Your search keyword '"Sea Anemones"' showing total 4,626 results

1. Revision of the genus Actinostella (Cnidaria, Actiniaria, Actinioidea) from tropical and subtropical western Atlantic and eastern Pacific : redescriptions and synonymies

Author

Barragán, Yamaly, Rodríguez, Estefanía, Chiodo, Tommaso, Gusmão, Luciana Câmara, 1981, Sánchez Ortiz, Carlos A., Lauretta, Daniel, American Museum of Natural History Library, Barragán, Yamaly, Rodríguez, Estefanía, Chiodo, Tommaso, Gusmão, Luciana Câmara, 1981, Sánchez Ortiz, Carlos A., and Lauretta, Daniel

Subjects

Classification, Cnidaria, Morphology, Phylogeny, Sea anemones

Published

2024

2. Hangry Sea Anemones Takeover the Rocky Intertidal

Author

Tang, Ryan, Kaplan, Sophia, Vinas, Nicolas, Gupta, Simren, Ramamurthy, Sriram, and Kuris, Armand

Subjects

Sea anemones, rocky intertidal, spatial distribution, spatial competition, behavioral ecology, aggression, energetics, diet

Abstract

The rocky intertidal zone is a paradigmatic ecosystem found along the coastline where the land meets the sea. It holds a plethora of unique animals that fill various niches, creating an atmosphere of constant interactions among both biotic and abiotic factors. The intertidal sea anemone, Anthopleura sola, (A. sola) is dispersed throughout our coastline, making it a widely abundant animal with — surprisingly — limited research done on the species. Our research proposes to examine the ecology of intraspecific aggression among A. sola and how their behaviors influence biological organization at both the individual and population levels. To further understand how habitat-specific factors influence spatial distribution, we will investigate agonistic behaviors that are likely to occur across two different habitats: cobble and bench. We define a cobble habitat as being of loose cobblestone and a bench habitat as a flat, continuous rock substrate. Previous analysis of these habitats from Coal Oil Point, Santa Barbara County, California, suggests that the spatial distribution is influenced by environmental factors and other population-specific characteristics (e.g. density) which may contextualize behavioral traits. A comparative analysis of agonistic behaviors and dietary components will be conducted to better understand how resource availability influences spatial competition. With this information, our study can provide ways to better mitigate the intertidal ecosystems as we experience an increase in environmental changes. This poster was presented at UCSB's 2024 undergraduate research symposium for the department of Ecology, Evolution, and Marine Biology, and received a best poster award.

Published

2024

3. Fluorescent proteins generate a genetic color polymorphism and counteract oxidative stress in intertidal sea anemones.

Author

Clarke, D Nathaniel, Rose, Noah H, De Meulenaere, Evelien, Rosental, Benyamin, Pearse, John S, Pearse, Vicki Buchsbaum, and Deheyn, Dimitri D

Subjects

Biochemistry and Cell Biology, Biological Sciences, Genetics, Generic health relevance, Animals, Luminescent Proteins, Sea Anemones, Antioxidants, Spectrometry, Fluorescence, Oxidative Stress, Green Fluorescent Proteins, Anthopleura, GFP, antioxidant, biofluorescence, polymorphism

Abstract

Fluorescent proteins (FPs) are ubiquitous tools in research, yet their endogenous functions in nature are poorly understood. In this work, we describe a combination of functions for FPs in a clade of intertidal sea anemones whose FPs control a genetic color polymorphism together with the ability to combat oxidative stress. Focusing on the underlying genetics of a fluorescent green "Neon" color morph, we show that allelic differences in a single FP gene generate its strong and vibrant color, by increasing both molecular brightness and FP gene expression level. Natural variation in FP sequences also produces differences in antioxidant capacity. We demonstrate that these FPs are strong antioxidants that can protect live cells against oxidative stress. Finally, based on structural modeling of the responsible amino acids, we propose a model for FP antioxidant function that is driven by molecular surface charge. Together, our findings shed light on the multifaceted functions that can co-occur within a single FP and provide a framework for studying the evolution of fluorescence as it balances spectral and physiological functions in nature.

Published

2024

4. Stable isotopes disentangle niche partitioning and co‐occurrence in a multi‐species marine mutualism.

Author

Titus, Benjamin M., Froehlich, Catheline Y. M., Vondriska, Clayton, Baker, Ronald, and Caves, Eleanor M.

Subjects

*STABLE isotope analysis, *CORAL reefs & islands, *EXPECTANCY theories, *REEF fishes, *STABLE isotopes

Abstract

Ecologists have long sought general explanations for the co‐occurrence of ecologically similar taxa. Niche theory explains co‐occurrence via functional differences among taxa that reduce competition and promote resource partitioning. Alternatively, the unified neutral theory of biodiversity and biogeography suggests that co‐occurrence can be attributed to stochastic processes, and thus, presupposes that ecologically similar species that occur in sympatry are functionally analogous. We test these hypotheses using the most diverse crustacean‐sea anemone symbiosis from coral reefs in the Tropical Western Atlantic. δ13C and δ15N stable isotope analyses of six crustacean symbionts that co‐occur around the host anemone Bartholomea annulata exhibit highly differentiated isotopic niche space spanning several trophic levels. As multiple crustacean species within the symbiosis have been documented as cleaners that remove parasites from reef fishes, we extended our investigation into the broader cleaner community. Our stable isotope analyses of cleaners shows that Pederson's cleaner shrimp Ancylomenes pedersoni exhibits the highest δ15N isotopic values‐ significantly higher than all other putative cleaner species and consistent with expectations of a dedicated cleaning lifestyle. However, for other species previously described or observed to clean reef fishes, including Periclimenes yucatanicus, Stenopus hispidus and Stenorhynchus seticornis, δ15N isotopic values were substantially lower, raising questions about the degree to which these species rely on cleaning interactions to meet their nutritional requirements. Taken together, our data are consistent with the expectations of niche theory: co‐occurring symbiotic crustaceans have highly partitioned niche space with low levels of functional redundancy. [ABSTRACT FROM AUTHOR]

Published

2024

5. Life‐threatening antibodies: The discovery of anaphylaxis.

Author

Daëron, Marc, Heyman, Birgitta, and Moulin, Anne Marie

Subjects

*NOBEL Prize in Physiology or Medicine, *IMMUNE serums, *SEA anemones, *ANAPHYLAXIS, *IMMUNE response

Abstract

Summary It was at the turn of the 20th century, that immune serum was found both to save children dying from toxins of deadly pathogens, and to kill a dog within minutes following an injection of harmless doses of sea anemone toxins. This means that, before being formally identified in immune serum, antibodies were already known to be both protective and pathogenic. For this provocative finding, Charles Richet was awarded the 1913 Nobel Prize in Physiology or Medicine. Because, as its name said, anaphylaxis was understood as “the contrary of protection,” unique mechanisms were found to explain it. Because, as its name did not initially say but finally said, allergy was understood as a reaction “other” than immunity, its symptoms were explained by mechanisms similar to those that explained anaphylaxis. We examined here the intricate relationships between anaphylaxis, allergy and immunity. Progressively anaphylaxis became one among other pathological effects of an immune response, and allergy an inflammatory disease among others. Looking at antibodies back in the past enables us not only to learn where they come from, but also to follow trends that contributed to shape immunology, some of which may persist in today's immunological thinking and say something about the future. [ABSTRACT FROM AUTHOR]

Published

2024

6. Intelligent Soft Quasi‐Organism Equipped with Sensor‐Driven Integrated Tentacles.

Author

Liu, Chang, Luo, Jinan, Liu, Haidong, Fu, Junxin, Liu, Houfang, Tang, Hao, Deng, Zhikang, Wu, Jingzhi, Li, Yuanfang, Liu, Chuting, Peng, Shiqi, Hu, Juxin, Ren, Tian‐Ling, Zhou, Jianhua, and Qiao, Yancong

Subjects

*NEUROMUSCULAR system, *ELECTRONIC equipment, *ELECTRONIC systems, *SEA anemones, *SOFT robotics, *ROBOT hands, *OBJECT recognition (Computer vision)

Abstract

Integration of soft electronic system components is critical to create a closed‐loop system that seamlessly integrates sensing, driving, processing, and autonomous control capabilities. However, the existence of these components, particularly sensors and actuators, in isolated or discrete forms complicates the endeavor to achieve seamless interface matching and in situ integration, no more than the autonomic system. Here, an intelligent soft quasi‐organism (SQO) equipped with sensor‐driven integrated tentacles is demonstrated, featuring real‐time state recognition and autonomous object recognition inspired by the sea anemones. By employing a heterogeneous mechanisms homotopic integration (HMHI) strategy, the tentacles of the SQO possess the unique ability to simultaneously perceive state changes and flexibly drive motions, utilizing the same material and structure. The sea anemone‐shaped SQO exhibits real‐time autonomous state identification capabilities through the integration of machine learning and customized circuits, attaining 100% recognition accuracy across sixteen states. With a neuromuscular system that facilitates active autonomous perception, the anemone‐shaped SQO can recognize and intelligently grasp static objects with an accuracy of 80.7%, surpassing that of a human hand (74.7%). The SQO provides a promising approach for realizing artificial neuromuscular systems, with great potential for applications in crucial areas such as intelligent soft robotics and in vivo therapy. [ABSTRACT FROM AUTHOR]

Published

2024

7. The cellular basis of feeding-dependent body size plasticity in sea anemones.

Author

Garschall, Kathrin, Pascual-Carreras, Eudald, García-Pascual, Belén, Filimonova, Daria, Guse, Annika, Johnston, Iain G., and Steinmetz, Patrick R. H.

Subjects

*BODY size, *SEA anemones, *CELL size, *CELL proliferation, *CELL growth

Abstract

Many animals share a lifelong capacity to adapt their growth rates and body sizes to changing environmental food supplies. However, the cellular and molecular basis underlying this plasticity remains only poorly understood. We therefore studied how the sea anemones Nematostella vectensis and Aiptasia (Exaiptasia pallida) respond to feeding and starvation. Combining quantifications of body size and cell numbers with mathematical modelling, we observed that growth and shrinkage rates in Nematostella are exponential, stereotypic and accompanied by dramatic changes in cell numbers. Notably, shrinkage rates, but not growth rates, are independent of body size. In the facultatively symbiotic Aiptasia, we show that growth and cell proliferation rates are dependent on the symbiotic state. On a cellular level, we found that >7% of all cells in Nematostella juveniles reversibly shift between S/G2/M and G1/G0 cell cycle phases when fed or starved, respectively. Furthermore, we demonstrate that polyp growth and cell proliferation are dependent on TOR signalling during feeding. Altogether, we provide a benchmark and resource for further investigating the nutritional regulation of body plasticity on multiple scales using the genetic toolkit available for Nematostella. [ABSTRACT FROM AUTHOR]

Published

2024

8. A population of Vasa2 and Piwi1 expressing cells generates germ cells and neurons in a sea anemone.

Author

Miramón-Puértolas, Paula, Pascual-Carreras, Eudald, and Steinmetz, Patrick R. H.

Subjects

BIOLOGICAL evolution, SEA anemones, GERM cells, SOMATIC cells, PROGENITOR cells

Abstract

Germline segregation, essential for protecting germ cells against mutations, occurs during early embryogenesis in vertebrates, insects and nematodes. Highly regenerative animals (e.g., cnidarians), however, retain stem cells with both germinal and somatic potentials throughout adulthood, but their biology and evolution remain poorly understood. Among cnidarians (e.g., sea anemones, jellyfish), stem cells are only known in few hydrozoans (e.g., Hydra). Here, we identify and characterize a rare, multipotent population of stem and/or progenitor cells expressing the conserved germline and multipotency proteins Vasa2 and Piwi1 in the sea anemone Nematostella vectensis. Using piwi1 and vasa2 transgenic reporter lines, we reveal that the Vasa2+/Piwi1+ cell population generates not only gametes, but also a diversity of proliferative somatic cells, including neural progenitors, in juveniles and adults. Our work has uncovered a multipotent population of Vasa2+/Piwi1+ stem/progenitor cells that forms the cellular basis to understand body plasticity and regenerative capacities in sea anemones and corals. Stem or progenitor cells have so far remained elusive in sea anemones or corals. Here, the authors show that a population of cells that express Vasa2 and Piwi1 genes can generate both germ and somatic cells, for example neurons, in a sea anemone. [ABSTRACT FROM AUTHOR]

Published

2024

9. Elucidation of Medusozoan (Jellyfish) Venom Constituent Activities Using Constellation Pharmacology.

Author

Yanagihara, Angel A., Giglio, Matías L., Hurwitz, Kikiana, Kadler, Raechel, Espino, Samuel S., Raghuraman, Shrinivasan, and Olivera, Baldomero M.

Subjects

*LIGAND-gated ion channels, *DORSAL root ganglia, *SEA anemones, *NEUROGLIA, *MEDUSOZOA, *VENOM

Abstract

Within the phylum Cnidaria, sea anemones (class Anthozoa) express a rich diversity of ion-channel peptide modulators with biomedical applications, but corollary discoveries from jellyfish (subphylum Medusozoa) are lacking. To bridge this gap, bioactivities of previously unexplored proteinaceous and small molecular weight (~15 kDa to 5 kDa) venom components were assessed in a mouse dorsal root ganglia (DRG) high-content calcium-imaging assay, known as constellation pharmacology. While the addition of crude venom led to nonspecific cell death and Fura-2 signal leakage due to pore-forming activity, purified small molecular weight fractions of venom demonstrated three main, concentration-dependent and reversible effects on defined heterogeneous cell types found in the primary cultures of mouse DRG. These three phenotypic responses are herein referred to as phenotype A, B and C: excitatory amplification (A) or inhibition (B) of KCl-induced calcium signals, and test compound-induced disturbances to baseline calcium levels (C). Most notably, certain Alatina alata venom fractions showed phenotype A effects in all DRG neurons; Physalia physalis and Chironex fleckeri fractions predominantly showed phenotype B effects in small- and medium-diameter neurons. Finally, specific Physalia physalis and Alatina alata venom components induced direct excitatory responses (phenotype C) in glial cells. These findings demonstrate a diversity of neuroactive compounds in jellyfish venom potentially targeting a constellation of ion channels and ligand-gated receptors with broad physiological implications. [ABSTRACT FROM AUTHOR]

Published

2024

10. Evolutionary trajectory of TRPM2 channel activation by adenosine diphosphate ribose and calcium.

Author

Ma, Cheng, Luo, Yanping, Zhang, Congyi, Cheng, Cheng, Hua, Ning, Liu, Xiaocao, Wu, Jianan, Qin, Luying, Yu, Peilin, Luo, Jianhong, Yang, Fan, Jiang, Lin-Hua, Zhang, Guojie, and Yang, Wei

Subjects

*ADENOSINE diphosphate ribose, *LIGAND binding (Biochemistry), *BINDING sites, *SEA anemones, *LIGANDS (Chemistry), *ION channels

Abstract

[Display omitted] Ion channel activation upon ligand gating triggers a myriad of biological events and, therefore, evolution of ligand gating mechanism is of fundamental importance. TRPM2, a typical ancient ion channel, is activated by adenosine diphosphate ribose (ADPR) and calcium and its activation has evolved from a simple mode in invertebrates to a more complex one in vertebrates, but the evolutionary process is still unknown. Molecular evolutionary analysis of TRPM2s from more than 280 different animal species has revealed that, the C-terminal NUDT9-H domain has evolved from an enzyme to a ligand binding site for activation, while the N-terminal MHR domain maintains a conserved ligand binding site. Calcium gating pattern has also evolved, from one Ca2+-binding site as in sea anemones to three sites as in human. Importantly, we identified a new group represented by olTRPM2, which has a novel gating mode and fills the missing link of the channel gating evolution. We conclude that the TRPM2 ligand binding or activation mode evolved through at least three identifiable stages in the past billion years from simple to complicated and coordinated. Such findings benefit the evolutionary investigations of other channels and proteins. [ABSTRACT FROM AUTHOR]

Published

2024

11. Chromosome‐level genome assembly of a deep‐sea Venus flytrap sea anemone sheds light upon adaptations to an extremely oligotrophic environment.

Author

Li, Junyuan, Zhan, Zifeng, Li, Yang, Sun, Yanan, Zhou, Tong, and Xu, Kuidong

Subjects

*BIOLOGICAL evolution, *SEA anemones, *WATER currents, *GENE families, *NEURAL transmission

Abstract

The Venus flytrap sea anemone Actinoscyphia liui inhabits the nutrient‐limited deep ocean in the tropical western Pacific. Compared with most other sea anemones, it has undergone a distinct modification of body shape similar to that of the botanic flytrap. However, the molecular mechanism by which such a peculiar sea anemone adapts to a deep‐sea oligotrophic environment is unknown. Here, we report the chromosomal‐level genome of A. liui constructed from PacBio and Hi‐C data. The assembled genome is 522 Mb in size and exhibits a continuous scaffold N50 of 58.4 Mb. Different from most other sea anemones, which typically possess 14–18 chromosomes per haplotype, A. liui has only 11. The reduced number of chromosomes is associated with chromosome fusion, which likely represents an adaptive strategy to economize energy in oligotrophic deep‐sea environments. Comparative analysis with other deep‐sea sea anemones revealed adaptive evolution in genes related to cellular autophagy (TMBIM6, SESN1, SCOCB and RPTOR) and mitochondrial energy metabolism (MDH1B and KAD2), which may aid in A. liui coping with severe food scarcity. Meanwhile, the genome has undergone at least two rounds of expansion in gene families associated with fast synaptic transmission, facilitating rapid responses to water currents and prey. Positive selection was detected on putative phosphorylation sites of muscle contraction‐related proteins, possibly further improving feeding efficiency. Overall, the present study provides insights into the molecular adaptation to deep‐sea oligotrophic environments and sheds light upon potential effects of a novel morphology on the evolution of Cnidaria. [ABSTRACT FROM AUTHOR]

Published

2024

12. From ctenophores to scyphozoans: parasitic spillover of a burrowing sea anemone.

Author

Iakovleva, Anastasiia, Morov, Arseniy R., Angel, Dror, and Guy-Haim, Tamar

Subjects

*SEA anemones, *CTENOPHORA, *EDWARDSIELLA, *ECOLOGICAL impact, *ZOOPLANKTON, *GENETIC barcoding

Abstract

Most host-parasite associations are explained by phylogenetically conservative capabilities for host utilization, and therefore parasite switches between distantly related hosts are rare. Here we report the first evidence of a parasitic spillover of the burrowing sea anemone Edwardsiella carnea from the invasive ctenophore Mnemiopsis leidyi to two scyphozoan hosts: the native Mediterranean barrel jellyfish Rhizostoma pulmo and the invasive Indo-Pacific nomad jellyfish Rhopilema nomadica, collected from the Eastern Mediterranean Sea. Edwardsiella carnea planulae found in these jellyfish were identified using molecular analyses of the mitochondrial 16S and nuclear 18S rRNA genes. Overall, 93 planulae were found on tentacles, oral arms, and inside of the gastrovascular canals of the scyphomedusae, whereas no infection was observed in co-occurring ctenophores. DNA metabarcoding approach indicated seasonal presence of Edwardsiella sp. in the Eastern Mediterranean mesozooplankton, coinciding with jellyfish blooms in the region. Our findings suggest a non-specific parasitic relationship between Edwardsiella carnea and various gelatinous hosts based on shared functionality rather than evolutionary history, potentially driven by shifts in host availability due to jellyfish blooms. This spillover raises questions about the ecological impacts of parasitism on native and invasive scyphozoan hosts and the potential role of Edwardsiella in controlling their populations. [ABSTRACT FROM AUTHOR]

Published

2024

13. Azooxanthellate Palythoa (Cnidaria: Anthozoa) Genomes Reveal Toxin-related Gene Clusters and Loss of Neuronal Genes in Hexacorals.

Author

Yoshioka, Yuki, Yamashita, Hiroshi, Uchida, Taiga, Shinzato, Chuya, Kawamitsu, Mayumi, Fourreau, Chloé Julie Loïs, Castelló, Guillermo Mironenko, Fiedler, Britta Katharina, Eeckhout, Timotheus Maximilian van den, Borghi, Stefano, Reimer, James Davis, and Shoguchi, Eiichi

Subjects

*GENE families, *GENOMICS, *SCLERACTINIA, *SEA anemones, *GENE clusters

Abstract

Zoantharia is an order among the Hexacorallia (Anthozoa: Cnidaria), and includes at least 300 species. Previously reported genomes from scleractinian corals and actiniarian sea anemones have illuminated part of the hexacorallian diversification. However, little is known about zoantharian genomes and the early evolution of hexacorals. To explore genome evolution in this group of hexacorals, here, we report de novo genome assemblies of the zoantharians Palythoa mizigama (Pmiz) and Palythoa umbrosa (Pumb), both of which are members of the family Sphenopidae, and uniquely live in comparatively dark coral reef caves without symbiotic Symbiodiniaceae dinoflagellates. Draft genomes generated from ultra-low input PacBio sequencing totaled 373 and 319 Mbp for Pmiz and Pumb, respectively. Protein-coding genes were predicted in each genome, totaling 30,394 in Pmiz and 24,800 in Pumb, with each set having ∼93% BUSCO completeness. Comparative genomic analyses identified 3,036 conserved gene families, which were found in all analyzed hexacoral genomes. Some of the genes related to toxins, chitin degradation, and prostaglandin biosynthesis were expanded in these two Palythoa genomes and many of which aligned tandemly. Extensive gene family loss was not detected in the Palythoa lineage and five of ten putatively lost gene families likely had neuronal function, suggesting biased gene loss in Palythoa. In conclusion, our comparative analyses demonstrate evolutionary conservation of gene families in the Palythoa lineage from the common ancestor of hexacorals. Restricted loss of gene families may imply that lost neuronal functions were effective for environmental adaptation in these two Palythoa species. [ABSTRACT FROM AUTHOR]

Published

2024

14. Microhabitat acclimatization alters sea anemone–algal symbiosis and thermal tolerance across the intertidal zone.

Author

Ruggeri, Maria, Million, Wyatt C., Hamilton, Lindsey, and Kenkel, Carly D.

Subjects

*ENVIRONMENTAL history, *INTERTIDAL zonation, *THERMAL stresses, *ANEMONES, *SEA anemones, *ACCLIMATIZATION, *EXTREME environments

Abstract

Contemporary symbioses in extreme environments can give an insight into mechanisms that stabilize species interactions during environmental change. The intertidal sea anemone, Anthopleura elegantissima, engages in a nutritional symbiosis with microalgae similar to tropical coral, but withstands more intense environmental fluctuations during tidal inundations. In this study, we compare baseline symbiotic traits and their sensitivity to thermal stress within and among anemone aggregations across the intertidal using a laboratory‐based tank experiment to better understand how fixed genotypic and plastic environmental effects contribute to the successful maintenance of this symbiosis in extreme habitats. High intertidal anemones had lower baseline symbiont‐to‐host cell ratios under control conditions, but their symbionts had higher baseline photosynthetic efficiency compared to low intertidal anemone symbionts. Symbiont communities were identical across all samples, suggesting that shifts in symbiont density and photosynthetic performance could be an acclimatory mechanism to maintain symbiosis in different environments. Despite lower baseline symbiont‐to‐host cell ratios, high intertidal anemones maintained greater symbiont‐to‐host cell ratios under heat stress compared with low intertidal anemones, suggesting greater thermal tolerance of high intertidal holobionts. However, the thermal tolerance of clonal anemones acclimatized to different zones was not explained by tidal height alone, indicating additional environmental variables contribute to physiological differences. Host genotype significantly influenced anemone weight, but only explained a minor proportion of variation among symbiotic traits and their response to thermal stress, further implicating environmental history as the primary driver of holobiont tolerance. These results indicate that this symbiosis is highly plastic and may be able to acclimatize to climate change over ecological timescales, defying the convention that symbiotic organisms are more susceptible to environmental stress. [ABSTRACT FROM AUTHOR]

Published

2024

15. Development of microsatellite markers and evaluation of the genetic diversity of the edible sea anemone Paracondylactis sinensis (Cnidaria, Anthozoa) in China.

Author

Li, Junyuan, Yang, Xuyi, Zhan, Zifeng, Feng, Juan, Xie, Tinghui, and Li, Yang

Subjects

SEA anemones, MICROSATELLITE repeats, CNIDARIAN larvae, CNIDARIA populations, INVERTEBRATE genetics, INVERTEBRATE morphology

Abstract

Paracondylactis sinensis Carlgren, 1934 is a sea anemone with economic value in China. The wild population of P. sinensis has been shrinking due to overfishing and environmental pollution, which have caused price instability. In winter, the price of P. sinensis can reach 25 USD per kilogram. Up to now, there are no genetic markers developed for P. sinensis, preventing a further exploration of their population genetic diversity. In this study, the full-length transcriptome of P. sinensis was sequenced and microsatellite DNA markers (simple sequence repeats [SSRs]) were developed from those transcripts. A total of 52 primer pairs, which can amplify specific polymorphic bands in PCR experiments, were designed for the SSR markers. Genetic diversity and population genetics were analysed for P. sinensis populations collected from the coasts of Taizhou and Rizhao using six microsatellite DNA loci. While inbreeding was detected in both populations (Fis > 0), the overall number of alleles (Na = 11.3) and bottleneck analysis suggested that the genetic diversity of P. sinensis has not been greatly impacted. Clustering analyses using STRUCTURE, principal coordinate analysis and unweighted pair group method with arithmetic mean tree revealed that the Taizhou population diverged from the Rizhao population; however, the genetic differentiation between the populations was moderate. Human-mediated commercial activities may be the principal reasons for the gene flow between the populations. Our study provides the first evaluation of the genetic resources of wild P. sinensis populations in China, which can serve as a useful reference for future comparative studies on population genetics and may guide policy-makers in initiating strategies for germplasm conservation and artificial breeding. [ABSTRACT FROM AUTHOR]

Published

2024

16. Early social isolation disrupts adult personality expression in group‐living mites.

Author

Schausberger, Peter and Nguyen, Thi Hanh

Subjects

*PREDATORY mite, *INTRACLASS correlation, *SOCIAL isolation, *SEA anemones, *SOCIAL impact

Abstract

Animal personalities are characterized by intra‐individual consistency and consistent inter‐individual variability in behaviour across time and contexts. Personalities abound in animals, ranging from sea anemones to insects, arachnids, birds, fish and primates, yet the pathways mediating personality formation and expression remain elusive. Social conditions during the early postnatal period are known determinants of mean behavioural trait expressions later in life, but their relevance in shaping personality trajectories is unknown. Here, we investigated the consequences of early social isolation on adult personality expression in plant‐inhabiting predatory mites Phytoseiulus persimilis. These mites are adapted to live in groups. We hypothesized that transient experience of social isolation early in life, that is, deprivation of any social contact during a sensitive window in the post‐hatching phase, has enduring adverse effects on adult personality expression. Newly hatched mites were transiently reared in isolation or in groups and tested as adults for repeatability of various within‐group behaviours, such as movement patterns and mutual interactions including sociability, defined as the propensity to associate and interact benignly with conspecifics, and activity patterns when alone. Groups composed of individuals with the same or different early‐life experiences were repeatedly videotaped and individual behaviours were automatically analysed using AnimalTA. Social experiences early in life had persistent effects on mean behavioural traits as well as adult personality expression, as measured by intraclass correlation coefficients (indicating repeatability). On average, isolation‐reared females moved at higher speeds, meandered less, kept greater distances from others and had fewer immediate neighbours than group‐reared females. Group‐reared females were highly repeatable in inter‐individual distance, moving speed, meandering and area explored, whereas isolation‐reared females were repeatable only in the number of immediate neighbours. Activity, quantified as the proportion of time spent moving within groups, was only repeatable in group‐reared females, whereas activity, quantified as the proportion of time spent moving when alone, was only repeatable in females reared in isolation. Strikingly, also the early‐life experiences of male mates influenced personality expression of mated females, with isolation‐reared males boosting the repeatability of behavioural traits of group‐reared females. Overall, our study provides evidence that a transient phase of social isolation during a critical period early in life has lasting effects that extend into adulthood, impairing adult personality expression. These effects should cascade upward, changing the phenotypic composition and diversity within populations. [ABSTRACT FROM AUTHOR]

Published

2024

17. LRRK2 kinase activity is necessary for development and regeneration in Nematostella vectensis.

Author

Holmes, Grace, Ferguson, Sophie R., Lewis, Patrick Alfryn, and Echeverri, Karen

Subjects

*PARKINSON'S disease, *DARDARIN, *SMALL molecules, *SEA anemones, *NEURODEGENERATION

Abstract

Background: The starlet sea anemone, Nematostella vectensis, is an emerging model organism with a high regenerative capacity, which was recently found to possess an orthologue to the human Leucine Rich Repeat Kinase 2 (LRRK2) gene. Mutations in this gene are the most common cause of inherited Parkinson's Disease (PD), highlighting the importance of understanding its function. Despite two decades of research, however, the function of LRRK2 is not well established. Methods: To investigate the function of LRRKs in Nematostella vectensis, we applied small molecule inhibitors targeting the kinase activity of LRRK2 to examine its function in development, homeostasis and regeneration in Nematostella vectensis. Results: In vivo analyses inhibiting the kinase function of this enzyme demonstrated a role of nvLRRK2 in development and regeneration of N. vectensis. These findings implicate a developmental role of LRRK2 in Nematostella, adding to the expanding knowledge of its physiological function. Conclusions: Our work introduces a new model organism with which to study LRRK biology. We report that LRRK kinase activity is necessary for the development and regeneration of Nematostella. Given the short generation time, genetic trackability and in vivo imaging capabilities, this work introduces Nematostella vectensis as a new model in which to study genes linked to neurodegenerative diseases such as Parkinson's. [ABSTRACT FROM AUTHOR]

Published

2024

18. Sea anemone–anemonefish symbiosis: Behavior and mucous protein profiling.

Author

Nguyen, Hai‐Thanh T., Zhao, Min, Wang, Tianfang, Dang, Binh T., Geffen, Audrey J., and Cummins, Scott F.

Subjects

*SKIN proteins, *CYTOSKELETAL proteins, *SEA anemones, *PROTECTIVE coatings, *ANEMONES

Abstract

Fish species of the genus Amphiprion (Perciformes: Pomacentridae) seek protection from predators among the tentacles of sea anemones as their natural habitat, where they live essentially unharmed from stinging by the host's nematocysts. The skin mucus of these anemonefish has been suggested as a protective mechanism that prevents the discharge of the nematocysts upon contact. Whereas some anemonefish species seem to produce their own protective mucous coating, others may acquire mucus (or biomolecules within) from the sea anemone during an acclimation period. In controlled experiments, we show that Amphiprion ocellaris acclimated successfully to their natural host anemone species Stichodactyla gigantea, and also to Stichodactyla haddoni, and in some cases Heteractis crispa, neither of which are natural host species. No symbiosis was observed for three other anemone species tested, Entacmaea quadricolor, Macrodactyla doreensis, and Heteractis malu. We explored the skin mucous protein profile from naive and experienced A. ocellaris during their acclimation to natural and unnatural host anemones. We confidently report the presence of metabolic and structural proteins in the skin mucus of all samples, likely involved in immunological defense, molecular transport, stress response, and signal transduction. For those anemonefish that established symbiosis, there was a clear increase in ribosomal‐type proteins. We additionally provide evidence for the presence of anemone proteins only in the skin mucus of individuals that established symbiosis. Our results support previous speculation of the role of skin mucous–associated proteins in anemonefish–anemone symbiosis. Further exploration of these mucosal proteins could reveal the mechanism of anemonefish acclimation to host anemones. [ABSTRACT FROM AUTHOR]

Published

2024

19. Effect of Crude Extract from the Sea Anemone Bunodeopsis globulifera on Voltage-Gated Ion Channels from Central and Peripheral Murine Nervous Systems.

Author

Flores-Pérez, Aleida Jeannette, Loya-López, Santiago, Ávalos-Fuentes, Arturo, Calderon-Rivera, Aida, Damo, Elisa, Lazcano-Pérez, Fernando, Khanna, Rajesh, Florán-Garduño, Benjamin, and Sánchez-Rodríguez, Judith

Subjects

*VOLTAGE-gated ion channels, *SEA anemones, *SODIUM channels, *PERIPHERAL nervous system, *PROTEIN structure, *POTASSIUM channels

Abstract

Sea anemones are an important source of bioactive compounds with potential pharmacological applications. Their toxins are produced and stored in organelles called nematocysts and act on specific targets, including voltage-gated ion channels. To date, sea anemone toxins have demonstrated effects on voltage-gated sodium and potassium channels, facilitating investigations into the structure and function of these proteins. In this study, we evaluated the effect of Bunodeopsis globulifera sea anemone crude extract, and of a low molecular weight fraction, on voltage-gated sodium and calcium channels within the murine nervous system. Notably, the crude extract led to a significant reduction in total sodium current, while also triggering calcium-dependent glutamate release. Furthermore, the low molecular weight fraction, in particular, enhanced total calcium currents and current density. These findings underscore the existence of sea anemone toxins with diverse mechanisms of action beyond those previously documented. [ABSTRACT FROM AUTHOR]

Published

2024

20. Molecular Insights into the Low Complexity Secreted Venom of Calliactis polypus.

Author

Smith, Hayden L, Broszczak, Daniel A, Bryan, Scott E, Norton, Raymond S, and Prentis, Peter J

Subjects

*SEA anemones, *COMPETITION (Biology), *TOXIN analysis, *PEPTIDES, *TOXINS, *NEUROTOXIC agents, *CONOTOXINS

Abstract

Sea anemones are venomous animals that rely on their venom for prey capture, defense against predators, and intraspecific competition. Currently, comprehensive molecular and evolutionary analyses of the toxin repertoire for sea anemones are limited by a lack of proteomic data for most species. In this study, proteo-transcriptomic analysis was used to expand our knowledge of the proteinaceous components of sea anemone venom by determining the secreted venom proteome of Calliactis polypus. Electromechanical stimulation was used to obtain the secreted venom of C. polypus. We identified a low complexity proteome that was dominated by toxins with similarity to known neurotoxins, as well as six novel toxin candidates. The novel putative toxin candidates were found to be taxonomically restricted to species from the superfamily Metridioidea. Furthermore, the secreted venom of C. polypus had only three putative toxins in common with the venom of acontia from the same species and little similarity with the secreted venom of closely related species. Overall, this demonstrates that regionalized and lineage-specific variability in toxin abundance is common among sea anemone species. Moreover, the limited complexity of the toxin repertoire found in C. polypus supports the idea that peptide neurotoxins make up the dominant toxin arsenal found in the venom of sea anemones. [ABSTRACT FROM AUTHOR]

Published

2024

21. A non-toxic equinatoxin-II reveals the dynamics and distribution of sphingomyelin in the cytosolic leaflet of the plasma membrane.

Author

Mori, Toshiki, Niki, Takahiro, Uchida, Yasunori, Mukai, Kojiro, Kuchitsu, Yoshihiko, Kishimoto, Takuma, Sakai, Shota, Makino, Asami, Kobayashi, Toshihide, Arai, Hiroyuki, Yokota, Yasunari, Taguchi, Tomohiko, and Suzuki, Kenichi G. N.

Subjects

*CELL membranes, *SPHINGOMYELIN, *PAMPHLETS, *SINGLE molecules, *SEA anemones, *MOLECULAR probes

Abstract

Sphingomyelin (SM) is a major sphingolipid in mammalian cells. SM is enriched in the extracellular leaflet of the plasma membrane (PM). Besides this localization, recent electron microscopic and biochemical studies suggest the presence of SM in the cytosolic leaflet of the PM. In the present study, we generated a non-toxic SM-binding variant (NT-EqtII) based on equinatoxin-II (EqtII) from the sea anemone Actinia equina, and examined the dynamics of SM in the cytosolic leaflet of living cell PMs. NT-EqtII with two point mutations (Leu26Ala and Pro81Ala) had essentially the same specificity and affinity to SM as wild-type EqtII. NT-EqtII expressed in the cytosol was recruited to the PM in various cell lines. Super-resolution microscopic observation revealed that NT-EqtII formed tiny domains that were significantly colocalized with cholesterol and N-terminal Lyn. Meanwhile, single molecule observation at high resolutions down to 1 ms revealed that all the examined lipid probes including NT-EqtII underwent apparent fast simple Brownian diffusion, exhibiting that SM and other lipids in the cytosolic leaflet rapidly moved in and out of domains. Thus, the novel SM-binding probe demonstrated the presence of the raft-like domain in the cytosolic leaflet of living cell PMs. [ABSTRACT FROM AUTHOR]

Published

2024

22. Induction of apoptosis by double-stranded RNA was present in the last common ancestor of cnidarian and bilaterian animals.

Author

Kozlovski, Itamar, Jaimes-Becerra, Adrian, Sharoni, Ton, Lewandowska, Magda, Karmi, Ola, and Moran, Yehu

Subjects

*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

23. Sea anemones (Actinia equina) show consistent individual differences in boldness and thoroughness but lack a behavioural syndrome.

Author

Simpson, Samantha and Briffa, Mark

Subjects

*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

24. Doublecortin-like kinase is required for cnidocyte development in Nematostella vectensis.

Author

Kraus, Johanna E. M., Busengdal, Henriette, Kraus, Yulia, Hausen, Harald, and Rentzsch, Fabian

Subjects

*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]

Published

2024

25. Diversity of biological activities of crude venom extracted from five species of South China Sea anemones

Author

Panmin He, Ming Li, Jinxing Fu, Yanling Liao, Bo Yi, and Bingmiao Gao

Subjects

sea anemones, crude venom, hemolytic activity, enzyme inhibitory activity, anticancer activity, insecticidal activity, Science, General. Including nature conservation, geographical distribution, QH1-199.5

Abstract

Developing novel, efficient, and safe peptide drugs from sea anemones has aroused great interest in countries around the world today. Sea anemones contain complex protein and peptide toxins, which determine the diversity of their biological activities. In this study, a variety of activities were assessed for crude venom extracted from five species of South China Sea anemones, including hemolytic, enzyme inhibition, anticancer, insecticidal, analgesic and lethal activities. The most toxic sea anemone was found to be Heteractis magnifica, which has high lethal activity in mice with an LD50 of 11.0 mg/kg. The crude venom of H. magnifica also exhibited a range of the most potent activities, including hemolytic, trypsin inhibitory, cytotoxic activity against U251 and A549 cells, insecticidal and analgesic activities. In addition, the crude venom of Stichodactyla haddoni was the most effective inhibitor of pepsin, and the crude venom of Heteractis crispa was extremely strong toxicity to HepG2 cells. These findings are of great significance for exploring the potential and application of South China Sea anemone resources, and are expected to provide new directions and possibilities for the development of novel anticancer drugs, analgesics and biopesticides.

Published

2024

26. Genetic and Demographic Connectivity in Brazilian Reef Environments

Author

Gherardi, Douglas F. M., Capel, Katia C. C., Cordeiro, Cesar A. M. M., Eggertsen, Linda, Endo, Clarissa A. K., Lima, Luciana S., Lotufo, Tito C. M., Zilberberg, Carla, Turra, Alexander, Series Editor, Kikuchi, Ruy Kenji Papa, editor, Leão, Zelinda M. A. N., editor, de Araújo, Maria Elisabeth, editor, and Lotufo, Tito M. C., editor

Published

2024

27. Jelly fish Up Close.

Author

KRANKING, KATHY

Subjects

SEA anemones, JELLYFISHES, OCEAN bottom, FISH kills, NEURAL circuitry

Abstract

This article from Ranger Rick titled "Jellyfish Up Close" provides information about jellyfish and their unique characteristics. It explains that jellyfish do not have a brain, bones, heart, lungs, blood, or even a head, yet they are able to survive. The article also clarifies that jellyfish are not made of jelly and are not actually fish, but rather close relatives of corals and sea anemones. It discusses the different types of jellyfish, their habitats, and their abilities, such as using stingers to catch prey and their bioluminescence. The article also touches on the reproduction process of jellyfish. Overall, it provides a comprehensive overview of jellyfish for readers interested in learning more about these fascinating creatures. [Extracted from the article]

Published

2024

28. Single-cell dissociation of the model cnidarian sea anemone Exaiptasia diaphana.

Author

Kirk, Andrea and Xiang, Tingting

Subjects

Cell Biology, Cell isolation, Model Organisms, Single Cell, Animals, Sea Anemones, Ecosystem, Symbiosis, Dinoflagellida

Abstract

The sea anemone Exaiptasia diaphana (Aiptasia) is a versatile model in studying cellular mechanisms that govern cnidarian-Symbiodiniaceae symbiosis, the foundation of coral reef ecosystems. Here, we provide a protocol to efficiently dissociate adult Aiptasia tissue into a single-cell suspension using enzymatic digestion. We detail steps including washing animals, dissociating tissue with pronase digestion, and evaluating dissociated single cells using fluorescence imaging. This procedure can be applied to other cnidarians, including coral polyps. For complete details on the use and execution of this protocol, please refer to Jinkerson et al. (2022).1.

Published

2022

29. Photosynthesis and other factors affecting the establishment and maintenance of cnidarian–dinoflagellate symbiosis.

Author

Tran, Cawa, Rosenfield, Gabriel R., Cleves, Phillip A., Krediet, Cory J., Paul, Maitri R., Clowez, Sophie, Grossman, Arthur R., and Pringle, John R.

Subjects

*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

30. Sea Anemone Membrane Attack Complex/Perforin Superfamily Demonstrates an Evolutionary Transitional State between Venomous and Developmental Functions.

Author

Surm, Joachim M, Landau, Morani, Columbus-Shenkar, Yaara Y, and Moran, Yehu

Subjects

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]

Published

2024

31. The partnerships between hermit crabs and sea anemones: an overview.

Author

Karplus, Ilan

Abstract

The hermit crab-sea anemone (HCA) partnership is a common facultative mutualism. The anemone protects its host from predators such as cephalopods and shell crushing crabs by its stinging cells. The crab provides the anemone with a hard substrate and increased access to oxygenated water and food and in some cases with protection from predators. These partnerships are extremely diverse and complex. This overview addresses issues related to formation of the associations, the early history of these partnerships, placement of anemones on the hermit crab shell, intra and interspecific competition amongst hermit crabs over sea anemones, costs and benefits for crab and anemone from being associated and the evolution of these partnerships based on molecular phylogenies using nuclear and mitochondrial markers. [ABSTRACT FROM AUTHOR]

Published

2024

32. Larval swimming in the sea anemone Nematostella vectensis is sensitive to a broad light spectrum and exhibits a wavelength‐dependent behavioral switch.

Author

Lilly, Emma, Muscala, Meghan, Sharkey, Camilla R., and McCulloch, Kyle J.

Subjects

*SEA anemones, *LARVAL dispersal, *SWIMMING, *VISUAL pigments, *ULTRAVIOLET spectra, *AQUATIC animals

Abstract

In nearly all animals, light‐sensing mediated by opsin visual pigments is important for survival and reproduction. Eyeless light‐sensing systems, though vital for many animals, have received relatively less attention than forms with charismatic or complex eyes. Despite no single light‐sensing organ, the sea anemone Nematostella vectensis has 29 opsin genes and multiple light‐mediated behaviors throughout development and reproduction, suggesting a deceptively complex light‐sensing system. To characterize one aspect of this light‐sensing system, we analyzed larval swimming behavior at high wavelength resolution across the ultraviolet and visual spectrum. N. vectensis larvae respond to light at least from 315 to 650 nm, which is a broad sensitivity range even compared to many animals with complex eyes. Planktonic swimming is induced by ultraviolet (UV) and violet wavelengths until 420 nm. Between 420 and 430 nm a behavioral switch occurs where at wavelengths longer than 430 nm, larvae respond to light by swimming down. Swimming down toward the substrate is distinct from light avoidance, as animals do not exhibit positive or negative phototaxis at any wavelength tested. At wavelengths longer than 575 nm, animals in the water column take increasingly longer to respond and this behavior is more variable until 650 nm where larval response is no different from the dark, suggesting these longer wavelengths lie outside of their sensitivity range. Larval swimming is the only motile stage in the life history of N. vectensis, and increased planktonic swimming could lead to greater dispersal range in potentially damaging shallow environments with short‐wavelength light exposure. Longer wavelength environments may indicate more suitable substrates for metamorphosis into the polyp stage, where the individual will remain for the rest of its life. Future work will test whether this robust behavior is mediated by multiple opsins. [ABSTRACT FROM AUTHOR]

Published

2024

33. In Silico Analyses of Vertebrate G-Protein-Coupled Receptor Fusions United With or Without an Additional Transmembrane Sequence Indicate Classification into Three Groups of Linkers.

Author

Kamiya, Toshio, Masuko, Takashi, Borroto-Escuela, Dasiel Oscar, Okado, Haruo, and Nakata, Hiroyasu

Subjects

*RECEPTOR-interacting proteins, *VERTEBRATES, *SEA anemones, *AMPHIBIANS, *REPTILES

Abstract

Natural G-protein-coupled receptors (GPCRs) rarely have an additional transmembrane (TM) helix, such as an artificial TM-linker that can unite two class A GPCRs in tandem as a single-polypeptide chain (sc). Here, we report that three groups of TM-linkers exist in the intervening regions of natural GPCR fusions from vertebrates: (1) the original consensus (i.e., consensus 1) and consensus 2~4 (related to GPCR itself or its receptor-interacting proteins); (2) the consensus but GPCR-unrelated ones, 1~7; and (3) the inability to apply 1/2 that show no similarity to any other proteins. In silico analyses indicated that all natural GPCR fusions from Amphibia lack a TM-linker, and reptiles have no GPCR fusions; moreover, in either the GPCR-GPCR fusion or fusion protein of (GPCR monomer) and non-GPCR proteins from vertebrates, excluding tetrapods, i.e., so-called fishes, TM-linkers differ from previously reported mammalian and are avian sequences and are classified as Groups 2 and 3. Thus, previously reported TM-linkers were arranged: Consensus 1 is [T(I/A/P)(A/S)–(L/N)(I/W/L)(I/A/V)GL(L/G)(A/T)(S/L/G)(I/L)] first identified in invertebrate sea anemone Exaiptasia diaphana (LOC110241027) and (330-SPSFLCI–L–SLL-340) identified in a tropical bird Opisthocomus hoazin protein LOC104327099 (XP_009930279.1); GPCR-related consensus 2~4 are, respectively, (371-prlilyavfc fgtatg-386) in the desert woodrat Neotoma lepida A6R68_19462 (OBS78147.1), (363-lsipfcll yiaallgnfi llfvi-385) in Gavia stellate (red-throated loon) LOC104264164 (XP_009819412.1), and (479-ti vvvymivcvi glvgnflvmy viir-504) in a snailfish GPCR (TNN80062.1); In Mammals Neotoma lepida, Aves Erythrura gouldiae, and fishes protein (respectively, OBS83645.1, RLW13346.1 and KPP79779.1), the TM-linkers are Group 2. Here, we categorized, for the first time, natural TM-linkers as rare evolutionary events among all vertebrates. [ABSTRACT FROM AUTHOR]

Published

2024

34. Diversity analysis of sea anemone peptide toxins in different tissues of Heteractis crispa based on transcriptomics.

Author

Guo, Qiqi, Fu, Jinxing, Yuan, Lin, Liao, Yanling, Li, Ming, Li, Xinzhong, Yi, Bo, Zhang, Junqing, and Gao, Bingmiao

Subjects

*SEA anemones, *PEPTIDES, *TRANSCRIPTOMES, *TOXINS, *PROTEIN precursors, *VENOM

Abstract

Peptide toxins found in sea anemones venom have diverse properties that make them important research subjects in the fields of pharmacology, neuroscience and biotechnology. This study used high-throughput sequencing technology to systematically analyze the venom components of the tentacles, column, and mesenterial filaments of sea anemone Heteractis crispa, revealing the diversity and complexity of sea anemone toxins in different tissues. A total of 1049 transcripts were identified and categorized into 60 families, of which 91.0% were proteins and 9.0% were peptides. Of those 1049 transcripts, 416, 291, and 307 putative proteins and peptide precursors were identified from tentacles, column, and mesenterial filaments respectively, while 428 were identified when the datasets were combined. Of these putative toxin sequences, 42 were detected in all three tissues, including 33 proteins and 9 peptides, with the majority of peptides being ShKT domain, β-defensin, and Kunitz-type. In addition, this study applied bioinformatics approaches to predict the family classification, 3D structures, and functional annotation of these representative peptides, as well as the evolutionary relationships between peptides, laying the foundation for the next step of peptide pharmacological activity research. [ABSTRACT FROM AUTHOR]

Published

2024

35. Integrated biomarker responses in wild populations of the intertidal sea anemone Bunodosoma zamponii living under different anthropogenic pressures.

Author

Vazquez, Nicolas D., Crupkin, Andrea C., Chierichetti, Melisa A., Acuña, Fabián H., and Miglioranza, Karina S. B.

Subjects

SEA anemones, PERSISTENT pollutants, CHLORPYRIFOS, ORGANOCHLORINE pesticides, BIOMARKERS, ECOPHYSIOLOGY, ORGANOPHOSPHORUS pesticides, PESTICIDES

Abstract

Bunodosoma zamponii is the most abundant anemone in Mar del Plata (Buenos Aires, Argentina). Given that the presence of persistent organic pollutants (organochlorine pesticides and PCBs) and the organophosphate pesticide chlorpyrifos has recently been reported in this species, two wild populations living under different anthropogenic pressures were studied and compared regarding basic aspects of their ecology and physiological response to oxidative stress. A population from an impacted site (Las Delicias, LD) and another from a reference site (Punta Cantera, PC) were monitored seasonally (spring, summer, autumn, and winter), for one year. Anemones from PC were larger and more abundant than those from LD for most sampling periods. During winter, glutathione-S-transferase and catalase activities were higher in LD. Moreover, protein content and antioxidant defenses were higher in anemones from PC during winter as well. Taking into account their ecology (size and abundance) and biomarker responses, the population from PC was comparatively healthier. Furthermore, such differences are in agreement with recent studies indicating a higher concentration of pollutants in anemones from LD (specially during the winter sampling). In this sense, considering that B. zamponii can bioaccumulate the aforementioned pollutants, its resilience to their presence, and the fact that biomarker response differed between sites, this species can be regarded as a proper sentinel species of environmental pollution. Overall, this anemone seems to be a good bioindicator to be considered in future biomonitoring and ecotoxicological studies. [ABSTRACT FROM AUTHOR]

Published

2024

36. Equinins as Novel Broad-Spectrum Antimicrobial Peptides Isolated from the Cnidarian Actinia equina (Linnaeus, 1758).

Author

La Corte, Claudia, Catania, Valentina, Dara, Mariano, Parrinello, Daniela, Staropoli, Mariele, Trapani, Maria Rosa, Cammarata, Matteo, and Parisi, Maria Giovanna

Abstract

Sea anemones are valuable for therapeutic research as a diversified source of bioactive molecules, due to their diverse bioactive molecules linked to predation and defence mechanisms involving toxins and antimicrobial peptides. Acid extracts from Actinia equina tentacles and body were examined for antibacterial activity against Gram-positive, Gram-negative bacteria, and fungi. The peptide fractions showed interesting minimum inhibitory concentration (MIC) values (up to 0.125 µg/mL) against the tested pathogens. Further investigation and characterization of tentacle acid extracts with significant antimicrobial activity led to the purification of peptides through reverse phase chromatography on solid phase and HPLC. Broad-spectrum antimicrobial peptide activity was found in 40% acetonitrile fractions. The resulting peptides had a molecular mass of 2612.91 and 3934.827 Da and MIC ranging from 0.06 to 0.20 mg/mL. Sequencing revealed similarities to AMPs found in amphibians, fish, and Cnidaria, with anti-Gram+, Gram-, antifungal, candidacidal, anti-methicillin-resistant Staphylococcus aureus, carbapenemase-producing, vancomycin-resistant bacteria, and multi-drug resistant activity. Peptides 6.2 and 7.3, named Equinin A and B, respectively, were synthesized and evaluated in vitro towards the above-mentioned bacterial pathogens. Equinin B exerted interesting antibacterial activity (MIC and bactericidal concentrations of 1 mg/mL and 0.25 mg/mL, respectively) and gene organization supporting its potential in applied research. [ABSTRACT FROM AUTHOR]

Published

2024

37. Updated single cell reference atlas for the starlet anemone Nematostella vectensis.

Author

Cole, Alison G., Steger, Julia, Hagauer, Julia, Denner, Andreas, Ferrer Murguia, Patricio, Knabl, Paul, Narayanaswamy, Sanjay, Wick, Brittney, Montenegro, Juan D., and Technau, Ulrich

Subjects

*ANEMONES, *SEA anemones, *TRANSCRIPTOMES, *ANIMAL young, *GASTRULATION

Abstract

Background: The recent combination of genomics and single cell transcriptomics has allowed to assess a variety of non-conventional model organisms in much more depth. Single cell transcriptomes can uncover hidden cellular complexity and cell lineage relationships within organisms. The recent developmental cell atlases of the sea anemone Nematostella vectensis, a representative of the basally branching Cnidaria, has provided new insights into the development of all cell types (Steger et al Cell Rep 40(12):111370, 2022; Sebé-Pedrós et al. Cell 173(6):1520–1534.e20). However, the mapping of the single cell reads still suffers from relatively poor gene annotations and a draft genome consisting of many scaffolds. Results: Here we present a new wildtype resource of the developmental single cell atlas, by re-mapping of sequence data first published in Steger et al. (2022) and Cole et al. (Nat Commun 14(1):1747, 2023), to the new chromosome-level genome assembly and corresponding gene models in Zimmermann et al. (Nat Commun 14, 8270 (2023). https://doi.org/10.1038/s41467-023-44080-7). We expand the pre-existing dataset through the incorporation of additional sequence data derived from the capture and sequencing of cell suspensions from four additional samples: 24 h gastrula, 2d planula, an inter-parietal region of the bodywall from a young unsexed animal, and another adult mesentery from a mature male animal. Conclusion: Our analyses of the full cell-state inventory provide transcriptomic signatures for 127 distinct cell states, of which 47 correspond to neuroglandular subtypes. We also identify two distinct putatively immune-related transcriptomic profiles that segregate between the inner and outer cell layers. Furthermore, the new gene annotation Nv2 has markedly improved the mapping on the single cell transcriptome data and will therefore be of great value for the community and anyone using the dataset. [ABSTRACT FROM AUTHOR]

Published

2024

38. A Comparative Analysis of the Venom System between Two Morphotypes of the Sea Anemone Actinia equina.

Author

Alcaide, Maria, Moutinho Cabral, Inês, Carvalho, Lara, Mendes, Vera M., Alves de Matos, António P., Manadas, Bruno, Saúde, Leonor, D'Ambrosio, Mariaelena, and Costa, Pedro M.

Subjects

*SEA anemones, *VENOM, *MARINE biology, *DRUG discovery, *TOXICITY testing, *INTERTIDAL zonation, *CNIDARIA, *ZEBRA danio embryos

Abstract

Simple Summary: The unsurmountable diversity of marine life is an invaluable reservoir of natural compounds for drug discovery, amongst which toxins and other bioactive molecules in venoms and poisons are prized targets. Cnidarians are some of the best-studied marine venomous animals, yet most venom components remain unidentified. This study focuses on the sea anemone Actinia equina from Portuguese intertidal zones, comparing two common morphotypes, "green" and "red", ultimately aiming to explore its potential as a source of bioactive compounds. We provide detailed examinations of A. equina's anatomy and microanatomy, a proteomics analysis to identify proteinaceous toxins in its tentacles and toxicity testing on zebrafish embryos. The study confirms the presence of venom-injecting cells (nematocysts) in the tentacles but finds no differences between green and red varieties. Various toxins, including neurotoxins and pore-forming proteins, were discovered. Both green and red extracts exhibit toxicity to zebrafish embryos, with green anemones appearing more potent. Overall, this study unveils proteinaceous toxins in A. equina and demonstrates that different varieties harbour distinct bioactive compounds. Besides ecological considerations, these findings bring further promise to bioprospecting A. equina for novel toxins with potential biotechnological and biomedical interest. The current study investigates the venom-delivery system of green and red morphotypes of the sea anemone Actinia equina to disclose its potential as a source of bioactive compounds. We compared the two morphotypes using electron and optical microscopy, proteomics, and toxicity assessment on zebrafish embryos. Specialized venom-injecting cells (nematocysts) are equally distributed and found in the tentacles of both varieties. Proteomics revealed proteins of interest in both red and green Actinia, yielding the three most abundant Gene Ontology (GO) terms related to the biological processes "proteolysis", "hemolysis in another organism" and "lipid catabolic process". Neurotoxins and cytolytic toxins similar to known cnidarian toxins like PsTX-60A and AvTX-60A, for instance, were identified in both types. Extracts from green and red anemones were toxic to zebrafish embryos, with green anemone venom appearing to be more potent. The findings highlight the presence of proteinaceous toxins in A. equina and the potential for different varieties to possess distinct bioactive compounds. Notably, pore-forming toxins are suggested for molecular probes and immunotoxins, making them valuable assets for potential biotechnological and biomedical purposes. [ABSTRACT FROM AUTHOR]

Published

2024

39. Venom trade-off shapes interspecific interactions, physiology, and reproduction.

Author

Surm, Joachim M., Birch, Sydney, Macrander, Jason, Jaimes-Becerra, Adrian, Fridrich, Arie, Aharoni, Reuven, Rozenblat, Rotem, Sharabany, Julia, Appelbaum, Lior, Reitzel, Adam M., and Moran, Yehu

Subjects

*VENOM, *PREDATION, *PHYSIOLOGY, *SEA anemones, *GENETIC techniques, *REPRODUCTION

Abstract

The ability of an animal to effectively capture prey and defend against predators is pivotal for survival. Venom is often a mixture of many components including toxin proteins that shape predator-prey interactions. Here, we used the sea anemone Nematostella vectensis to test the impact of toxin genotypes on predator-prey interactions. We developed a genetic manipulation technique to demonstrate that both transgenically defficient and a native Nematostella strain lacking a major neurotoxin (Nv1) have a reduced ability to defend themselves against grass shrimp, a native predator. In addition, secreted Nv1 can act indirectly in defense by attracting mummichog fish, which prey on grass shrimp. Here, we provide evidence at the molecular level of an animal-specific tritrophic interaction between a prey, its antagonist, and a predator. Last, this study reveals an evolutionary trade-off, as the reduction of Nv1 levels allows for faster growth and increased reproductive rates. [ABSTRACT FROM AUTHOR]

Published

2024

40. The evolution of cnidarian stinging cells supports a Precambrian radiation of animal predators.

Author

Sierra, Noémie C. and Gold, David A.

Subjects

*PREDATORY animals, *SEA anemones, *CNIDARIA, *MOLECULAR clock, *CELLULAR evolution, *HYDROZOA, *EDIACARAN fossils, *PRECAMBRIAN

Abstract

Cnidarians—the phylum including sea anemones, corals, jellyfish, and hydroids—are one of the oldest groups of predatory animals. Nearly all cnidarians are carnivores that use stinging cells called cnidocytes to ensnare and/or envenom their prey. However, there is considerable diversity in cnidocyte form and function. Tracing the evolutionary history of cnidocytes may therefore provide a proxy for early animal feeding strategies. In this study, we generated a time‐calibrated molecular clock of cnidarians and performed ancestral state reconstruction on 12 cnidocyte types to test the hypothesis that the original cnidocyte was involved in prey capture. We conclude that the first cnidarians had only the simplest and least specialized cnidocyte type (the isorhiza) which was just as likely to be used for adhesion and/or defense as the capture of prey. A rapid diversification of specialized cnidocytes occurred through the Ediacaran (~654–574 million years ago), with major subgroups developing unique sets of cnidocytes to match their distinct feeding styles. These results are robust to changes in the molecular clock model, and are consistent with growing evidence for an Ediacaran diversification of animals. Our work also provides insight into the evolution of this complex cell type, suggesting that convergence of forms is rare, with the mastigophore being an interesting counterexample. Highlights: Cnidarian stinging cells diversified through the Ediacaran, demonstrating that animal predation evolved before the Cambrian explosion. The mastigophore is rare case of a complex cell type evolving more than once. [ABSTRACT FROM AUTHOR]

Published

2024

41. New records of sea anemones (Cnidaria, Anthozoa, Actiniaria) from El Salvador, Eastern Pacific.

Author

Ramírez-Orellana, Adriana, Segovia, Johanna, Acuña, Fabián H., Garese, Agustín, and González-Muñoz, Ricardo

Subjects

*SEA anemones

Abstract

We report the first records of the sea anemones Anthopleura mariscali, Anthopleura nigrescens, and Exaiptasia diaphana in the Protected Natural Area of Los Cóbanos and Punta Amapala on the coast of El Salvador. Additionally, we extend the known range of distribution of Telmatactis panamensis to southeastern El Salvador. Each of these species is briefly described, and images of live specimens are provided. The geographic distributions of previous records of sea anemones in El Salvador are discussed. An updated list of 11 species reported in the country is provided. [ABSTRACT FROM AUTHOR]

Published

2024

42. Emoji Kingdom.

Author

Leffer, Lauren

Subjects

*EMOTICONS & emojis, *DIGITAL communications, *TARDIGRADA, *SEA anemones

Abstract

A recent study published in the journal iScience has found that the world of emoji heavily favors vertebrate animals over other forms of life, with plants and fungi being barely represented. This lack of diversity in emoji could hinder digital communication about conservation and biology. The study suggests that adding just three new emoji, including a flatworm, a tardigrade, and a starfish, could significantly increase virtual representation and promote awareness of different taxa. However, the addition of new emoji must be carefully considered due to storage space limitations and keyboard clutter. Despite these challenges, there has been progress in increasing emoji biodiversity, with the number of animal taxa represented more than doubling between 2015 and 2022. [Extracted from the article]

Published

2024

43. Analysis of SMAD1/5 target genes in a sea anemone reveals ZSWIM4-6 as a novel BMP signaling modulator.

Author

Knabl, Paul, Schauer, Alexandra, Pomreinke, Autumn P., Zimmermann, Bob, Rogers, Katherine W., Čapek, Daniel, Müller, Patrick, and Genikhovich, Grigory

Subjects

*SEA anemones, *NUCLEAR proteins, *LISTING of securities, *TRANSCRIPTION factors, *XENOPUS, *DROSOPHILA

Abstract

BMP signaling has a conserved function in patterning the dorsal-ventral body axis in Bilateria and the directive axis in anthozoan cnidarians. So far, cnidarian studies have focused on the role of different BMP signaling network components in regulating pSMAD1/5 gradient formation. Much less is known about the target genes downstream of BMP signaling. To address this, we generated a genome-wide list of direct pSMAD1/5 target genes in the anthozoan Nematostella vectensis, several of which were conserved in Drosophila and Xenopus. Our ChIP-seq analysis revealed that many of the regulatory molecules with documented bilaterally symmetric expression in Nematostella are directly controlled by BMP signaling. We identified several so far uncharacterized BMP-dependent transcription factors and signaling molecules, whose bilaterally symmetric expression may be indicative of their involvement in secondary axis patterning. One of these molecules is zswim4-6, which encodes a novel nuclear protein that can modulate the pSMAD1/5 gradient and potentially promote BMP-dependent gene repression. [ABSTRACT FROM AUTHOR]

Published

2024

44. Proteotransciptomics of the Most Popular Host Sea Anemone Entacmaea quadricolor Reveals Not All Toxin Genes Expressed by Tentacles Are Recruited into Its Venom Arsenal.

Author

Hoepner, Cassie M., Stewart, Zachary K., Qiao, Robert, Fobert, Emily K., Prentis, Peter J., Colella, Alex, Chataway, Tim, Burke da Silva, Karen, and Abbott, Catherine A.

Subjects

*SEA anemones, *TOXINS, *VENOM, *MESSENGER RNA, *BACTERIAL toxins, *GENE expression, *GENE clusters

Abstract

While the unique symbiotic relationship between anemonefishes and sea anemones is iconic, it is still not fully understood how anemonefishes can withstand and thrive within the venomous environment of their host sea anemone. In this study, we used a proteotranscriptomics approach to elucidate the proteinaceous toxin repertoire from the most common host sea anemone, Entacmaea quadricolor. Although 1251 different toxin or toxin-like RNA transcripts were expressed in E. quadricolor tentacles (0.05% of gene clusters, 1.8% of expression) and 5375 proteins were detected in milked venom, only 4% of proteins detected in venom were putative toxins (230), and they only represent on average 14% of the normalised protein expression in the milked venom samples. Thus, most proteins in milked venom do not appear to have a toxin function. This work raises the perils of defining a dominant venom phenotype based on transcriptomics data alone in sea anemones, as we found that the dominant venom phenotype differs between the transcriptome and proteome abundance data. E. quadricolor venom contains a mixture of toxin-like proteins of unknown and known function. A newly identified toxin protein family, Z3, rich in conserved cysteines of unknown function, was the most abundant at the RNA transcript and protein levels. The venom was also rich in toxins from the Protease S1, Kunitz-type and PLA2 toxin protein families and contains toxins from eight venom categories. Exploring the intricate venom toxin components in other host sea anemones will be crucial for improving our understanding of how anemonefish adapt to the venomous environment. [ABSTRACT FROM AUTHOR]

Published

2024

45. Evolutionary Analysis of Cnidaria Small Cysteine-Rich Proteins (SCRiPs), an Enigmatic Neurotoxin Family from Stony Corals and Sea Anemones (Anthozoa: Hexacorallia).

Author

Barroso, Ricardo Alexandre, Ramos, Luana, Moreno, Hugo, and Antunes, Agostinho

Subjects

*SEA anemones, *SCLERACTINIA, *ANTHOZOA, *MOLECULAR evolution, *CNIDARIA, *PROTEINS

Abstract

Cnidarians (corals, sea anemones, and jellyfish) produce toxins that play central roles in key ecological processes, including predation, defense, and competition, being the oldest extant venomous animal lineage. Cnidaria small cysteine-rich proteins (SCRiPs) were the first family of neurotoxins detected in stony corals, one of the ocean's most crucial foundation species. Yet, their molecular evolution remains poorly understood. Moreover, the lack of a clear classification system has hindered the establishment of an accurate and phylogenetically informed nomenclature. In this study, we extensively surveyed 117 genomes and 103 transcriptomes of cnidarians to identify orthologous SCRiP gene sequences. We annotated a total of 168 novel putative SCRiPs from over 36 species of stony corals and 12 species of sea anemones. Phylogenetic reconstruction identified four distinct SCRiP subfamilies, according to strict discrimination criteria based on well-supported monophyly with a high percentage of nucleotide and amino acids' identity. Although there is a high prevalence of purifying selection for most SCRiP subfamilies, with few positively selected sites detected, a subset of Acroporidae sequences is influenced by diversifying positive selection, suggesting potential neofunctionalizations related to the fine-tuning of toxin potency. We propose a new nomenclature classification system relying on the phylogenetic distribution and evolution of SCRiPs across Anthozoa, which will further assist future proteomic and functional research efforts. [ABSTRACT FROM AUTHOR]

Published

2024

46. Eocene origin of anemone-carrying behaviour in polydectine crabs (Brachyura: Xanthidae).

Author

Gries, Lennart, Paule, Juraj, Sonnewald, Moritz, and Nilsson, Maria A

Subjects

*CRABS, *EOCENE Epoch, *WHOLE genome sequencing, *SEA anemones, *PORTUNIDAE, *BAYESIAN field theory

Abstract

The crabs in the subfamily Polydectinae (family Xanthidae) have adapted a defence behaviour in which living invertebrates are used as protection from predators. The polydectine crabs carry a living invertebrate, a sea anemone or nudibranch, in each claw, which is positioned in front of the body and waved to scare off attackers. In an attempt to trace the origin of this behaviour, we sequenced the complete mitochondrial genome of 19 crabs (encompassing 12 genera) from museum samples. The complete mitochondrial genomes were included in a larger dataset with previously published sequences and analysed using maximum likelihood and Bayesian inference. The divergence times of the polydectine crab radiation were estimated using the mitochondrial dataset and fossil calibration points. Our results show that the anemone-carrying polydectine crabs consist of at least three deep evolutionary lineages that evolved in the Late Eocene. All three lineages share the unique behaviour suggesting that it emerged in the ancestor to Polydectinae nearly 40 million years ago and has persisted in all living species. [ABSTRACT FROM AUTHOR]

Published

2024

47. Synergistic and antagonistic interactions of oxybenzone and ocean acidification: new insight into vulnerable cellular processes in non-calcifying anthozoans.

Author

Morgan, Michael B., Williams, Jacob, Breeze, Barrett, English, Nicholas, Higdon, Nathaniel, Onthank, Kirt, and Qualley, Dominic F.

Subjects

OCEAN acidification, POLLUTANTS, AMINO acid metabolism, MONOCARBOXYLATE transporters, SEA anemones

Abstract

Cnidarians face significant threats from ocean acidification (OA) and anthropogenic pollutants such as oxybenzone (BP-3). The convergence of threats from multiple stressors is an important area to investigate because of potential significant synergistic or antagonistic interactions. Real-time quantitative PCR was performed to characterize the expression profiles of twenty-two genes of interest (GOI) in sea anemones (Exaiptasia diaphana) exposed to one of four treatments: 1) 96 h of OA conditions followed by a 4 h exposure to 20 ppb BP-3; 2) Exposure to 4 h 20 ppb BP-3 without 96 h of OA; 3) Exposure to 96 h of OA alone; or 4) laboratory conditions with no exposure to BP3 and/or OA. These 22 GOIs represent cellular processes associated with protondependent transport, sodium-dependent transport, metal cation binding/ transport, extracellular matrix, amino acid metabolism/transport, immunity, and/or steroidogenesis. These 22 GOIs provide new insight into vulnerable cellular processes in non-calcifying anthozoans exposed to OA and BP-3. Expression profiles were categorized as synergistic, antagonistic, or additive of BP-3 in the presence of OA. Two GOIs were synergistic. Fifteen GOIs were antagonistic and the remaining five GOIs were additive in response to BP-3 in acidified seawater. A subset of these GOIs appear to be candidate biomarkers for future in situ investigations. In human health, proton-dependent monocarboxylate transporters (MCTs) are promising pharmacological targets and recognized as potential biomarkers. By comparison, these same MCTs appear to be targets of xenobiotic chemical pollutants in cnidarian physiology. In the presence of BP-3, a network of collagen synthesis genes are upregulated and antagonistic in their expression profiles. Cytochrome b561 is a critical protein required for collagen synthesis and in silico modeling demonstrates BP-3 binds in the pocket of cytochrome b561. Understanding the underlying molecular mechanisms of “drug-like” compounds such as BP-3 may lead to a more comprehensive interpretation of transcriptional expression profiles. The collective antagonistic responses of GOIs associated with collagen synthesis strongly suggests these GOIs should be considered candidate biomarkers of effect. GOIs with synergistic and additive responses represent candidate biomarkers of exposure. Results show the effects of OA and BP-3 are interactive with respect to their impact on cnidarians. This investigation offers mechanistic data that supports the expression profiles and underpins higher order physiological responses. [ABSTRACT FROM AUTHOR]

Published

2024

48. Diversity and density relationships between lebensspuren and tracemaking organisms: a study case from abyssal northwest Pacific.

Author

Miguez-Salas, Olmo, Brandt, Angelika, Knauber, Henry, and Riehl, Torben

Subjects

DEEP-sea animals, BENTHIC animals, DENSITY, SEA anemones, BIOTURBATION, TRACE fossils

Abstract

In the deep sea, interactions between benthic fauna and seafloor sediment primarily occur through bioturbation that can be preserved as traces (i.e. lebensspuren). Lebensspuren are common features of deep-sea landscapes and are more abundant than the organisms that produce them (i.e. tracemakers), rendering lebensspuren promising proxies for inferring biodiversity. The density and diversity relationships between lebensspuren and benthic fauna remain unclear, and contradicting correlations have been proposed (i.e. negative, positive, or even null correlations). To approach these variable correlations, lebensspuren and benthic fauna were characterized taxonomically at eight deep-sea stations in the Kuril-Kamchatka Trench area, together with two novel categories: tracemakers (specific epibenthic fauna that produce these traces) and degrading fauna (benthic fauna that can erase lebensspuren). No general correlation (overall study area) was observed between diversities of lebensspuren, tracemakers, degrading fauna, and fauna. However, a diversity correlation was observed at specific stations, showing both negative and positive correlations depending on: (1) the number of unknown tracemakers (especially significant for dwelling lebensspuren); (2) the lebensspuren with multiple origins; and (3) tracemakers that can produce different lebensspuren. Lebensspuren and faunal density were not correlated. However, lebensspuren density was either positively or negatively correlated with tracemaker densities, depending on the lebensspuren morphotypes. A positive correlation was observed for resting lebensspuren (e.g. ophiuroid impressions, Actiniaria circular impressions), while negative correlations were observed for locomotion-feeding lebensspuren (e.g. echinoid trails). In conclusion, lebensspuren diversity may be a good proxy for tracemaker biodiversity when the lebensspuren–tracemaker relationship can be reliable characterized. Lebensspuren–density correlations vary depending on the specific lebensspuren residence time, tracemaker density, and associated behaviour (rate of movement). Overall, we suggest that lebensspuren density and diversity correlations should be studied with tracemakers rather than with general benthic fauna. On a global scale, abiotic (e.g. hydrodynamics, substrate consistency) and other biotic factors (e.g. microbial degradation) may also play an important role. [ABSTRACT FROM AUTHOR]

Published

2024

49. Modulation of TRPV1 and TRPA1 Channels Function by Sea Anemones' Peptides Enhances the Viability of SH-SY5Y Cell Model of Parkinson's Disease.

Author

Kolesova, Yuliya S., Stroylova, Yulia Y., Maleeva, Ekaterina E., Moysenovich, Anastasia M., Pozdyshev, Denis V., Muronetz, Vladimir I., and Andreev, Yaroslav A.

Subjects

*PARKINSON'S disease, *STRAITS, *SEA anemones, *ACID-sensing ion channels, *TRPV cation channels, *ION channels

Abstract

Cellular dysfunction during Parkinson's disease leads to neuroinflammation in various brain regions, inducing neuronal death and contributing to the progression of the disease. Different ion channels may influence the process of neurodegeneration. The peptides Ms 9a-1 and APHC3 can modulate the function of TRPA1 and TRPV1 channels, and we evaluated their cytoprotective effects in differentiated to dopaminergic neuron-like SH-SY5Y cells. We used the stable neuroblastoma cell lines SH-SY5Y, producing wild-type alpha-synuclein and its mutant A53T, which are prone to accumulation of thioflavin-S-positive aggregates. We analyzed the viability of cells, as well as the mRNA expression levels of TRPA1, TRPV1, ASIC1a channels, alpha-synuclein, and tyrosine hydroxylase after differentiation of these cell lines using RT-PCR. Overexpression of alpha-synuclein showed a neuroprotective effect and was accompanied by a reduction of tyrosine hydroxylase expression. A mutant alpha-synuclein A53T significantly increased the expression of the pro-apoptotic protein BAX and made cells more susceptible to apoptosis. Generally, overexpression of alpha-synuclein could be a model for the early stages of PD, while expression of mutant alpha-synuclein A53T mimics a genetic variant of PD. The peptides Ms 9a-1 and APHC3 significantly reduced the susceptibility to apoptosis of all cell lines but differentially influenced the expression of the genes of interest. Therefore, these modulators of TRPA1 and TRPV1 have the potential for the development of new therapeutic agents for neurodegenerative disease treatment. [ABSTRACT FROM AUTHOR]

Published

2024

50. Photosynthesis in a green alga (zoochlorella), Chlorella cf. vulgaris in the soft coral Sarcophyton sp.

Author

Ritchie, Raymond J., Sma-Air, Suhailar, Johnson, Michael S., Murray, Shauna A., Nguyen, Anne, Larkum, Anthony W.D., and Dummee, Vipawee

Subjects

*ALCYONACEA, *GREEN algae, *CHLORELLA vulgaris, *SYMBIODINIUM, *SEA anemones, *LIGHT curves, *PHOTOSYNTHESIS

Abstract

An undescribed variety of the green alga Chlorella cf. vulgaris was found living in the octocoral (soft coral) Sarcophyton sp., which also has dinoflagellate zooxanthellae. The green alga is present in very small numbers and is capable of photoheterotrophy based on growth in the presence of an inhibitor of photosynthesis, DCMU, with glycerol provided as a carbon source. The presence of zoochlorellae (Chl a + b), in soft corals appears to have been unsuspected. The easily cultured green alga was unicellular, unflagellated and very small, c. 2 to 6 µm in diameter and had a relatively high Chl b content (Chl b/a = 0.379 ± 0.063). Rapid light curves using PAM fluorometry on the cultured cells showed that Yield vs. irradiance had a low maximum yield (Ymax, 0.388 ± 0.0132; Irradiance ½ point, E½Ymax = 139 ± 11.1 µmol photon m–2 s–1). The overall optimum irradiance (Eopt) for the alga was 314 ± 18.8 µmol photon m–2 s–1. The alga can photosynthesize at 50% or more of the optimum rate from 70 to 900 µmol photon m–2 s–1 but would be severely inhibited under full sunlight. Most naturally occurring low irradiance habitats may have a low median irradiance but are exposed intermittently to very high irradiances and so a relatively high Eopt is advantageous in minimizing photochemical damage. Like the green algal symbiont Elliptochloris marina of sea anemones, Chlorella cf. vulgaris is not exclusively marine: it grows better in freshwater medium where it has different photosynthetic characteristics (higher Ymax, Eopt and ETRmax). Chlorella cf. vulgaris appears to be capable of photoheterotrophy and it is not clear if it is a symbiont, a commensal or a parasite. [ABSTRACT FROM AUTHOR]

Published

2024