics. Although no statistical differences were found among the mean values of transcript abundance of each enzyme in the transcriptomes of jellyfish exposed to three different temperatures, it was confirmed that each gene was expressed at all tested conditions. These first-time reported enzymes in cnidarians suggest the adaptative ability of jellyfish's mitochondria to display rapid metabolic responses, as previously described, to maintain energetic homeostasis and face temperature variations due to climate change. [ABSTRACT FROM AUTHOR]
- Published
- 2024
- Full Text
- View/download PDF
45. Taxonomy and nomenclature in the widespread and well-known sea anemone Metridium de Blainville, 1824.
- Author
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Daly, Marymegan, Glon, Heather, and Li, Yang
- Abstract
Metridium senile (Linneaus, 1761) is simultaneously one of the most familiar sea anemones in temperate shallow water and a species embroiled in taxonomic and nomenclatural confusion. Their large body size, characteristic ruff of tentacles, and ability to thrive on artificial and natural substrates make these animals conspicuous and common on rocky ledges, pilings, wharfs, shipwrecks, and bivalve reefs. Their reported range encompasses all temperate habitats in the northern hemisphere plus a handful of locales in the temperate southern hemisphere that have typically been characterized as anthropogenic introductions. Understanding the range of M. senile has been confounded by confusion about its circumscription relative to its congeners and inconsistency in the names used. Here, we summarize the taxonomy of the genus and clarify the status of M. senile. Based on results of recent phylogenetic studies, we consider Metridium to have two valid species: M. farcimen (Brandt, 1835) and M. senile. We recognize M. senile as the valid, appropriate name for all populations of Metridium in the Atlantic and for some of the populations in the Pacific. We consider M. dianthus (Ellis, 1767), M. exile Hand 1955, M. huanghaiense Pei, 1998, and M. sinensis Pei, 1998 to be junior synonyms of M. senile. We clarify the differences between M. senile and M. farcimen, and comment on the status of M. canum Stuckey, 1914. [ABSTRACT FROM AUTHOR]
- Published
- 2024
- Full Text
- View/download PDF
46. Marine-Derived Peptides with Anti-Hypertensive Properties: Prospects for Pharmaceuticals, Supplements, and Functional Food.
- Author
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Walquist, Mari Johannessen, Eilertsen, Karl-Erik, Elvevoll, Edel Oddny, and Jensen, Ida-Johanne
- Abstract
Hypertension, a major health concern linked to heart disease and premature mortality, has prompted a search for alternative treatments due to side effects of existing medications. Sustainable harvesting of low-trophic marine organisms not only enhances food security but also provides a variety of bioactive molecules, including peptides. Despite comprising only a fraction of active natural compounds, peptides are ideal for drug development due to their size, stability, and resistance to degradation. Our review evaluates the anti-hypertensive properties of peptides and proteins derived from selected marine invertebrate phyla, examining the various methodologies used and their application in pharmaceuticals, supplements, and functional food. A considerable body of research exists on the anti-hypertensive effects of certain marine invertebrates, yet many species remain unexamined. The array of assessments methods, particularly for ACE inhibition, complicates the comparison of results. The dominance of in vitro and animal in vivo studies indicates a need for more clinical research in order to transition peptides into pharmaceuticals. Our findings lay the groundwork for further exploration of these promising marine invertebrates, emphasizing the need to balance scientific discovery and marine conservation for sustainable resource use. [ABSTRACT FROM AUTHOR]
- Published
- 2024
- Full Text
- View/download PDF
47. High Intrinsic Oncogenic Potential in the Myc-Box-Deficient Hydra Myc3 Protein
- Author
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Lechable, Marion, Tang, Xuechen, Siebert, Stefan, Feldbacher, Angelika, Fernández-Quintero, Monica L, Breuker, Kathrin, Juliano, Celina E, Liedl, Klaus R, Hobmayer, Bert, and Hartl, Markus
- Subjects
Biochemistry and Cell Biology ,Biological Sciences ,Genetics ,Regenerative Medicine ,Stem Cell Research ,Stem Cell Research - Nonembryonic - Non-Human ,Rare Diseases ,Cancer ,Biotechnology ,2.1 Biological and endogenous factors ,Aetiology ,1.1 Normal biological development and functioning ,Underpinning research ,Generic health relevance ,Animals ,Humans ,Hydra ,Amino Acid Sequence ,Genes ,myc ,Helix-Loop-Helix Motifs ,Amino Acids ,cancer ,cnidaria ,development ,gene regulation ,interstitial stem cell ,neurogenesis ,oncogene ,signal transduction ,Biological sciences ,Biomedical and clinical sciences - Abstract
The proto-oncogene myc has been intensively studied primarily in vertebrate cell culture systems. Myc transcription factors control fundamental cellular processes such as cell proliferation, cell cycle control and stem cell maintenance. Myc interacts with the Max protein and Myc/Max heterodimers regulate thousands of target genes. The genome of the freshwater polyp Hydra encodes four myc genes (myc1-4). Previous structural and biochemical characterization showed that the Hydra Myc1 and Myc2 proteins share high similarities with vertebrate c-Myc, and their expression patterns suggested a function in adult stem cell maintenance. In contrast, an additional Hydra Myc protein termed Myc3 is highly divergent, lacking the common N-terminal domain and all conserved Myc-boxes. Single cell transcriptome analysis revealed that the myc3 gene is expressed in a distinct population of interstitial precursor cells committed to nerve- and gland-cell differentiation, where the Myc3 protein may counteract the stemness actions of Myc1 and Myc2 and thereby allow the implementation of a differentiation program. In vitro DNA binding studies showed that Myc3 dimerizes with Hydra Max, and this dimer efficiently binds to DNA containing the canonical Myc consensus motif (E-box). In vivo cell transformation assays in avian fibroblast cultures further revealed an unexpected high potential for oncogenic transformation in the conserved Myc3 C-terminus, as compared to Hydra Myc2 or Myc1. Structure modeling of the Myc3 protein predicted conserved amino acid residues in its bHLH-LZ domain engaged in Myc3/Max dimerization. Mutating these amino acid residues in the human c-Myc (MYC) sequence resulted in a significant decrease in its cell transformation potential. We discuss our findings in the context of oncogenic transformation and cell differentiation, both relevant for human cancer, where Myc represents a major driver.
- Published
- 2023
48. From coral reefs into the abyss: the evolution of corallivory in the Coralliophilinae (Neogastropoda, Muricidae)
- Author
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Nocella, Elisa, Fassio, Giulia, Zuccon, Dario, Puillandre, Nicolas, Modica, Maria Vittoria, and Oliverio, Marco
- Published
- 2024
- Full Text
- View/download PDF
49. Host starvation and in hospite degradation of algal symbionts shape the heat stress response of the Cassiopea-Symbiodiniaceae symbiosis
- Author
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Gaëlle Toullec, Nils Rädecker, Claudia Pogoreutz, Guilhem Banc-Prandi, Stéphane Escrig, Christel Genoud, Cristina Martin Olmos, Jorge Spangenberg, and Anders Meibom
- Subjects
Climate change ,Photosymbiosis ,Cnidaria ,Symbiodiniaceae ,Bleaching ,Metabolism ,Microbial ecology ,QR100-130 - Abstract
Abstract Background Global warming is causing large-scale disruption of cnidarian-Symbiodiniaceae symbioses fundamental to major marine ecosystems, such as coral reefs. However, the mechanisms by which heat stress perturbs these symbiotic partnerships remain poorly understood. In this context, the upside-down jellyfish Cassiopea has emerged as a powerful experimental model system. Results We combined a controlled heat stress experiment with isotope labeling and correlative SEM-NanoSIMS imaging to show that host starvation is a central component in the chain of events that ultimately leads to the collapse of the Cassiopea holobiont. Heat stress caused an increase in catabolic activity and a depletion of carbon reserves in the unfed host, concurrent with a reduction in the supply of photosynthates from its algal symbionts. This state of host starvation was accompanied by pronounced in hospite degradation of algal symbionts, which may be a distinct feature of the heat stress response of Cassiopea. Interestingly, this loss of symbionts by degradation was concealed by body shrinkage of the starving animals, resulting in what could be referred to as “invisible” bleaching. Conclusions Overall, our study highlights the importance of the nutritional status in the heat stress response of the Cassiopea holobiont. Compared with other symbiotic cnidarians, the large mesoglea of Cassiopea, with its structural sugar and protein content, may constitute an energy reservoir capable of delaying starvation. It seems plausible that this anatomical feature at least partly contributes to the relatively high stress tolerance of these animals in rapidly warming oceans. Video Abstract
- Published
- 2024
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50. New molecular evidence on the members of the genus Ortholinea (Cnidaria, Myxozoa) and the description of Ortholinea hamsiensis n. sp. infecting the urinary bladder of European anchovy Engraulis engrasicolus in the Black Sea.
- Author
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Okkay, Sevilay, Gürkanlı, Cem Tolga, Çiftçi, Yılmaz, and Özer, Ahmet
- Subjects
- *
ENGRAULIS encrasicolus , *BLADDER , *MYXOZOA , *MARINE fishes , *CNIDARIA , *NEOGOBIUS - Abstract
Members of the genus Ortholinea are among the worldwide distributed myxozoan parasites that mainly infect marine fish. In this study, a new myxosporean species, Ortholinea hamsiensis n. sp., was isolated from the urinary bladder of European anchovy Engraulis engrasicolus collected from the Sinop coasts of the Black Sea. The prevalence and density values of infection were 1.4% and 1–5 individuals in the field of view (1 +), respectively. Mature myxospores are subspherical with slight tapering down to the less pronounced tip in the frontal view and subspherical in the sutural view. Myxospores measured 9.1 ± 0.25 (8.8–9.9) μ m in length, 9.2 ± 0.11 (8.9–9.4) μ m in thickness, and 8.4 ± 0.33 (8.2-9.1) μ m in width. Two polar capsules equal in size measured 3.1 ± 0.11 (3.0–3.3) μ m in length and 2.7 ± 0.11 (2.6–2.9) μ m in width. The polar tubule had 3–4 coils. Along with morphological peculiarities, the results of the 18S rDNA also revealed it to be a new species for science compared to the other species of the genus. In this study, another myxosporean species O. gobiusi was also detected in round goby Neogobius melanostomus with a prevalence of infection value of 4.8% and a density of 1–5 individuals in the field of view (1 +). The present study also provided the first data of 18S rDNA of O. gobiusi from N. melanostomus and type species of the genus O. divergens from Gobius niger and the phylogenetic relationships of these species with other Ortholinea species have been revealed. [ABSTRACT FROM AUTHOR]
- Published
- 2024
- Full Text
- View/download PDF
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