CRISPR/Cas12a integrated electrochemiluminescence biosensor for pufferfish authenticity detection based on NiCo2O4 NCs@Au as a coreaction accelerator.

Meat adulteration has brought economic losses, health risks, and religious concerns, making it a pressing global issue. Herein, combining the high amplification efficiency of polymerase chain reaction (PCR) and the accurate recognition of CRISPR/Cas12, a sensitive and reliable electrochemiluminescence (ECL) biosensor was developed for the detection of pufferfish authenticity using NiCo2O4 NCs@Au-ABEI as nanoemitters. In the presence of target DNA, the trans-cleavage activity of CRISPR/Cas12a is activated upon specific recognition by crRNA, and then it cleaves dopamine-modified single stranded DNA (ssDNA-DA), triggering the ECL signal from the "off" to "on" state. However, without target DNA, the trans-cleavage activity of CRISPR/Cas12a is silenced. By rationally designing corresponding primers and crRNA, the biosensor was applied to specific identification of four species of pufferfish. Furthermore, as low as 0.1 % (w/w) adulterate pufferfish in mixture samples could be detected. Overall, this work provides a simple, low-cost and sensitive approach to trace pufferfish adulteration.

Genome analysis deciphered Chryseobacterium indicum is a distinct species associated with freshwater pufferfish.

A bacterium, strain PS-8T of the genus Chryseobacterium, was isolated from the skin of freshwater pufferfish (Tetraodon cutcutia). Strain PS-8T is a Gram-negative, aerobic, non-motile, and rod-shaped bacterium. Colonies appear in yellowish-orange colors. The major cellular fatty acids were C15:0 iso, C17:0 iso 3OH, C15:0 iso 3OH, and C11:0 anteiso. The predominant polar lipids were phosphatidylethanolamine and amino lipids. The genome size is 4.83 Mb. The G + C content was 35.6%. The in silico dDDH homology, ANI, and AAI were below the cutoff value, 70% and 95% to 96%, respectively, suggesting that strain PS-8T represents a defined species. The phylogenetic tree based on core and the non-recombinant genes showed the strain PS-8T clustered with Chryseobacterium gambrini DSM 18014T. Genome-wide analysis decodes several virulence factors of the genus Chryseobacterium, including genes for adherence, biofilm and stability, proliferation, resistance to immune response, and host-defense evasion system. The cladogram of the virulence genes showed a phylogenetic relationship among the Chryseobacterium species. Knowledge of the association of Chryseobacterium with freshwater pufferfish adds a new ecological niche to this bacterium.

Interrelationships and biogeography of the New World pufferfish genus Sphoeroides (Tetraodontiformes: Tetraodontidae) inferred using ultra-conserved DNA elements.

Colonization of the New World by marine taxa has been hypothesized to have occurred through the Tethys Sea or by crossing the East Pacific Barrier. To better understand patterns and timing of diversification, geological events can be coupled with time calibrated phylogenetic hypotheses to infer major drivers of diversification. Phylogenetic relationships among members of Sphoeroides, a genus of four toothed pufferfishes (Tetraodontiformes: Tetraodontidae) which are found nearly exclusively in the New World (eastern Pacific and western Atlantic), were reconstructed using sequences from ultra-conserved DNA elements, nuclear markers with clear homology among many vertebrate taxa. Hypotheses derived from concatenated maximum-likelihood and species tree summary methods support a paraphyletic Sphoeroides, with Colomesus deeply nested within the genus. Analyses also revealed S. pachygaster, a pelagic species with a cosmopolitan distribution, as the sister taxon to the remainder of Sphoeroides and recovered distinct lineages within S. pachygaster, indicating that this cosmopolitan species may represent a species complex. Ancestral range reconstruction may suggest the genus colonized the New World through the eastern Pacific before diversifying in the western Atlantic, though date estimates for these events are uncertain due to the lack of reliable fossil record for the genus.

Genomic Structure and Molecular Characterization of Toll-like Receptors in Black Scraper Thamnaconus Modestus and Their Expression Response to Two Types of Pathogens.

The black scraper (Thamnaconus modestus) is an important commercial species in China. However, with the rapid expansion of aquaculture, the culture of this species faces substantial economic losses due to infectious diseases. Toll-like receptors (TLRs) recognize a wide range of pathogen-associated molecular patterns (PAMPs) and play a crucial role in disease resistance by initiating innate immune responses in the host. The genome of the black scraper comprises eight TLR members, which can be classified into five subfamilies based on evolutionary analysis. Moreover, the TmTLRs were identified on 6 out of the 20 chromosomes in the black scraper. The functional similarity within the same subfamilies is evident by conserved motifs and gene structures. The qRT-PCR experiments revealed diverse TmTLR expression patterns in the liver, intestine, spleen, head kidney, heart, and brain of black scrapers, with high expression levels observed in immune organs, suggesting that TmTLRs may participate in the regulation of immune mechanisms and other physiological functions in the black scraper. At least six TmTLRs showed significantly upregulated expression in response to poly (I: C) or lipopolysaccharide (LPS) stresses, thus indicating their potential roles in regulating abiotic stress responses. In conclusion, our findings not only provide a foundation for future research on the TLR gene family in the black scraper but also offer guidance for disease prevention and vaccine development.

Vibrio fluminensis sp. nov. isolated from the skin of Southern Atlantic sharpnose-pufferfish (Canthigaster figueiredoi).

This manuscript provides the description of the bacterial strain A621T characterized by Gram negative motile rods, presenting green circular colonies on TCBS. It was obtained from the skin of the sharpnose pufferfish Canthigaster figueredoi (Tetraodontidae Family), collected in Arraial do Cabo, located in the Rio de Janeiro region, Brazil. Optimum growth occurs at 20-28 °C in the presence of 3% NaCl. The Genome sequence of the novel isolate consisted of 4.224 Mb, 4431 coding genes and G + C content of 44.5%. Genomic taxonomy analysis based on average amino acid (AAI), genome-to-genome-distance (GGDH) and phylogenetic reconstruction placed (A621T= CBAS 741T = CAIM 1945T = CCMR 150T) into a new species of the genus Vibrio (Vibrio fluminensis sp. nov). The genome of the novel species contains four gene clusters (~ 56.17 Kbp in total) coding for different types of bioactive compounds that hint to several possible ecological roles in the sharpnose pufferfish host.

The impact of paleoclimatic changes on body size evolution in marine fishes.

Body size is an important species trait, correlating with life span, fecundity, and other ecological factors. Over Earth's geological history, climate shifts have occurred, potentially shaping body size evolution in many clades. General rules attempting to summarize body size evolution include Bergmann's rule, which states that species reach larger sizes in cooler environments and smaller sizes in warmer environments, and Cope's rule, which poses that lineages tend to increase in size over evolutionary time. Tetraodontiform fishes (including pufferfishes, boxfishes, and ocean sunfishes) provide an extraordinary clade to test these rules in ectotherms owing to their exemplary fossil record and the great disparity in body size observed among extant and fossil species. We examined Bergmann's and Cope's rules in this group by combining phylogenomic data (1,103 exon loci from 185 extant species) with 210 anatomical characters coded from both fossil and extant species. We aggregated data layers on paleoclimate and body size from the species examined, and inferred a set of time-calibrated phylogenies using tip-dating approaches for downstream comparative analyses of body size evolution by implementing models that incorporate paleoclimatic information. We found strong support for a temperature-driven model in which increasing body size over time is correlated with decreasing oceanic temperatures. On average, extant tetraodontiforms are two to three times larger than their fossil counterparts, which otherwise evolved during periods of warmer ocean temperatures. These results provide strong support for both Bergmann's and Cope's rules, trends that are less studied in marine fishes compared to terrestrial vertebrates and marine invertebrates.

Moraxella tetraodonis sp. nov., isolated from freshwater pufferfish (Tetraodon cutcutia) skin.

A novel aerobic bacterium, strain PS-22 of the genus Moraxella, was isolated from the skin of freshwater pufferfish (Tetraodon cutcutia). Cells were Gram stain negative, aerobic, non-motile, and coccoid. Optimum growth occurred at 28-30 °C and pH 6.5-7.5. The major cellular fatty acids were C18:1 ω9c, C10:0, C16:0, and C12:0 anteiso. The predominant polar lipids were diphosphatidylglycerol, phosphatidylglycerol, phosphatidylethanolamine, phospholipid, amino lipid, and seven unknown lipids. The genome size is 2.68 Mbp, and the DNA G + C content was 43.3%. A gene ontology study revealed that the major fraction of genes were associated with biological processes (46.81%), followed by molecular function (34.27%) and cellular components (18.8%). Comparisons of 16S rRNA gene sequences revealed 99.11-90% sequence similarity with the closely related type strains of the genus Moraxella. The average nucleotide identity (ANI) and average amino acid identity (AAI) of strain PS-22 with reference type strains of the genus Moraxella were below 95-96%, and the corresponding in silico DNA-DNA hybridization (DDH) values were below 70%. A phylogenetic tree based on genome-wide core genes and 16S rRNA gene sequences revealed that strain PS-22 clustered with Moraxella osloensis CCUG350T in both the phylogenetic trees. Genotypic and phenotypic characteristics of strain PS-22 represent a novel species for which Moraxella tetraodonis sp. nov. is proposed. The type strain is PS-22T (= TBRC 15232T = NBRC 115236T).

Pufferfish poisoning from Arothron stellatus: The first confirmed case in India with exact DNA sequencing-based species identification.

A puffer fish poisoning case was reported from the coastal city of Veraval in the Gujarat state of India with patient reporting symptoms of giddiness, vertigo, aphasia and heaviness of head following consumption of cooked fish. Treatment was purely symptomatic and supportive. The patient was discharged from the hospital in a stable condition after 4 days. The suspected fish species was later identified using DNA (Deoxyribonucleic Acid) sequencing as Arothron stellatus with 100% identity.

Phylogeny and Toxin Profile of Freshwater Pufferfish (Genus Pao) Collected from 2 Different Regions in Cambodia.

The species classification of Cambodian freshwater pufferfish is incomplete and confusing, and scientific information on their toxicity and toxin profile is limited. In the present study, to accumulate information on the phylogeny and toxin profile of freshwater pufferfish, and to contribute to food safety in Cambodia, we conducted simultaneous genetic-based phylogenetic and toxin analyses using freshwater pufferfish individuals collected from Phnom Penh and Kratie (designated PNH and KTI, respectively). Phylogenetic analysis of partial sequences of three mitochondrial genes (cytochrome b, 16S rRNA, and cytochrome c oxidase subunit I) determined for each fish revealed that PNH and KTI are different species in the genus Pao (designated Pao sp. A and Pao sp. B, respectively). A partial sequence of the nuclear tributyltin-binding protein type 2 (TBT-bp2) gene differentiated the species at the amino acid level. Instrumental analysis of the toxin profile revealed that both Pao sp. A and Pao sp. B possess saxitoxins (STXs), comprising STX as the main component. In Pao sp. A, the toxin concentration in each tissue was extremely high, far exceeding the regulatory limit for STXs set by the Codex Committee, whereas in Pao sp. B, only the skin contained high toxin concentrations. The difference in the STX accumulation ability between the two species with different TBT-bp2 sequences suggests that TBT-bp2 is involved in STX accumulation in freshwater pufferfish.

CXCR4s in Teleosts: Two Paralogous Chemokine Receptors and Their Roles in Hematopoietic Stem/Progenitor Cell Homeostasis.

Hematopoietic stem/progenitor cells (HSPCs) generate the entire repertoire of immune cells in vertebrates and play a crucial role during infection. Although two copies of CXC motif chemokine receptor 4 (CXCR4) genes are generally identified in teleosts, the function of teleost CXCR4 genes in HSPCs is less known. In this study, we identified two CXCR4 genes from a teleost, ayu (Plecoglossus altivelis), named PaCXCR4a and PaCXCR4b. PaCXCR4b was constitutively expressed in ayu HSPCs, whereas PaCXCR4a was induced by LPS treatment. The stromal-derived factor-1-binding activity of CXCR4b was significantly higher than that of CXCR4a, whereas the LPS-binding activity of CXCR4a was significantly higher than that of CXCR4b in the teleosts ayu, large yellow croaker (Larimichthys crocea), and tiger puffer (Takifugu rubripes). CXCR4a+ HSPCs were mobilized into blood by LPS, whereas CXCR4b+ HSPCs were mobilized by leukocyte cell-derived chemotaxin-2. PaSDF-1 and PaCXCR4b, but not PaCXCR4a, inhibited HSPC proliferation by regulating reactive oxygen species levels. Compared with PaCXCR4b+ HSPCs, PaCXCR4a+ HSPCs preferentially differentiated into myeloid cells in ayu by maintaining high stem cell leukemia expression. These data suggest that the two copies of CXCR4s achieve a division of labor in the regulation of teleost HSPC homeostasis, supporting the concept that subfunctionalization after gene duplication in teleosts may stabilize the immune system.

Mitogenome analysis of dwarf pufferfish (Carinotetraodon travancoricus) endemic to southwest India and its implications in the phylogeny of Tetraodontidae.

The Tetraodontidae (pufferfishes), is primarily a family of marine and estuarine fishes with a limited number of freshwater species. Freshwater invasions can be observed in South America, Southeast Asia and central Africa. In the present study, we have analysed the complete mitogenome of freshwater pufferfish, Carinotetraodon travancoricus (dwarf pufferfish or Malabar pufferfish) endemic to southwest India. The genome is 16487 bp in length and consist of 13 protein-coding genes, 22 transfer RNA genes, two ribosomal RNA genes and one control region like all the other vertebrate mitogenomes. The protein-coding genes ranged from 165 bp (ATP synthase subunit 8) to 1812 bp (NADH dehydrogenase subunit 5) and comprised of 11310 bp in total, constituting 68.5% of the complete mitogenome. Some overlaps have been observed in protein-coding genes by a total of 7 bp. The AT skew (0.032166) and GC skew (-0.29746) of the mitogenome indicated that heavy strand consists equal amount of A and T, but the overall base composition was mainly C skewed. The noncoding D-loop region comprised 869 bp. The conserved motifs ATGTA and its complement TACAT associated with thermostable hairpin structure formation were identified in the control region. The phylogenetic analysis depicted a sister group relationship of C. travancoricus with euryhaline species Dichotomyctere nigroviridis and D. ocellatus with 100% bootstrap value rather than with the other freshwater members of Carinotetraodon species from Southeast Asia. The data from this study will be useful for proper identification, genetic differentiation, management and conservation of the dwarf Indian pufferfish.

Chromosome genome assembly and annotation of the yellowbelly pufferfish with PacBio and Hi-C sequencing data.

Pufferfish are ideal models for vertebrate chromosome evolution studies. The yellowbelly pufferfish, Takifugu flavidus, is an important marine fish species in the aquaculture industry and ecology of East Asia. The chromosome assembly of the species could facilitate the study of chromosome evolution and functional gene mapping. To this end, 44, 27 and 50 Gb reads were generated for genome assembly using Illumina, PacBio and Hi-C sequencing technologies, respectively. More than 13 Gb full-length transcripts were sequenced on the PacBio platform. A 366 Mb genome was obtained with the contig of 4.4 Mb and scaffold N50 length of 15.7 Mb. 266 contigs were reliably assembled into 22 chromosomes, representing 95.9% of the total genome. A total of 29,416 protein-coding genes were predicted and 28,071 genes were functionally annotated. More than 97.7% of the BUSCO genes were successfully detected in the genome. The genome resource in this work will be used for the conservation and population genetics of the yellowbelly pufferfish, as well as in vertebrate chromosome evolution studies.

Life history, distribution and molecular phylogenetics of the Upward-Mouth Spikefish Atrophacanthus japonicus (Teleostei: Tetraodontiformes: Triacanthodidae).

Ninety-six juvenile specimens (37-54 mm standard length; LS ) of the rarely collected Upward-Mouth Spikefish Atrophacanthus japonicus (Triacanthodidae) were obtained from the stomachs of three Yellowfin Tuna Thunnus albacares collected off Guam in the Mariana Islands in the central Pacific Ocean. These specimens extend the range of A. japonicus eastward into Oceania. We review the systematic characters of the monotypic genus Atrophacanthus and present colour photographs of freshly collected specimens. The diet of the juvenile specimens of A. japonicus consisted of thecosome pteropods and foraminiferans. We present a range map of A. japonicus based on all known specimens and show that specimen size is related to whether specimens were collected in the pelagic zone or on the bottom. Our results support that, compared to all other Triacanthodidae, A. japonicus has an unusually extended pelagic larval and juvenile period, up to 54 mm LS , before settling to the bottom as adults. Lastly, we provide a multilocus phylogeny addressing the phylogenetic placement of Atrophacanthus based on eight of 11 triacanthodid genera and six genetic markers. Our results reveal that Atrophacanthus is the sister group of Macrorhamphosodes and they provide new insights about the evolutionary history of the family.

Advances in DNA Barcoding of Toxic Marine Organisms.

There are more than 200,000 marine species worldwide. These include many important economic species, such as large yellow croaker, ribbonfish, tuna, and salmon, but also many potentially toxic species, such as blue-green algae, diatoms, cnidarians, ctenophores, Nassarius spp., and pufferfish. However, some edible and toxic species may look similar, and the correct identification of marine species is thus a major issue. The failure of traditional classification methods in certain species has promoted the use of DNA barcoding, which uses short, standard DNA fragments to assist with species identification. In this review, we summarize recent advances in DNA barcoding of toxic marine species such as jellyfish and pufferfish, using genes including cytochrome oxidase I gene (COI), cytochrome b gene (cytb), 16S rDNA, internal transcribed spacer (ITS), and Ribulose-1,5-bisphosphate carboxylase oxygenase gene (rbcL). We also discuss the application of this technique for improving the identification of marine species. The use of DNA barcoding can benefit the studies of biological diversity, biogeography, food safety, and the detection of both invasive and new species. However, the technique has limitations, particularly for the analysis of complex objects and the selection of standard DNA barcodes. The development of high-throughput methods may offer solutions to some of these issues.

Differential expression of two Piwil orthologs during embryonic and gonadal development in pufferfish, Takifugu fasciatus.

Piwil was an important regulator gene in germ cell division during gonadal development. Two Piwi-like genes, Piwil1 and Piwil2, were first cloned from T. fasciatus. The full-length cDNAs of Piwil1 and Piwil2 were of 2933 and 3394 bp, respectively. Piwil1 and Piwil2 possessed an open reading frame (ORF) of 2565 and 3138 bp, encoding 854 and 1045 amino acids, respectively. The tissue distribution analysis demonstrated that Piwil1 and Piwil2 were expressed at higher levels in gonad compared to other tissues (brain, liver, gill, etc.). The time-course dynamic expressions of Piwils during embryonic indicated that Piwil1 and Piwil2 were mainly enriched in the early embryonic development. In testis, the expression of Piwil1 and Piwil2 increased at first but then decreased at mRNA and protein levels. However, the expression of Piwil1 and Piwil2 in the ovary showed a downward trend from the beginning. In addition, the expression levels of Piwil1 and Piwil2 were weak in mature testes or ovaries. The immunohistochemistry analysis revealed that Piwil1 and Piwil2 were abundantly expressed in cytoplasm of spermatogonia, spermatocytes, oocyte I and oocytes II, which were mainly presented in the early stages of gonadal development. Our results suggested that Piwil was related to the differentiation of germ cells, and might play an important role in embryonic development. Therefore, our findings provided valuable information of Piwils in the reproductive cycle of T. fasciatus.

Seasonal and ontogenetic diet patterns of the freshwater pufferfishColomesus asellus (Müller & Troschel, 1849) in the upper-middleTocantins River / Padrões sazonais e ontogenéticos da dieta do baiacu de água doce Colomesus asellus(Müller & Troschel, 1849) no alto-médio rio Tocantins

We described the feeding habits of Colomesus asellus from riverbanks of the upper-middleTocantins River, Central Brazil. Two sampling expeditions were carried out in August (dry season) and inOctober (rainy season) of 2013, downstream from the Lajeado Hydroelectric Power Plant, Tocantins state.The diet of C. asellus was characterized and compared between juveniles and adults and betweenindividuals captured in the dry season and in the rainy season. Individuals exhibited marked temporalsegregation, with a predominance of adults on the riverbanks during the dry season and the predominanceof juveniles in the rainy season. The diet of this species was based on diverse benthic prey, mostlyEphemeroptera nymphs (Insecta). Contrary to our expectations, the diet composition of C. asellus was notinfluenced by seasonal changes or ontogenetic factors, but the size of individuals determined the numberof prey consumed. Thus, C. asellus can be classified in its trophic ecology as an insectivore without relationwith fish size and seasonality.

Descrevemos os hábitos alimentares de Colomesus asellus capturados nas margens do rioTocantins, Brasil Central. Duas expedições de coleta foram realizadas em agosto (estação seca) e emoutubro (estação chuvosa) de 2013, a jusante da Usina Hidrelétrica de Lajeado, Estado do Tocantins. Adieta de C. asellus foi caracterizada e comparada entre juvenis e adultos e entre indivíduos capturados naestação seca e na estação chuvosa. Os indivíduos apresentaram marcada segregação temporal, compredominância de adultos nas margens do rio durante a estação seca e predominância de juvenis na estaçãochuvosa. A dieta desta espécie foi baseada em diversas presas bentônicas, principalmente ninfas deEphemeroptera (Insecta). Contrariamente às nossas expectativas, a composição da dieta de C. asellus não foiinfluenciada por mudanças sazonais ou fatores ontogenéticos, mas o tamanho dos indivíduos determinou onúmero de presas consumidas. Assim, a espécie pode ser classificada como insetívora, sem variação em suaecologia trófica relacionada à sazonalidade do ambiente ou ao seu tamanho.

Selective pressure on the protein-coding genes of the pufferfish is correlated with phenotypic traits.

The pufferfish accumulates neurotoxic tetrodotoxin in its body and inflates by filling its stomach with water. These traits are unique to this species, and may be a result of adaptation post-divergence of Tetraodontidae. However, evolution of the protein-coding genes in the pufferfish has not yet been well elucidated. Detection of positive selection on these genes can help us understand the mechanisms associated with functional evolution. We downloaded well-annotated gene information of two pufferfish species, Takifugu rubripes and Tetraodon nigroviridis, from the public ENSEMBL database. In order to detect selective pressure on protein-coding sequences, we performed dN/dS estimation using codeml within the PAML software package. We selected one to one orthologous genes among seven fish species (Gasterosteus aculeatus, Oryzias latipes, Poecilia formosa, Takifugu rubripes, Tetraodon nigroviridis, and Xiphophorus maculatus). Results of dN/dS analysis on orthologous genes indicate that pufferfish showed high non-synonymous substitution rate for positively selected genes, and the evolutionary rate was faster during the diversification of two pufferfishes after divergence. Additionally, a candidate mechanism for regulation of neuro-toxicity of tetrodotoxin was identified from functional annotation of positively selected genes. These results support positive selection on protein-coding genes of the pufferfish with the acquisition of specific phenotypic traits.

Genomic Organization of Repetitive DNAs and Differentiation of an XX/XY Sex Chromosome System in the Amazonian Puffer Fish, Colomesus asellus (Tetraodontiformes).

The genus Colomesus is the sole representative of the family Tetraodontidae in the Amazon region. Here, Colomesus asellus was analyzed using conventional and molecular cytogenetic protocols. Its diploid chromosome number is 2n = 46 with 12 meta-, 10 submeta-, 16 subtelo-, and 8 acrocentric chromosomes and a fundamental number of FN = 84. An XX/XY sex chromosome system was identified. Mapping of 18S rDNA correlated with the nucleolus organizer regions (Ag-NORs) in the short arms of the 2 X chromosomes in females and in the Y chromosome in males. C-banding revealed heterochromatin in the centromeric regions of all chromosomes, except for pair 3. Prominent sex chromosome-specific heterochromatin amplification was observed, covering the short arms of the Y chromosome almost entirely. FISH with telomeric and tropomyosin (tpm1) sequences, respectively, revealed terminal signals in all chromosomes. The analysis of extended DNA fibers confirmed the colocalization and the interspersed pattern of the telomeric and tpm1 sequences. Thus, this study highlights the remarkable evolutionary dynamism presented by the Amazonian puffer fish regarding the differentiation of a heteromorphic XY sex chromosome system and a particular sex-specific amplification of rDNA sites. This is the first record of such an association in the Tetraodontidae family.

CXCR3.1 and CXCR3.2 Differentially Contribute to Macrophage Polarization in Teleost Fish.

The study of multiple copies of chemokine receptor genes in various teleosts has long appealed to investigators seeking to understand the evolution of the immune system. The CXCR CXCR3 gene has two isoforms, CXCR3.1 and CXCR3.2, which are both expressed in macrophages. The distinct roles of teleost CXCR3s have not been identified previously. In this article, we found that CXCR3.1 and CXCR3.2 differentially contributed to macrophage polarization in the teleosts: ayu (Plecoglossus altivelis), grass carp (Ctenopharyngodon idella), and spotted green pufferfish (Tetraodon nigroviridis). In ayu macrophages, the P. altivelis CXCR3.1 (PaCXCR3.1) gene was constitutively expressed, whereas the P. altivelis CXCR3.2 (PaCXCR3.2) gene was induced postinfection with Escherichia coli Upon E. coli infection, PaCXCR3.1+ and PaCXCR3.2+ macrophages showed an M1 and an M2 phenotype, respectively. CXCL9-11-like proteins mediated M1 and M2 polarization by interacting with the PaCXCR3.1 and PaCXCR3.2 proteins on macrophages, respectively. The transcription factors P. altivelis STAT1 and P. altivelis STAT3 were activated in PaCXCR3.1+ and PaCXCR3.2+ macrophages, respectively. Furthermore, the prognosis of septic ayu adoptively transferred with PaCXCR3.2+ macrophages was improved. Our data reveal a previously unknown mechanism for macrophage polarization, suggesting that redundant genes may regulate crucial functions in the teleost immune system.

Species Identification of Pufferfish Products Using RAPD Analysis.

A simple and rapid method was developed to identify the source species of pufferfish products. Randomly amplified polymorphic DNA (RAPD) analysis was applied to identify 8 species of pufferfish. Commercial kits were used for DNA extraction and amplification. Simultaneous identification was possible by polyacrylamide gel electrophoresis of PCR products. Two primers were chosen based on the result of pre-examination with 40 primers, and the PCR conditions were optimized. Characteristic RAPD patterns were obtained for each pufferfish species. The developed method was applied to identify the source species of 26 pufferfish products. The results suggest that the developed method would be useful for verification of the labeled species of pufferfish products.