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9. Novel mutations in SPINK5 encoding a serine-protease inhibitor in Netherton syndrome, a severe congenital ichthyosis with hair abnormalities and atopic manifestations

Author

Bitoun, E., Chavanas, S., Irvine, A.D., Paradisi, M., Bodemer, C., Hamel-Teillac, D., Lonie, L., Ansai, S-i., Mitsuhashi, Y., Zimmer, M., de Prost, Y., Zambruno, G., Harper, J.I., and Hovnanian, A.

Subjects
Genetic research -- Analysis, Human genetics -- Research, Genetic disorders -- Research, Biological sciences
Published
2000

17. Vulvar paget disease: one century after first reported.

Author

Preti M, Micheletti L, Massobrio M, Ansai S, Wilkinson EJ, Preti, Mario, Micheletti, Leonardo, Massobrio, Marco, Ansai, Shin-Ichi, and Wilkinson, Edward J

Abstract

OBJECTIVES.: To provide a critical assessment of the published literature on vulvar Paget disease and to allow individualized approaches to affected patients. MATERIALS AND METHODS.: A computerized search for studies published in the literature up to June 2002 was carried out using Ovid(c) and Medline databases. We excluded single case reports, letters to editors, and abstracts. RESULTS.: Historical and epidemiological aspects of vulvar Paget disease are summarized. Clinical and histopathological data support a recent proposal to classify vulvar Paget disease into two categories, primary and secondary, with significant clinical and prognostic implications. The treatment for primary vulvar Paget disease is wide and deep surgical excision. Inguinofemoral lymphadenectomy is added in the management of invasive neoplasms. In the presence of secondary Paget disease, therapy must be directed toward treatment of associated carcinoma. CONCLUSIONS.: The subclassification of vulvar Paget disease is essential for correct clinical management and treatment. Immunohistochemistry may assist in this important distinction. [ABSTRACT FROM AUTHOR]

Published
2003
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18. A case of tubular apocrine adenoma with syringocystadenoma papilliferum.

Author

Ansai, S., Watanabe, S., and Aso, K.

Subjects
*APOCRINE glands, *ADENOMA, *SWEAT glands, *TUMORS, *IMMUNOHISTOCHEMISTRY, *DERMATOLOGY
Abstract

We report a new case of a Japanese man who developed a tubular apocrine adenoma in assocation with syringocystadenoma papilliferum. The differences in the histopathological and immunohistochemical findings in these 2 tumors are described. This is the first immunohistochemical study of tubular apocrine adenoma. [ABSTRACT FROM AUTHOR]

Published
1989
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23. Local immune response induced by intra-fin antigen injection in Japanese medaka (Oryzias latipes) is a useful model for immunological studies.

Author

Ryu T, Yoshino M, Tse WKF, Ansai S, Iguchi T, Kumar A, Somamoto T, Nakao M, and Ogino Y

Abstract

Teleost fishes play a pivotal role in advancing our understanding of immune system evolution because they retain the ancient characteristics of vertebrate immunity, encompassing both innate and adaptive immune systems. Among these, innate immunity plays a critical role in fish as the first line of defense, coordinating rapid responses to pathogen infections. However, the lack of fish-specific immunological methodologies has limited progress in elucidating fish immune mechanisms. To better understand how the innate immune response develops and resolves in fish, detailed observation and integrative analysis of leukocytes at multiple time points is necessary. In the present study, an intra-fin injection method for observing local immune responses in Japanese medaka (Oryzias latipes) was tested and optimized to analyze the progression of zymosan-induced innate immune responses. Zymosan-injected medaka showed a rapid immune response characterized by leukocyte recruitment and phagocytosis. Using TG(FmpxP:mCherry) transgenic medaka with mCherry fluorescence driven by myeloperoxidase (mpx) promoter, granulocyte chemotaxis towards the site of zymosan entry was successfully visualized. The rapid increase in tumor necrosis factor α (tnfa), interleukin-1β (il1b), interleukin-6 (il6), and CXC motif chemokine ligand 8 (cxcl8) expressions in zymosan-injected anal fins provided a molecular basis for the visualized tissue-specific cellular response. Our study underscores the dynamic orchestration of immune components during the innate immune response in Japanese medaka and highlights their potential as a promising model for immunological research., (Copyright © 2025 The Authors. Published by Elsevier Ltd.. All rights reserved.)

Published
2025
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24. Structural diversity and function of the granulocyte colony-stimulating factor in medaka fish.

Author

Ogawa A, Konno S, Ansai S, Naruse K, and Kato T

Subjects
Animals, Fish Proteins genetics, Fish Proteins metabolism, Fish Proteins chemistry, Neutrophils metabolism, Neutrophils cytology, Humans, Erythropoiesis genetics, Amino Acid Sequence, Oryzias genetics, Oryzias metabolism, Granulocyte Colony-Stimulating Factor genetics, Granulocyte Colony-Stimulating Factor metabolism, Receptors, Granulocyte Colony-Stimulating Factor genetics, Receptors, Granulocyte Colony-Stimulating Factor metabolism
Abstract

Diversity in the granulocyte repertoire, including neutrophils, basophils, and eosinophils, has been reported in vertebrate species. Medaka fish (Oryzias latipes) have only neutrophils; however, the storage pool of granulopoiesis tissues and the molecular mechanism of granulopoiesis in medaka fish have not been explored. Granulocyte colony-stimulating factor (G-CSF) is a cytokine responsible for neutrophil differentiation, survival, and proliferation. We performed in silico analysis to molecularly characterize the medaka G-CSF and G-CSF receptor (G-CSFR) genes. This study showed that medaka G-CSF differs considerably from human and mouse G-CSF in terms of the primary protein structure; however, the predicted tertiary structure was largely conserved. Analyses of lipopolysaccharide stimulation and G-CSF knockout and overexpression in medaka revealed that G-CSF mobilizes neutrophils into the peripheral blood. The analysis of G-CSF-deficient medaka revealed that G-CSF is involved in erythropoiesis. These findings represent an important first step toward understanding granulocyte hematopoiesis in nonmammalian species., (Copyright © 2024 International Society for Experimental Hematology. Published by Elsevier Inc. All rights reserved.)

Published
2025
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25. Repositioning of centromere-associated repeats during karyotype evolution in Oryzias fishes.

Author

Ansai S, Toyoda A, Yoshida K, and Kitano J

Subjects
Animals, Evolution, Molecular, Karyotyping, Biological Evolution, Centromere genetics, Karyotype, Oryzias genetics, Phylogeny
Abstract

The karyotype, which is the number and shape of chromosomes, is a fundamental characteristic of all eukaryotes. Karyotypic changes play an important role in many aspects of evolutionary processes, including speciation. In organisms with monocentric chromosomes, it was previously thought that chromosome number changes were mainly caused by centric fusions and fissions, whereas chromosome shape changes, that is, changes in arm numbers, were mainly due to pericentric inversions. However, recent genomic and cytogenetic studies have revealed examples of alternative cases, such as tandem fusions and centromere repositioning, found in the karyotypic changes within and between species. Here, we employed comparative genomic approaches to investigate whether centromere repositioning occurred during karyotype evolution in medaka fishes. In the medaka family (Adrianichthyidae), the three phylogenetic groups differed substantially in their karyotypes. The Oryzias latipes species group has larger numbers of chromosome arms than the other groups, with most chromosomes being metacentric. The O. javanicus species group has similar numbers of chromosomes to the O. latipes species group, but smaller arm numbers, with most chromosomes being acrocentric. The O. celebensis species group has fewer chromosomes than the other two groups and several large metacentric chromosomes that were likely formed by chromosomal fusions. By comparing the genome assemblies of O. latipes, O. javanicus, and O. celebensis, we found that repositioning of centromere-associated repeats might be more common than simple pericentric inversion. Our results demonstrated that centromere repositioning may play a more important role in karyotype evolution than previously appreciated., (© 2023 John Wiley & Sons Ltd.)

Published
2024
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26. Evolution of Size-Fecundity Relationship in Medaka Fish From Different Latitudes.

Author

Fujimoto S, Sumarto BKA, Murase I, Mokodongan DF, Myosho T, Yagi M, Ansai S, Kitano J, Takeda S, and Yamahira K

Subjects
Animals, Biological Evolution, Female, Insulin-Like Growth Factor I genetics, Male, Oryzias genetics, Oryzias growth & development, Fertility genetics, Body Size genetics, Quantitative Trait Loci
Abstract

In most fishes, the number of offspring increases with maternal body size. Although this size-fecundity relationship often varies among species as a result of the coevolution of life-history traits, the genetic basis of such size-fecundity relationships remains unclear. We explored the genetic basis underlying this size-fecundity relationship in two small medaka species, Oryzias latipes and O. sakaizumii. Our findings showed that O. sakaizumii has a higher fecundity than O. latipes, and quantitative trait locus analysis using interspecific F 2 hybrids showed that chromosome 23 is linked to the size-fecundity relationship. In particular, the genes igf1 and lep-b in this region are known to be associated with life-history traits, including somatic growth, gonad maturation, and progeny numbers in various taxa. Because O. sakaizumii is distributed at higher latitudes and has a shorter spawning season than O. latipes in the wild, we propose that the relatively high fecundity observed in O. sakaizumii is an adaptation to high latitudes. We also discuss the potential ecological ramifications associated with the evolution of increased fecundity in this species., (© 2024 The Author(s). Molecular Ecology published by John Wiley & Sons Ltd.)

Published
2024
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27. Anterior-posterior constraint on Hedgehog signaling by hhip in teleost fin elaboration.

Author

Tanaka Y, Okayama S, Urakawa K, Kudoh H, Ansai S, Abe G, and Tamura K

Subjects
Animals, Mutation genetics, Zebrafish genetics, Animal Fins metabolism, Animal Fins embryology, Hedgehog Proteins metabolism, Hedgehog Proteins genetics, Signal Transduction, Zebrafish Proteins metabolism, Zebrafish Proteins genetics, Gene Expression Regulation, Developmental
Abstract

Pectoral fins, the anterior paired fins in fish, have enhanced maneuvering abilities due to morphological changes. Teleosts have fewer radial bones in their pectoral fins than basal species, resulting in more-elaborate fins. The mechanism behind this radial constraint change in teleosts is unclear. Here, we found that mutations in hhip, which encodes an antagonist of Hedgehog signaling, led to an increase in radial bones in a localized region. Expression of the Shh genes, encoding ligands of Hedgehog signaling, coincided with notable hhip expression specifically during early development. We suggest that a negative feedback effect of Hedgehog signaling by hhip regulates the constraint of the pectoral fin in zebrafish. Additionally, re-analysis of hhip-related gene expression data in zebrafish and basal species revealed that the notable hhip expression during early development is a characteristic of zebrafish that is not observed in basal species. Region-specific expression of Hox13 genes in the zebrafish pectoral fin indicated that the median region, analogous to the region with abundant radials in basal species, is expanded in hhip-/- zebrafish. These data underscore potential morphological evolution through constrained diversity., Competing Interests: Competing interests The authors declare no competing or financial interests., (© 2024. Published by The Company of Biologists Ltd.)

Published
2024
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28. The Medaka approach to evolutionary social neuroscience.

Author

Ansai S, Hiraki-Kajiyama T, Ueda R, Seki T, Yokoi S, Katsumura T, and Takeuchi H

Abstract

Previously, the integration of comparative biological and neuroscientific approaches has led to significant advancements in social neuroscience. This review highlights the potential and future directions of evolutionary social neuroscience research utilizing medaka fishes (the family Adrianichthyidae) including Japanese medaka (Oryzias latipes). We focus on medaka social cognitive capabilities and mate choice behavior, particularly emphasizing mate preference using visual cues. Medaka fishes are also advantageous due to their abundant genetic resources, extensive genomic information, and the relative ease of laboratory breeding and genetic manipulation. Here we present some research examples of both the conventional neuroscience approach and evolutionary approach involving medaka fishes and other species. We also discuss the prospects of uncovering the molecular and cellular mechanisms underlying the diversity of visual mate preference among species. Especially, we introduce that the single-cell transcriptome technology, particularly in conjunction with 'Adaptive Circuitry Census', is an innovative tool that bridges comparative biological methods and neuroscientific approaches. Evolutionary social neuroscience research using medaka has the potential to unveil fundamental principles in neuroscience and elucidate the mechanisms responsible for generating diversity in mating strategies., Competing Interests: Declaration of Competing Interest The authors declare no competing interests., (Copyright © 2024 The Authors. Published by Elsevier B.V. All rights reserved.)

Published
2024
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29. The dwarf neon rainbowfish Melanotaenia praecox, a small spiny-rayed fish with potential as a new Acanthomorpha model fish: II. Establishment of a microinjection procedure for genetic engineering.

Author

Miyamoto K, Abe G, Kawakami K, Tamura K, and Ansai S

Subjects
Animals, Smegmamorpha genetics, Smegmamorpha embryology, Pigmentation genetics, Monophenol Monooxygenase genetics, Monophenol Monooxygenase metabolism, CRISPR-Cas Systems, Microinjections methods, Genetic Engineering methods
Abstract

Background: Rainbowfish is a clade of colorful freshwater fish. Melanotaenia praecox is a small rainbowfish species with biological characteristics that make it potentially useful as an experimental model species. We anticipate that M. praecox could become a new model used in various fields, such as ecology, evolution, and developmental biology. However, few previous studies have described experimental set-ups needed to understand the molecular and genetic mechanisms within this species., Results: We describe detailed procedures for genetic engineering in the rainbowfish M. praecox. By using these procedures, we successfully demonstrated CRISPR/Cas-mediated knockout and Tol2 transposon-mediated transgenesis in this species. Regarding the CRISPR/Cas system, we disrupted the tyrosinase gene and then showed that injected embryos lacked pigmentation over much of their body. We also demonstrated that a Tol2 construct, including a GFP gene driven by a ubiquitous promoter, was efficiently integrated into the genome of M. praecox embryos., Conclusions: The establishment of procedures for genetic engineering in M. praecox enables investigation of the genetic mechanisms behind a broad range of biological phenomena in this species. Thus, we suggest that M. praecox can be used as a new model species in various experimental biology fields., (© 2024 The Authors. Developmental Dynamics published by Wiley Periodicals LLC on behalf of American Association for Anatomy.)

Published
2024
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30. Rapid body colouration changes in Oryzias celebensis as a social signal influenced by environmental background.

Author

Ueda R, Ansai S, and Takeuchi H

Subjects
Animals, Male, Female, Social Behavior, Environment, Oryzias physiology, Pigmentation, Aggression
Abstract

Rapid body colouration changes in some animals, such as chameleons and octopuses, serve dual functions: camouflage and intraspecific communication. It has been hypothesized that these colouration changes originally evolved to provide camouflage and subsequently were co-opted as social signals; however, experimental model systems that are suitable for studying such evolutionary processes are limited. Here, we investigated the relationship between rapid colouration changes of the blackened markings and aggressive behaviours in male Oryzias celebensis , an Indonesian medaka fish, under triadic relationships (two males and one female) or three males conditions with two different environmental backgrounds. In an algae-covered tank, mimicking the common laboratory rearing conditions, males with blackened markings exhibited more frequent attacks towards different conspecific individuals compared with non-blackened males and females. The blackened males were seldom attacked by non-blackened males and females. By contrast, neither aggressive behaviours nor black colouration changes were observed in the transparent background condition with a brighter environment. These indicated that the blackened markings in O. celebensis serve as a social signal depending on the environmental backgrounds. Considering that such colouration changes for camouflage are widely conserved among teleost fishes, the traits are likely to be co-opted for displaying social signals in O. celebensis .

Published
2024
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31. Cutaneous anaphylactoid reaction to polyoxyethylene hydrogenated castor oil in dogs.

Author

Sugiyama Y, Kawarai S, Ansai S, Bist P, Abraham SN, and Maruo T

Subjects
Animals, Dogs, Male, Polyethylene Glycols adverse effects, Intradermal Tests veterinary, Excipients adverse effects, Excipients chemistry, Skin drug effects, Skin pathology, Castor Oil adverse effects, Anaphylaxis chemically induced, Anaphylaxis veterinary, Dog Diseases chemically induced
Abstract

Background: Polyoxyethylene hydrogenated castor oil (HCO ethoxylates) is a nonionic surfactant used as an excipient for ointments and injections in human and veterinary drugs. Several polyethylene glycol (PEG) derivatives can be obtained depending on the number of moles of ethylene oxide (EO). HCO ethoxylates have the potential to cause anaphylactoid reactions. There is little published information about these types of reactions in dogs., Objective: To determine the potential for HCO-ethoxylate-containing drugs to cause anaphylactoid reactions in dogs, employing intradermal testing (IDT) with various concentrations of HCO ethoxylates (HCO-25, -40, -60 and -80)., Animals: Four healthy male laboratory dogs., Materials and Methods: We performed IDT with drugs containing HCO ethoxylates and HCO ethoxylates alone to determine threshold concentrations. The IDT scores and threshold concentrations were compared. Analysis of skin biopsies from IDT sites was used to measure the percentage of degranulated mast cells. The effect of histamine at IDT sites was investigated by pre-treatment with an antihistamine., Results: All HCO-ethoxylate-containing drugs caused a wheal-and-flare reaction. The threshold concentrations (0.001% and 0.00001%) of each HCO-ethoxylate depended on the number of moles of EO (p < 0.05). Mast cell degranulation was enhanced by all HCO ethoxylates. The HCO-60-induced reaction was suppressed by an oral antihistamine., Conclusions and Clinical Relevance: The threshold concentration can serve as a consideration for developing safe new drug formulations and for clinical decision-making around using drugs containing PEG derivatives. IDT is useful to predict the risk of adverse effects. Antihistamines could demonstrate a prophylactic effect., (© 2023 ESVD and ACVD.)

Published
2024
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32. Diversity and Convergence of Sex-Determination Mechanisms in Teleost Fish.

Author

Kitano J, Ansai S, Takehana Y, and Yamamoto Y

Subjects
Male, Animals, Sex Chromosomes genetics, Biological Evolution, Mutation, Sex Determination Processes genetics, Fishes genetics
Abstract

Sexual reproduction is prevalent across diverse taxa. However, sex-determination mechanisms are so diverse that even closely related species often differ in sex-determination systems. Teleost fish is a taxonomic group with frequent turnovers of sex-determining mechanisms and thus provides us with great opportunities to investigate the molecular and evolutionary mechanisms underlying the turnover of sex-determining systems. Here, we compile recent studies on the diversity of sex-determination mechanisms in fish. We demonstrate that genes in the TGF-β signaling pathway are frequently used for master sex-determining (MSD) genes. MSD genes arise via two main mechanisms, duplication-and-transposition and allelic mutations, with a few exceptions. We also demonstrate that temperature influences sex determination in many fish species, even those with sex chromosomes, with higher temperatures inducing differentiation into males in most cases. Finally, we review theoretical models for the turnover of sex-determining mechanisms and discuss what questions remain elusive.

Published
2024
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33. Spatio-temporal control of targeted gene expression in combination with CRISPR/Cas and Tet-On systems in Medaka.

Author

Kayo D, Kimura S, Yamazaki T, Naruse K, Takeuchi H, and Ansai S

Subjects
Animals, CRISPR-Cas Systems, Animals, Genetically Modified genetics, Promoter Regions, Genetic, Gene Expression, Oryzias genetics
Abstract

Spatial and temporal control of transgene expression is a powerful approach to understand gene functions in specific cells and tissues. The Tet-On system is a robust tool for controlling transgene expression spatially and temporally; however, few studies have examined whether this system can be applied to postembryonic stages of Medaka (Oryzias latipes) or other fishes. Here, we first improved a basal promoter sequence on the donor vector for a nonhomologous end joining (NHEJ)-based knock-in (KI) system. Next, using transgenic Medaka for establishing the Tet-On system by KI, we demonstrated that doxycycline administration for four or more days by feeding can be a stable and efficient method to achieve expression of the transduced reporter gene in adult fish. From these analyses, we propose an optimized approach for a spatio-temporal gene-expression system in the adult stage of Medaka and other small fishes., (© 2023 Wiley Periodicals LLC.)

Published
2024
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34. Ran-GTP assembles a specialized spindle structure for accurate chromosome segregation in medaka early embryos.

Author

Kiyomitsu A, Nishimura T, Hwang SJ, Ansai S, Kanemaki MT, Tanaka M, and Kiyomitsu T

Subjects
Animals, Chromosome Segregation, Centrosome metabolism, Spindle Apparatus metabolism, Microtubules metabolism, Vertebrates, Guanosine Triphosphate metabolism, Mitosis, Oryzias genetics
Abstract

Despite drastic cellular changes during cleavage, a mitotic spindle assembles in each blastomere to accurately segregate duplicated chromosomes. Mechanisms of mitotic spindle assembly have been extensively studied using small somatic cells. However, mechanisms of spindle assembly in large vertebrate embryos remain little understood. Here, we establish functional assay systems in medaka (Oryzias latipes) embryos by combining CRISPR knock-in with auxin-inducible degron technology. Live imaging reveals several unexpected features of microtubule organization and centrosome positioning that achieve rapid, accurate cleavage. Importantly, Ran-GTP assembles a dense microtubule network at the metaphase spindle center that is essential for chromosome segregation in early embryos. This unique spindle structure is remodeled into a typical short, somatic-like spindle after blastula stages, when Ran-GTP becomes dispensable for chromosome segregation. We propose that despite the presence of centrosomes, the chromosome-derived Ran-GTP pathway has essential roles in functional spindle assembly in large, rapidly dividing vertebrate early embryos, similar to acentrosomal spindle assembly in oocytes., (© 2024. The Author(s).)

Published
2024
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35. Gene Duplication of Androgen Receptor As An Evolutionary Driving Force Underlying the Diversity of Sexual Characteristics in Teleost Fishes.

Author

Ryu T, Okamoto K, Ansai S, Nakao M, Kumar A, Iguchi T, and Ogino Y

Subjects
Male, Animals, Female, Sex Characteristics, Reproduction, Fishes genetics, Receptors, Androgen genetics, Gene Duplication
Abstract

Sexual dimorphism allows species to meet their fitness optima based on the physiological availability of each sex. Although intralocus sexual conflict appears to be a genetic constraint for the evolution of sex-specific traits, sex-linked genes and the regulation of sex steroid hormones contribute to resolving this conflict by allowing sex-specific developments. Androgens and their receptor, androgen receptor (Ar), regulate male-biased phenotypes. In teleost fish, ar ohnologs have emerged as a result of teleost-specific whole genome duplication (TSGD). Recent studies have highlighted the evolutionary differentiation of ar ohnologs responsible for the development of sexual characteristics, which sheds light on the need for comparative studies on androgen regulation among different species. In this review, we discuss the importance of ar signaling as a regulator of male-specific traits in teleost species because teleost species are suitable experimental models for comparative studies owing to their great diversity in male-biased morphological and physiological traits. To date, both in vivo and in vitro studies on teleost ar ohnologs have shown a substantial influence of ar s as a regulator of male-specific reproductive traits such as fin elongation, courtship behavior, and nuptial coloration. In addition to these sexual characteristics, ar substantially influences immunity, inducing a sex-biased immune response. This review aims to provide a comprehensive understanding of the current state of teleost ar studies and emphasizes the potential of teleost fishes, given their availability, to find molecular evidence about what gives rise to the spectacular diversity among fish species.

Published
2024
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36. BN-Embedded Aromatic Hydrocarbon Synthesis via Nucleophilic Diboration Reactions.

Author

Harada M, Fujioka S, Ansai S, Wang C, Kamino S, Hirano K, and Uchiyama M

Abstract

Activation of bis(pinacolato)diboron with aromatic lithium amide promotes diboration of the proximal C-C triple bond, leading to BN-embedded aromatic compounds. In situ treatment of the initially generated spirocyclic borate intermediate with aqueous acid or organometallic reagents enables ligand installation on the endocyclic boron atom.

Published
2024
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37. Behavioral photosensitivity of multi-color-blind medaka: enhanced response under ultraviolet light in the absence of short-wavelength-sensitive opsins.

Author

Mizoguchi K, Sato M, Saito R, Koshikuni M, Sakakibara M, Manabe R, Harada Y, Uchikawa T, Ansai S, Kamei Y, Naruse K, and Fukamachi S

Subjects
Animals, Humans, Opsins genetics, Opsins metabolism, Retinal Cone Photoreceptor Cells metabolism, Phylogeny, Ultraviolet Rays, Oryzias metabolism
Abstract

Background: The behavioral photosensitivity of animals could be quantified via the optomotor response (OMR), for example, and the luminous efficiency function (the range of visible light) should largely rely on the repertoire and expression of light-absorbing proteins in the retina, i.e., the opsins. In fact, the OMR under red light was suppressed in medaka lacking the red (long-wavelength sensitive [LWS]) opsin., Results: We investigated the ultraviolet (UV)- or blue-light sensitivity of medaka lacking the violet (short-wavelength sensitive 1 [SWS1]) and blue (SWS2) opsins. The sws1/sws2 double or sws1/sws2/lws triple mutants were as viable as the wild type. The remaining green (rhodopsin 2 [RH2]) or red opsins were not upregulated. Interestingly, the OMR of the double or triple mutants was equivalent or even increased under UV or blue light (λ = 350, 365, or 450 nm), which demonstrated that the rotating stripes (i.e., changes in luminance) could fully be recognized under UV light using RH2 alone. The OMR test using dichromatic stripes projected onto an RGB display consistently showed that the presence or absence of SWS1 and SWS2 did not affect the equiluminant conditions., Conclusions: RH2 and LWS, but not SWS1 and SWS2, should predominantly contribute to the postreceptoral processes leading to the OMR or, possibly, to luminance detection in general, as the medium-wavelength-sensitive and LWS cones, but not the SWS cones, are responsible for luminance detection in humans., (© 2023. The Author(s).)

Published
2023
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38. Ghost introgression in ricefishes of the genus Adrianichthys in an ancient Wallacean lake.

Author

Yamahira K, Kobayashi H, Kakioka R, Montenegro J, Masengi KWA, Okuda N, Nagano AJ, Tanaka R, Naruse K, Tatsumoto S, Go Y, Ansai S, and Kusumi J

Subjects
Phylogeny, Lakes
Abstract

Because speciation might have been promoted by ancient introgression from an extinct lineage, it is important to detect the existence of 'ghost introgression' in focal taxa and examine its contribution to their diversification. In this study, we examined possible ghost introgression and its contributions to the diversification of ricefishes of the genus Adrianichthys in Lake Poso, an ancient lake on Sulawesi Island, in which some extinctions are known to have occurred. Population-genomic analysis revealed that two extant Adrianichthys species, A. oophorus and A. poptae are reproductively isolated from each other. Comparisons of demographic models demonstrated that introgression from a ghost population, which diverged from the common ancestor of A. oophorus and A. poptae, is essential for reconstructing the demographic history of Adrianichthys. The best model estimated that the divergence of the ghost population greatly predated the divergence between A. oophorus and A. poptae, and that the ghost population secondarily contacted the two extant species within Lake Poso more recently. Genome scans and simulations detected a greatly divergent locus, which cannot be explained without ghost introgression. This locus was also completely segregated between A. oophorus and A. poptae. These findings suggest that variants that came from a ghost population have contributed to the divergence between A. oophorus and A. poptae, but the large time-lag between their divergence and ghost introgression indicates that the contribution of introgression may be restricted., (© 2023 European Society for Evolutionary Biology.)

Published
2023
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39. Wnt4a Is Indispensable for Genital Duct Elongation but Not for Gonadal Sex Differentiation in the Medaka, Oryzias latipes .

Author

Kanamori A, Kitani R, Oota A, Hirano K, Myosho T, Kobayashi T, Kawamura K, Kato N, Ansai S, and Kinoshita M

Subjects
Male, Female, Animals, Mice, Sex Differentiation genetics, Semen, Gonads, Genitalia, Oryzias genetics
Abstract

In most vertebrates, the oviducts and sperm ducts are derived from the Müllerian ducts and Wolffian ducts, respectively. However, in teleosts, the genital ducts are formed by the posterior extension of gonads in both sexes. Whether the genital ducts of teleosts are newly evolved organs or variants of Müllerian ducts is an important question for understanding evolutionary mechanisms of morphogenesis. One of the genes essential for Müllerian duct formation in mice is Wnt4 , which is expressed in the mesenchyme and induces invagination of the coelomic epithelium and its posterior elongation. Here, we addressed the above question by examining genital duct development in mutants of two Wnt4 genes in the medaka ( wnt4a is orthologous to mouse Wnt4 , and wnt4b is paralogous). The wnt4b mutants had a short body but were fertile with normal genital ducts. In contrast, both male and female wnt4a mutants had their posterior elongation of the gonads stopped within or just outside the coelom. The mutants retained the posterior parts of ovarian cavities or sperm duct primordia, which are potential target tissues of Wnt4a. The gonads of female scl mutants (unable to synthesize sex steroids) lacked these tissues and did not develop genital ducts. Medaka wnt4a was expressed in the mesenchyme ventral to the genital ducts in both sexes. Taken together, the data strongly suggest that the mouse Müllerian ducts and the medaka genital ducts share homologous developmental processes. Additionally, the wnt4a or wnt4b single mutants and the double mutants did not show sex-reversal, implying that both genes are dispensable for gonadal sex differentiation in the medaka.

Published
2023
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40. Optogenetic control of medaka behavior with channelrhodopsin.

Author

Seki T, Takeuchi H, and Ansai S

Subjects
Animals, Channelrhodopsins genetics, Animals, Genetically Modified, Light, Optogenetics methods, Oryzias genetics
Abstract

Optogenetics enables the manipulation of neural activity with high spatiotemporal resolution in genetically defined neurons. The method is widely used in various model animals in the neuroscience and physiology fields. Channelrhodopsins are robust tools for optogenetic manipulation, but they have not yet been used for studies in medaka. In the present study, we used the clustered regularly interspaced short palindromic repeats (CRISPR)/Cas9-mediated knock-in approach to establish a transgenic medaka strain expressing the Chloromonas oogama channelrhodopsin (CoChR) in the ISL LIM homeobox 1 (isl1) locus. We demonstrated that light stimuli elicited specific behavioral responses, such as bending or turning locomotion in the embryos and pectoral fin movements in the larvae and adults. The response probabilities and intensities of these movements could be controlled by adjusting the intensity, duration, or wavelength of each light stimulus. Furthermore, we demonstrated that the pectoral fin movements in the adult stage could be elicited using a laser pointer to irradiate region including the caudal hind brain and the rostral spinal cord. Our results indicate that CoChR allows for manipulation of medaka behaviors by activating targeted neurons, which will further our understanding of the detailed neural mechanisms of motor control or social behaviors in medaka., (© 2023 Japanese Society of Developmental Biologists.)

Published
2023
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41. A Cryptic Sex-Linked Locus Revealed by the Elimination of a Master Sex-Determining Locus in Medaka Fish.

Author

Kitano J, Ansai S, Fujimoto S, Kakioka R, Sato M, Mandagi IF, Sumarto BKA, and Yamahira K

Subjects
Male, Animals, Sex Determination Processes, Sex Chromosomes genetics, Y Chromosome genetics, Oryzias genetics
Abstract

AbstractSex chromosomes rapidly turn over in several taxonomic groups. Sex chromosome turnover is generally thought to start with the appearance of a new sex-determining gene on an autosome while an old sex-determining gene still exists, followed by the fixation of the new one. However, we do not know how prevalent the transient state is, where multiple sex-determining loci coexist within natural populations. Here, we removed a Y chromosome with a master male-determining gene DMY from medaka fish using high temperature-induced sex-reversed males. After four generations, the genomic characteristics of a sex chromosome were found on one chromosome, which was an autosome in the original population. Thus, the elimination of a master sex-determining locus can reveal a cryptic locus with a possible sex-determining effect, which can be the seed for sex chromosome turnover. Our results suggest that populations that seem to have a single-locus XY system may have other chromosomal regions with sex-determining effects. In conclusion, the coexistence of multiple sex-determining genes in a natural population may be more prevalent than previously thought. Experimental elimination of a master sex-determining locus may serve as a promising method for finding a locus that can be a protosex chromosome.

Published
2023
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42. Multiple colonizations and hybridization of a freshwater fish group on a satellite island of Sulawesi.

Author

Mandagi IF, K A Sumarto B, Nuryadi H, Mokodongan DF, Lawelle SA, Masengi KWA, Nagano AJ, Kakioka R, Kitano J, Ansai S, Kusumi J, and Yamahira K

Subjects
Animals, Phylogeny, Indonesia, Fresh Water, Hybridization, Genetic, Oryzias
Abstract

Repeated colonizations and resultant hybridization may increase lineage diversity on an island if introgression occurs only in a portion of the indigenous island lineage. Therefore, to precisely understand how island biodiversity was shaped, it is essential to reconstruct the history of secondary colonization and resultant hybridization both in time and space. In this study, we reconstructed the history of multiple colonizations of the Oryzias woworae species group, a freshwater fish group of the family Adrianichthyidae, from Sulawesi Island to its southeast satellite island, Muna Island. Phylogenetic and species tree analyses using genome-wide single-nucleotide polymorphisms revealed that all local populations on Muna Island were monophyletic, but that there were several genetically distinct lineages within the island. Population structure and phylogenetic network analyses demonstrated that colonization of this island occurred more than once, and that secondary colonization and resultant introgressive hybridization occurred only in one local population on the island. The spatially heterogeneous introgression induced by the multiple colonizations were also supported by differential admixture analyses. In addition, the differential admixture analyses detected reverse colonization from Muna Island to the Sulawesi mainland. Coalescence-based demographic inference estimated that these mutual colonizations occurred during the middle to late Quaternary period, during which sea level repeatedly declined; this indicates that the colonizations occurred via land bridges. We conclude that these mutual colonizations between Muna Island and the Sulawesi mainland, and the resultant spatially heterogeneous introgression shaped the current biodiversity of this species group in this area., Competing Interests: Declaration of Competing Interest The authors declare that they have no known competing financial interests or personal relationships that could have appeared to influence the work reported in this paper., (Copyright © 2023 Elsevier Inc. All rights reserved.)

Published
2023
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43. CT Image-Based Biopsy to Aid Prediction of HOPX Expression Status and Prognosis for Non-Small Cell Lung Cancer Patients.

Author

Jin Y, Arimura H, Cui Y, Kodama T, Mizuno S, and Ansai S

Abstract

This study aimed to elucidate a computed tomography (CT) image-based biopsy with a radiogenomic signature to predict homeodomain-only protein homeobox (HOPX) gene expression status and prognosis in patients with non-small cell lung cancer (NSCLC). Patients were labeled as HOPX-negative or positive based on HOPX expression and were separated into training ( n = 92) and testing ( n = 24) datasets. In correlation analysis between genes and image features extracted by Pyradiomics for 116 patients, eight significant features associated with HOPX expression were selected as radiogenomic signature candidates from the 1218 image features. The final signature was constructed from eight candidates using the least absolute shrinkage and selection operator. An imaging biopsy model with radiogenomic signature was built by a stacking ensemble learning model to predict HOPX expression status and prognosis. The model exhibited predictive power for HOPX expression with an area under the receiver operating characteristic curve of 0.873 and prognostic power in Kaplan-Meier curves ( p = 0.0066) in the test dataset. This study's findings implied that the CT image-based biopsy with a radiogenomic signature could aid physicians in predicting HOPX expression status and prognosis in NSCLC.

Published
2023
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44. Evolutionary differentiation of androgen receptor is responsible for sexual characteristic development in a teleost fish.

Author

Ogino Y, Ansai S, Watanabe E, Yasugi M, Katayama Y, Sakamoto H, Okamoto K, Okubo K, Yamamoto Y, Hara I, Yamazaki T, Kato A, Kamei Y, Naruse K, Ohta K, Ogino H, Sakamoto T, Miyagawa S, Sato T, Yamada G, Baker ME, and Iguchi T

Subjects
Animals, Male, Female, Angiotensin Receptor Antagonists, Angiotensin-Converting Enzyme Inhibitors, Fishes genetics, Fishes metabolism, Biological Evolution, Evolution, Molecular, Receptors, Androgen genetics, Receptors, Androgen metabolism, Oryzias genetics, Oryzias metabolism
Abstract

Teleost fishes exhibit complex sexual characteristics in response to androgens, such as fin enlargement and courtship display. However, the molecular mechanisms underlying their evolutionary acquisition remain largely unknown. To address this question, we analyse medaka (Oryzias latipes) mutants deficient in teleost-specific androgen receptor ohnologs (ara and arb). We discovered that neither ar ohnolog was required for spermatogenesis, whilst they appear to be functionally redundant for the courtship display in males. However, both were required for reproductive success: ara for tooth enlargement and the reproductive behaviour eliciting female receptivity, arb for male-specific fin morphogenesis and sexual motivation. We further showed that differences between the two ar ohnologs in their transcription, cellular localisation of their encoded proteins, and their downstream genetic programmes could be responsible for the phenotypic diversity between the ara and arb mutants. These findings suggest that the ar ohnologs have diverged in two ways: first, through the loss of their roles in spermatogenesis and second, through gene duplication followed by functional differentiation that has likely resolved the pleiotropic roles derived from their ancestral gene. Thus, our results provide insights into how genome duplication impacts the massive diversification of sexual characteristics in the teleost lineage., (© 2023. The Author(s).)

Published
2023
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45. Genome Editing of Medaka.

Author

Hara R, Ansai S, and Kinoshita M

Subjects
Animals, Zebrafish genetics, Plasmids genetics, Gene Knockout Techniques, Gene Editing methods, Oryzias genetics
Abstract

Medaka (Oryzias latipes), along with zebrafish (Danio rerio), is a useful experimental model fish. Here, we describe a simple method for generating medaka gene knockout strains using an automated microchip electrophoresis system. We also describe a method for targeted gene knockin using a plasmid carrying a sequence that does not cause off-target effects in medaka. Additionally, knockin method without plasmid cloning is described., (© 2023. The Author(s), under exclusive license to Springer Science+Business Media, LLC, part of Springer Nature.)

Published
2023
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46. Diversity of sex chromosomes in Sulawesian medaka fishes.

Author

Ansai S, Montenegro J, Masengi KWA, Nagano AJ, Yamahira K, and Kitano J

Subjects
Animals, Sex Determination Processes, Sex Chromosomes genetics, Y Chromosome genetics, Genetic Linkage, Oryzias genetics
Abstract

Recent genetic and genomic studies have revealed tremendous diversity in sex chromosomes across diverse taxa. Closely related species with different sex chromosomes provide us excellent opportunities to investigate the driving forces and the consequences of sex chromosome turnover. In the present study, we investigated the diversity of sex chromosomes of 13 Oryzias species from Sulawesi, Indonesia, which diversified during the last 4.86 million years. Using pooled sequencing, we found sex chromosomes in nine species that all had XY systems, with a species being possibly modified by multiple loci. Seven species (O. woworae, O. asinua, O. wolasi, O. matanensis, O. celebensis, O. hadiatyae, and O. dopingdopingensis) share linkage group (LG) 24 as sex chromosomes; however, they differed in the length and magnitude of sequence divergence between the X and Y chromosomes. The sex chromosome of O. eversi was LG4, which has not been reported as a sex chromosome in any other medaka species. In O. sarasinorum, LG16 and LG22 are associated with sex. Although LG16 was found to be sex-linked in another medaka species previously examined, the sex-determining regions did not overlap. No significant signatures for sex chromosomes were identified in the other four species (O. marmoratus, O. nigrimas, O. nebulosus, and O. orthognathus). Frequent turnovers and the great diversity of the sex chromosomes will make Sulawesian medaka species a model system for investigating the driving forces and consequences of sex chromosome turnover., (© 2022 European Society for Evolutionary Biology.)

Published
2022
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47. Mating experiences with the same partner enhanced mating activities of naïve male medaka fish.

Author

Daimon M, Katsumura T, Sakamoto H, Ansai S, and Takeuchi H

Subjects
Animals, Female, Male, Reproduction physiology, Oryzias genetics
Abstract

Mating experience shapes male mating behavior across species, from insects, fish, and birds, to rodents. Here, we investigated the effect of multiple mating experiences on male mating behavior in "naïve" (defined as sexually inexperienced) male medaka fish. The latency to mate with the same female partner significantly decreased after the second encounter, whereas when the partner was changed, the latency to mate was not decreased. These findings suggest that mating experiences enhanced the mating activity of naïve males for the familiar female, but not for an unfamiliar female. In contrast, the mating experiences of "experienced" (defined as those having mated > 7 times) males with the same partner did not influence their latency to mate. Furthermore, we identified 10 highly and differentially expressed genes in the brains of the naïve males after the mating experience and revealed 3 genes that are required for a functional cascade of the thyroid hormone system. Together, these findings suggest that the mating experience of naïve male medaka fish influences their mating behaviors, with neural changes triggered by thyroid hormone activation in the brain., (© 2022. The Author(s).)

Published
2022
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48. Retinal Cone Mosaic in sws1-Mutant Medaka (Oryzias latipes), A Teleost.

Author

Matsuo M, Matsuyama M, Kobayashi T, Kanda S, Ansai S, Kawakami T, Hosokawa E, Daido Y, Kusakabe TG, Naruse K, and Fukamachi S

Subjects
Animals, Retina metabolism, Vision, Ocular, Opsins genetics, Opsins metabolism, Oryzias genetics, Oryzias metabolism, Retinal Cone Photoreceptor Cells metabolism
Abstract

Purpose: Ablation of short single cones (SSCs) expressing short-wavelength-sensitive opsin (SWS1) is well analyzed in the field of regenerative retinal cells. In contrast with ablation studies, the phenomena caused by the complete deletion of SWS1 are less well-understood. To assess the effects of SWS1 deficiency on retinal structure, we established and analyzed sws1-mutant medaka., Methods: To visualize SWS1, a monoclonal anti-SWS1 antibody and transgenic reporter fish (Tg(sws1:mem-egfp)) were generated. We also developed a CRISPR/Cas-driven sws1-mutant line. Retinal structure of sws1 mutant was visualized using anti-SWS1, 1D4, and ZPR1 antibodies and coumarin derivatives and compared with wild type, Tg(sws1:mem-egfp), and another opsin (lws) mutant., Results: Our rat monoclonal antibody specifically recognized medaka SWS1. Sws1 mutant retained regularly arranged cone mosaic as lws mutant and its SSCs had neither SWS1 nor long wavelength sensitive opsin. Depletion of sws1 did not affect the expression of long wavelength sensitive opsin, and vice versa. ZPR1 antibody recognized arrestin spread throughout double cones and long single cones in wild-type, transgenic, and sws1-mutant lines., Conclusions: Comparative observation of sws1-mutant and wild-type retinas revealed that ZPR1 negativity is not a marker for SSCs with SWS1, but SSCs themselves. Loss of functional sws1 did not cause retinal degeneration, indicating that sws1 is not essential for cone mosaic development in medaka. Our two fish lines, one with visualized SWS1 and the other lacking functional SWS1, offer an opportunity to study neural network synapsing with SSCs and to clarify the role of SWS1 in vision.

Published
2022
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49. Speciation and adaptation research meets genome editing.

Author

Ansai S and Kitano J

Subjects
Acclimatization, Genome, Genomics, CRISPR-Cas Systems, Gene Editing methods
Abstract

Understanding the genetic basis of reproductive isolation and adaptive traits in natural populations is one of the fundamental goals in evolutionary biology. Genome editing technologies based on CRISPR-Cas systems and site-specific recombinases have enabled us to modify a targeted genomic region as desired and thus to conduct functional analyses of target loci, genes and mutations even in non-conventional model organisms. Here, we review the technical properties of genome editing techniques by classifying them into the following applications: targeted gene knock-out for investigating causative gene functions, targeted gene knock-in of marker genes for visualizing expression patterns and protein functions, precise gene replacement for identifying causative alleles and mutations, and targeted chromosomal rearrangement for investigating the functional roles of chromosomal structural variations. We describe examples of their application to demonstrate functional analysis of naturally occurring genetic variations and discuss how these technologies can be applied to speciation and adaptation research. This article is part of the theme issue 'Genetic basis of adaptation and speciation: from loci to causative mutations'.

Published
2022
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50. Genetic basis for the evolution of pelvic-fin brooding, a new mode of reproduction, in a Sulawesian fish.

Author

Montenegro J, Fujimoto S, Ansai S, Nagano AJ, Sato M, Maeda Y, Tanaka R, Masengi KWA, Kimura R, Kitano J, and Yamahira K

Subjects
Animal Fins anatomy & histology, Animals, Female, Genome, Phenotype, Phylogeny, Fishes genetics, Reproduction genetics
Abstract

Modes of reproduction in animals are diverse, with different modes having evolved independently in multiple lineages across a variety of taxa. However, an understanding of the genomic change driving the transition between different modes of reproduction is limited. Several ricefishes (Adrianichthyidae) on the island of Sulawesi have a unique mode of reproduction called "pelvic-fin brooding," wherein females carry externally fertilized eggs until hatching using their pelvic fins. Phylogenomic analysis demonstrated pelvic-fin brooders to have evolved at least twice in two distant clades of the Adrianichthyidae. We investigated the genetic architecture of the evolution of this unique mode of reproduction. Morphological analyses and laboratory observations revealed that females of pelvic-fin brooders have longer pelvic fins and a deeper abdominal concavity, and that they can carry an egg clutch for longer than nonbrooding adrianichthyids, suggesting that these traits play important roles in this reproductive mode. Quantitative trait locus mapping using a cross between a pelvic-fin brooder Oryzias eversi and a nonbrooding O. dopingdopingensis reveals different traits involved in pelvic-fin brooding to be controlled by different loci on different chromosomes. Genomic analyses of admixture detected no signatures of introgression between two lineages with pelvic-fin brooders, indicating that introgression is unlikely to be responsible for repeated evolution of pelvic-fin brooding. These findings suggest that multiple independent mutations may have contributed to the convergent evolution of this novel mode of reproduction., (© 2022 John Wiley & Sons Ltd.)

Published
2022
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