Your search keyword '"Tatsuya Ota"' showing total 60 results

1. Novel and Efficient Method for Diagnosing Infective Endocarditis Using 16S Ribosomal RNA Gene Amplicon Sequence

Author

Akihisa Kataoka, MD, PhD, Takahiko Shiba, DDS, PhD, Sayaka Katagiri, DDS, PhD, Shuhei Koyama, MD, Kento Kito, MD, Tatsuya Ota, MD, Taiga Katayama, MD, PhD, Yujin Ohsugi, DDS, PhD, Takahiko Nagai, DDS, Ryota Kobayashi, DDS, Keiji Komatsu, DDS, PhD, Masahiro Urata, MD, Tomohiro Imazuru, MD, PhD, Takanori Iwata, DDS, PhD, and Ken Kozuma, MD, PhD

Subjects

echocardiography, endocarditis, genetics, mitral valve, Diseases of the circulatory (Cardiovascular) system, RC666-701

Abstract

We present 2 cases that both developed infective endocarditis and underwent mitral valve replacement. In addition to positive blood culture and echocardiographic findings, such as vegetation or mitral valve perforation, the 16S ribosomal RNA gene amplicon sequence approach used was helpful for disease diagnosis. (Level of Difficulty: Intermediate.)

Published

2023

2. A 91-year-old woman with severe aortic stenosis successfully underwent maintenance hemodialysis via arteriovenous fistula after transcatheter aortic valve implantation: a case report with literature review

Author

Minoru Yasukawa, Hiroki Omizo, Kazuhiro Sakai, Sachiko Kitagawa, Takahiro Kikuyama, Masaki Yamanaka, Fumika Ochiai, Ryo Togashi, Yoshikazu Nemoto, Tatsuya Ota, Hideyuki Kawashima, Shintaro Takamura, Yusuke Watanabe, Ken Kozuma, Shigeru Shibata, and Yoshihide Fujigaki

Subjects

Anti-glomerular basement membrane disease, Aortic stenosis, Arteriovenous fistula, Hemodialysis, Transcatheter aortic valve implantation, Diseases of the genitourinary system. Urology, RC870-923

Abstract

Abstract Background Transcatheter aortic valve implantation (TAVI) has evolved to be a treatment of choice in high-risk patients with aortic stenosis (AS). However, it is not known whether TAVI is safe and beneficial for the creation of arteriovenous fistula for maintenance hemodialysis in high-risk patients with severe AS. Case presentation A 91-year-old woman was referred to our hospital due to oligoanuria and progressive renal dysfunction. She was diagnosed with anti-glomerular basement membrane (GBM) disease. She had hypertension, chronic kidney disease stage G3b, and AS. We chose not to perform immunosuppressive therapy and plasmapheresis for anti-GBM disease because the risk of death outweighed the benefit of treatment. Hemodialysis with a venous catheter was initiated for the renal indication. As she showed severe AS, she had a risk of cardiac decompensation after arteriovenous fistula creation for dialysis. Following the clinical decision-making process, she underwent TAVI. Although she required the implantation of a cardiac pacemaker for an advanced atrioventricular block that occurred 11 days after TAVI, arteriovenous fistula was successfully created thereafter. She could undergo maintenance hemodialysis using arteriovenous fistula. Conclusions TAVI is safe and beneficial for the creation of arteriovenous fistula shortly after initiating acute hemodialysis using a catheter in a very old patient with anti-GBM disease.

Published

2019

3. Author Correction: Genomic insights of body plan transitions from bilateral to pentameral symmetry in Echinoderms

Author

Yongxin Li, Akihito Omori, Rachel L. Flores, Sheri Satterfield, Christine Nguyen, Tatsuya Ota, Toko Tsurugaya, Tetsuro Ikuta, Kazuho Ikeo, Mani Kikuchi, Jason C. K. Leong, Adrian Reich, Meng Hao, Wenting Wan, Yang Dong, Yaondong Ren, Si Zhang, Tao Zeng, Masahiro Uesaka, Yui Uchida, Xueyan Li, Tomoko F. Shibata, Takahiro Bino, Kota Ogawa, Shuji Shigenobu, Mariko Kondo, Fayou Wang, Luonan Chen, Gary Wessel, Hidetoshi Saiga, R. Andrew Cameron, Brian Livingston, Cynthia Bradham, Wen Wang, and Naoki Irie

Subjects

Biology (General), QH301-705.5

Abstract

A Correction to this paper has been published: https://doi.org/10.1038/s42003-021-02005-4

Published

2021

4. S-LOCUS EARLY FLOWERING 3 is exclusively present in the genomes of short-styled buckwheat plants that exhibit heteromorphic self-incompatibility.

Author

Yasuo Yasui, Masashi Mori, Jotaro Aii, Tomoko Abe, Daiki Matsumoto, Shingo Sato, Yoriko Hayashi, Ohmi Ohnishi, and Tatsuya Ota

Subjects

Medicine, Science

Abstract

The different forms of flowers in a species have attracted the attention of many evolutionary biologists, including Charles Darwin. In Fagopyrum esculentum (common buckwheat), the occurrence of dimorphic flowers, namely short-styled and long-styled flowers, is associated with a type of self-incompatibility (SI) called heteromorphic SI. The floral morphology and intra-morph incompatibility are both determined by a single genetic locus named the S-locus. Plants with short-styled flowers are heterozygous (S/s) and plants with long-styled flowers are homozygous recessive (s/s) at the S-locus. Despite recent progress in our understanding of the molecular basis of flower development and plant SI systems, the molecular mechanisms underlying heteromorphic SI remain unresolved. By examining differentially expressed genes from the styles of the two floral morphs, we identified a gene that is expressed only in short-styled plants. The novel gene identified was completely linked to the S-locus in a linkage analysis of 1,373 plants and had homology to EARLY FLOWERING 3. We named this gene S-LOCUS EARLY FLOWERING 3 (S-ELF3). In an ion-beam-induced mutant that harbored a deletion in the genomic region spanning S-ELF3, a phenotype shift from short-styled flowers to long-styled flowers was observed. Furthermore, S-ELF3 was present in the genome of short-styled plants and absent from that of long-styled plants both in world-wide landraces of buckwheat and in two distantly related Fagopyrum species that exhibit heteromorphic SI. Moreover, independent disruptions of S-ELF3 were detected in a recently emerged self-compatible Fagopyrum species and a self-compatible line of buckwheat. The nonessential role of S-ELF3 in the survival of individuals and the prolonged evolutionary presence only in the genomes of short-styled plants exhibiting heteromorphic SI suggests that S-ELF3 is a suitable candidate gene for the control of the short-styled phenotype of buckwheat plants.

Published

2012

5. Holosteans contextualize the role of the teleost genome duplication in promoting the rise of evolutionary novelties in the ray-finned fish innate immune system

Author

Alex Dornburg, Dustin J. Wcisel, Jeffrey A. Yoder, Lindsay Roupe-Abrams, Andrew W. Thompson, Tatsuya Ota, Ingo Braasch, Emma Ferraro, and Katerina L. Zapfe

Subjects

Fish Proteins, Genetic Linkage, Lineage (evolution), Immunology, Context (language use), Article, Evolution, Molecular, Major Histocompatibility Complex, Holostei, Gene Duplication, biology.animal, Gene duplication, Immunogenetics, Genetics, Animals, Gene family, Skates, Fish, Bowfin, Phylogeny, Genome, biology, Phylogenetic tree, Vertebrate, Exons, biology.organism_classification, Immunity, Innate, Evolutionary biology, Multigene Family, Immunoglobulin Domains, Transcriptome, human activities

Abstract

Over 99% of ray-finned fishes (Actinopterygii) are teleosts, a clade that comprises half of all living vertebrates that have diversified across virtually all fresh and saltwater ecosystems. This ecological diversity raises the question of how the immunogenetic diversity required to persist under heterogeneous pathogen pressures evolved. The teleost genome duplication (TGD) has been hypothesized as the evolutionary event that provided the genomic substrate for rapid genomic evolution and innovation. However, studies of putative teleost-specific innate immune receptors have been largely limited to comparisons either among teleosts or between teleosts and distantly related vertebrate clades such as tetrapods. Here we describe and characterize the receptor diversity of two clustered innate immune gene families in the teleost sister lineage: Holostei (bowfin and gars). Using genomic and transcriptomic data, we provide a detailed investigation of the phylogenetic history and conserved synteny of gene clusters encoding diverse immunoglobulin domain-containing proteins (DICPs) and novel immune-type receptors (NITRs). These data demonstrate an ancient linkage of DICPs to the major histocompatibility complex (MHC) and reveal an evolutionary origin of NITR variable-joining (VJ) exons that predate the TGD by at least 50 million years. Further characterizing the receptor diversity of Holostean DICPs and NITRs illuminates a sequence diversity that rivals the diversity of these innate immune receptor families in many teleosts. Taken together, our findings provide important historical context for the evolution of these gene families that challenge prevailing expectations concerning the consequences of the TGD during actinopterygiian evolution.

Published

2021

6. The bowfin genome illuminates the developmental evolution of ray-finned fishes

Author

Hugues Roest Crollius, Dustin J. Wcisel, Matthew P. Harris, Brett Racicot, Elise Parey, Jérôme Montfort, Solomon R. David, Quenton C. Fontenot, Kazuhiko Kawasaki, Allyse M. Ferrara, Yann Guiguen, Tatsuya Ota, Mauricio Losilla, Ingo Braasch, M. Brent Hawkins, Olivia E Fitch, Romain Feron, Andrew W. Thompson, Marine Milhes, Amy R. McCune, Qiaowei Pan, Emily Funk, Jeffrey A. Yoder, Camille Berthelot, Alex Dornburg, Alexandra Louis, Kevin L. Childs, Michigan State University [East Lansing], Michigan State University System, Harvard Medical School [Boston] (HMS), Boston Children's Hospital, Harvard University [Cambridge], Institut de biologie de l'ENS Paris (UMR 8197/1024) (IBENS), Département de Biologie - ENS Paris, École normale supérieure - Paris (ENS Paris), Université Paris sciences et lettres (PSL)-Université Paris sciences et lettres (PSL)-Institut National de la Santé et de la Recherche Médicale (INSERM)-Centre National de la Recherche Scientifique (CNRS)-École normale supérieure - Paris (ENS Paris), Université Paris sciences et lettres (PSL)-Université Paris sciences et lettres (PSL)-Institut National de la Santé et de la Recherche Médicale (INSERM)-Centre National de la Recherche Scientifique (CNRS)-Institut National de la Santé et de la Recherche Médicale (INSERM)-Centre National de la Recherche Scientifique (CNRS), North Carolina State University [Raleigh] (NC State), University of North Carolina System (UNC), Graduate University for Advanced Studies [Hayama] (SOKENDAI), Pennsylvania State University (Penn State), Penn State System, Cornell University [New York], University of California [Davis] (UC Davis), University of California, University of Lausanne (UNIL), Swiss Institute of Bioinformatics [Lausanne] (SIB), Université de Lausanne (UNIL), Laboratoire de Physiologie et Génomique des Poissons (LPGP), Structure Fédérative de Recherche en Biologie et Santé de Rennes ( Biosit : Biologie - Santé - Innovation Technologique )-Institut National de Recherche pour l’Agriculture, l’Alimentation et l’Environnement (INRAE), Génome et Transcriptome - Plateforme Génomique ( GeT-PlaGe), Plateforme Génome & Transcriptome (GET), Génopole Toulouse Midi-Pyrénées [Auzeville] (GENOTOUL), Institut National des Sciences Appliquées - Toulouse (INSA Toulouse), Institut National des Sciences Appliquées (INSA)-Institut National des Sciences Appliquées (INSA)-Université Toulouse III - Paul Sabatier (UT3), Université Fédérale Toulouse Midi-Pyrénées-Université Fédérale Toulouse Midi-Pyrénées-Ecole Nationale Vétérinaire de Toulouse (ENVT), Institut National Polytechnique (Toulouse) (Toulouse INP), Université Fédérale Toulouse Midi-Pyrénées-Université Fédérale Toulouse Midi-Pyrénées-Institut National Polytechnique (Toulouse) (Toulouse INP), Université Fédérale Toulouse Midi-Pyrénées-Institut National de la Santé et de la Recherche Médicale (INSERM)-Institut National de Recherche pour l’Agriculture, l’Alimentation et l’Environnement (INRAE)-Institut National des Sciences Appliquées - Toulouse (INSA Toulouse), Université Fédérale Toulouse Midi-Pyrénées-Institut National de la Santé et de la Recherche Médicale (INSERM)-Institut National de Recherche pour l’Agriculture, l’Alimentation et l’Environnement (INRAE)-Génopole Toulouse Midi-Pyrénées [Auzeville] (GENOTOUL), Université Fédérale Toulouse Midi-Pyrénées-Institut National de la Santé et de la Recherche Médicale (INSERM)-Institut National de Recherche pour l’Agriculture, l’Alimentation et l’Environnement (INRAE)-Institut National de Recherche pour l’Agriculture, l’Alimentation et l’Environnement (INRAE), Nicholls State University, University of North Carolina [Charlotte] (UNC), We are thankful for grant support from NIH R01OD011116 (I.B.), NSF DDIG DEB-1600920 (M.B.H.), NSF IOS-1755242 (A.D.) and NSF IOS-1755330 (J.A.Y.). Parts of this work have been supported by the Agence Nationale de la Recherche, France (ANR GenoFish project, 2016-2021, ANR-16-CE12-0035) to H.R.C., C.B., E.P., A.L. and Y.G. E.P., C.B. and H.R.C. received support under the program ‘Investissements d’Avenir’ launched by the French government and implemented by ANR with references ANR–10–LABX–54 MEMOLIFE and ANR-10-IDEX-0001-02 PSL* Université Paris. We thank F. Feng for access to Oneida Lake bowfin spawning habitats, the Bauer Core at Harvard University for sequencing fin transcriptomes and M. Gundappa (FISH & LINES) for species illustrations. Species silhouettes were obtained from http://PhyloPic.org. We are exceedingly grateful to the late J.L. Gómez-Skarmeta for his guidance on establishing ATAC-seq in holosteans., ANR-16-CE12-0035,GenoFish,Evolution des génes et des génomes après duplication compléte(2016), ANR-10-LABX-0054,MEMOLIFE,Memory in living systems: an integrated approach(2010), ANR-10-IDEX-0001,PSL,Paris Sciences et Lettres(2010), Institut de biologie de l'ENS Paris (IBENS), Centre National de la Recherche Scientifique (CNRS)-Institut National de la Santé et de la Recherche Médicale (INSERM)-Département de Biologie - ENS Paris, Université Paris sciences et lettres (PSL)-Université Paris sciences et lettres (PSL)-Institut National de la Santé et de la Recherche Médicale (INSERM)-Centre National de la Recherche Scientifique (CNRS), École normale supérieure - Paris (ENS-PSL), Université Paris sciences et lettres (PSL)-Université Paris sciences et lettres (PSL)-Centre National de la Recherche Scientifique (CNRS)-Institut National de la Santé et de la Recherche Médicale (INSERM)-École normale supérieure - Paris (ENS-PSL), Université Paris sciences et lettres (PSL)-Université Paris sciences et lettres (PSL)-Centre National de la Recherche Scientifique (CNRS)-Institut National de la Santé et de la Recherche Médicale (INSERM)-Institut National de la Santé et de la Recherche Médicale (INSERM)-Centre National de la Recherche Scientifique (CNRS), Université Toulouse III - Paul Sabatier (UT3), and Université Fédérale Toulouse Midi-Pyrénées-Institut National de la Santé et de la Recherche Médicale (INSERM)-Institut National de Recherche pour l’Agriculture, l’Alimentation et l’Environnement (INRAE)-Université Toulouse III - Paul Sabatier (UT3)

Subjects

Scale (anatomy), [SDV]Life Sciences [q-bio], Sequence assembly, Vertebrate Biology, Genome, Article, Evolution, Molecular, 03 medical and health sciences, 0302 clinical medicine, biology.animal, [SDV.BBM.GTP]Life Sciences [q-bio]/Biochemistry, Molecular Biology/Genomics [q-bio.GN], Developmental biology, Genetics, Animals, 14. Life underwater, Skates, Fish, Bowfin, ComputingMilieux_MISCELLANEOUS, Amia calva, 030304 developmental biology, 0303 health sciences, Phylogenetic tree, biology, Whole Genome Sequencing, Fishes, Vertebrate, Genomics, biology.organism_classification, Biological Evolution, Chromatin, Body plan, [SDV.BDD.EO]Life Sciences [q-bio]/Development Biology/Embryology and Organogenesis, Amiidae, Evolutionary biology, Zoology, 030217 neurology & neurosurgery

Abstract

The bowfin (Amia calva) is a ray-finned fish that possesses a unique suite of ancestral and derived phenotypes, which are key to understanding vertebrate evolution. The phylogenetic position of bowfin as a representative of neopterygian fishes, its archetypical body plan and its unduplicated and slowly evolving genome make bowfin a central species for the genomic exploration of ray-finned fishes. Here we present a chromosome-level genome assembly for bowfin that enables gene-order analyses, settling long-debated neopterygian phylogenetic relationships. We examine chromatin accessibility and gene expression through bowfin development to investigate the evolution of immune, scale, respiratory and fin skeletal systems and identify hundreds of gene-regulatory loci conserved across vertebrates. These resources connect developmental evolution among bony fishes, further highlighting the bowfin’s importance for illuminating vertebrate biology and diversity in the genomic era., Analysis of a chromosome-level bowfin genome assembly sheds light into neopterygian fish evolution. Chromatin accessibility and gene expression profiling provides insight into bowfin embryonic development.

Published

2021

7. Safety and Feasibility of Transcatheter Pacing System Implantation Guided by Intracardiac Echocardiography

Author

Shuji Ostuki, Takeshi Yamakawa, Tatsuya Ota, Ryuta Okabe, Mutsuki Miyagawa, Mina Hatsuno, Yuji Watari, Naoyuki Yokoyama, and Ken Kozuma

Published

2021

8. The genome of the bowfin (Amia calva) illuminates the developmental evolution of ray-finned fishes

Author

Qiaowei Pan, Mauricio Losilla, Allyse M. Ferrara, Alex Dornburg, Tatsuya Ota, Kevin L. Childs, Yann Guiguen, Marine Milhes, Amy R. McCune, Ingo Braasch, Michael Brent Hawkins, Andrew W. Thompson, Emily Funk, Olivia E Fitch, Hugues Roest Crollius, Dustin J. Wcisel, Quenton C. Fontenot, Romain Feron, Brett Racicot, Elise Parey, Solomon R. David, Matthew P. Harris, Kazuhiko Kawasaki, Camille Berthelot, and Jeffrey A. Yoder

Subjects

biology, Evolutionary biology, Bowfin, biology.organism_classification, Genome

Abstract

The bowfin fish (Amia calva) diverged before the genome duplication in teleost fishes, and its archetypical body plan and slow rate of molecular evolution make it a key species for genomic exploration as a basal representative of the neopterygian fishes. To investigate the evolution and development of ray-finned fishes, we generated a chromosome-level genome assembly for bowfin that enables gene-order analyses which settle its long-debated, phylogenetic relationship with gars. We analyze the genomic underpinnings of the bowfin’s unique combination of derived and ancestral phenotypes involving the immune system as well as scale, respiratory organ, and skeletal development. By detailing chromatin accessibility and gene expression through bowfin development, we connect developmental gene regulatory loci across vertebrates. We illustrate the utility of these genomic resources to connect developmental evolution across bony fishes, showing the importance of bowfin in understanding vertebrate biology and diversity.

Published

2020

9. Genomic insights of body plan transitions from bilateral to pentameral symmetry in Echinoderms

Author

Adrian Reich, Brian T. Livingston, Akihito Omori, Tomoko F. Shibata, Toko Tsurugaya, Meng Hao, Yui Uchida, Kota Ogawa, Yang Dong, Jason C. K. Leong, Wenting Wan, Sheri Satterfield, Xueyan Li, Masahiro Uesaka, Yongxin Li, Tao Zeng, Hidetoshi Saiga, Tetsuro Ikuta, Cynthia A. Bradham, Wen Wang, Fayou Wang, Gary M. Wessel, Mariko Kondo, Yaondong Ren, R. Andrew Cameron, Rachel L. Flores, Christine Nguyen, Mani Kikuchi, Kazuho Ikeo, Naoki Irie, Tatsuya Ota, Luonan Chen, Shuji Shigenobu, Takahiro Bino, and Si Zhang

Subjects

Most recent common ancestor, Proteomics, animal structures, Medicine (miscellaneous), Hemichordate, Genome, General Biochemistry, Genetics and Molecular Biology, Article, Evolutionary genetics, 03 medical and health sciences, Sea cucumber, Endoskeleton, 0302 clinical medicine, Animal Shells, biology.animal, Lytechinus, Animals, Author Correction, Sea urchin, lcsh:QH301-705.5, Phylogeny, 030304 developmental biology, Gene Library, 0303 health sciences, biology, Genes, Homeobox, DNA, Sequence Analysis, DNA, biology.organism_classification, Biological Evolution, Body plan, Sister group, lcsh:Biology (General), Evolutionary biology, Stichopus, lipids (amino acids, peptides, and proteins), Evolutionary developmental biology, General Agricultural and Biological Sciences, 030217 neurology & neurosurgery, Echinodermata

Abstract

Echinoderms are an exceptional group of bilaterians that develop pentameral adult symmetry from a bilaterally symmetric larva. However, the genetic basis in evolution and development of this unique transformation remains to be clarified. Here we report newly sequenced genomes, developmental transcriptomes, and proteomes of diverse echinoderms including the green sea urchin (L. variegatus), a sea cucumber (A. japonicus), and with particular emphasis on a sister group of the earliest-diverged echinoderms, the feather star (A. japonica). We learned that the last common ancestor of echinoderms retained a well-organized Hox cluster reminiscent of the hemichordate, and had gene sets involved in endoskeleton development. Further, unlike in other animal groups, the most conserved developmental stages were not at the body plan establishing phase, and genes normally involved in bilaterality appear to function in pentameric axis development. These results enhance our understanding of the divergence of protostomes and deuterostomes almost 500 Mya., Li et al. investigate the evolution and genetic basis of the adult pentameral body plan in echinoderms using genomic, transcriptomic, and proteomic data. They determine that the last common ancestor of echinoderms contained an organized Hox cluster and endoskeleton genes, and suggest that cooption of bilateral development genes was involved in evolution of the pentameric body plan.

Published

2020

10. Crime Victim Support by Local Government and the Role of the Police

Author

Seon-Hwa Seon and Tatsuya Ota

Subjects

Local government, Political science, Criminology

Published

2018

11. Spotted Gar and the Evolution of Innate Immune Receptors

Author

Dustin J. Wcisel, Gary W. Litman, Tatsuya Ota, and Jeffrey A. Yoder

Subjects

0301 basic medicine, Genome, Article, 03 medical and health sciences, biology.animal, Gene duplication, Genetics, Animals, Gene family, Amino Acid Sequence, Gene, Ecology, Evolution, Behavior and Systematics, Innate immune system, biology, Phylogenetic tree, Fishes, Vertebrate, biology.organism_classification, Biological Evolution, Immunity, Innate, Spotted gar, 030104 developmental biology, Gene Expression Regulation, Molecular Medicine, Animal Science and Zoology, Developmental Biology

Abstract

The resolution of the gar genome affords an opportunity to examine the diversification and functional specialization of immune effector molecules at a distant and potentially informative point in phylogenetic development. Although innate immunity is effected by a particularly large number of different families of molecules, the focus here is to provide detailed characterization of several families of innate receptors that are encoded in large multigene families, for which orthologous forms can be identified in other species of bony fish but not in other vertebrate groups as well as those for which orthologs are present in other vertebrate species. The results indicate that although teleost fish and the gar, as a holostean reference species, share gene families thought previously to be restricted to the teleost fish, the manner in which the members of the multigene families of innate immune receptors have undergone diversification is different in these two major phylogenetic radiations. It appears that both the total genome duplication and different patterns of genetic selection have influenced the derivation and stabilization of innate immune genes in a substantial manner during the course of vertebrate evolution.

Published

2017

12. A 91-year-old woman with severe aortic stenosis successfully underwent maintenance hemodialysis via arteriovenous fistula after transcatheter aortic valve implantation: A case report with literature review

Author

Yoshihide Fujigaki, Ryo Togashi, Takahiro Kikuyama, Hiroki Omizo, Ken Kozuma, Shigeru Shibata, Tatsuya Ota, Yoshikazu Nemoto, Minoru Yasukawa, Masaki Yamanaka, Hideyuki Kawashima, Sachiko Kitagawa, Shintaro Takamura, Fumika Ochiai, Kazuhiro Sakai, and Yusuke Watanabe

Subjects

Nephrology, medicine.medical_specialty, Urology, medicine.medical_treatment, Arteriovenous fistula, Anti-glomerular basement membrane disease, lcsh:RC870-923, Internal medicine, medicine, Dialysis, Transplantation, Transcatheter aortic valve implantation, business.industry, Aortic stenosis, medicine.disease, lcsh:Diseases of the genitourinary system. Urology, Surgery, Catheter, Stenosis, Hemodialysis, Plasmapheresis, business, Kidney disease

Abstract

BackgroundTranscatheter aortic valve implantation (TAVI) has evolved to be a treatment of choice in high-risk patients with aortic stenosis (AS). However, it is not known whether TAVI is safe and beneficial for the creation of arteriovenous fistula for maintenance hemodialysis in high-risk patients with severe AS.Case presentationA 91-year-old woman was referred to our hospital due to oligoanuria and progressive renal dysfunction. She was diagnosed with anti-glomerular basement membrane (GBM) disease. She had hypertension, chronic kidney disease stage G3b, and AS. We chose not to perform immunosuppressive therapy and plasmapheresis for anti-GBM disease because the risk of death outweighed the benefit of treatment. Hemodialysis with a venous catheter was initiated for the renal indication. As she showed severe AS, she had a risk of cardiac decompensation after arteriovenous fistula creation for dialysis. Following the clinical decision-making process, she underwent TAVI. Although she required the implantation of a cardiac pacemaker for an advanced atrioventricular block that occurred 11 days after TAVI, arteriovenous fistula was successfully created thereafter. She could undergo maintenance hemodialysis using arteriovenous fistula.ConclusionsTAVI is safe and beneficial for the creation of arteriovenous fistula shortly after initiating acute hemodialysis using a catheter in a very old patient with anti-GBM disease.

Published

2019

13. Author Correction: Genomic insights of body plan transitions from bilateral to pentameral symmetry in Echinoderms

Author

Meng Hao, Kazuho Ikeo, Kota Ogawa, Si Zhang, Shuji Shigenobu, Tomoko F. Shibata, Mariko Kondo, Wen Wang, Adrian Reich, Rachel L. Flores, Christine Nguyen, Yongxin Li, Yaondong Ren, Brian T. Livingston, Cynthia A. Bradham, Sheri Satterfield, Hidetoshi Saiga, Tetsuro Ikuta, Masahiro Uesaka, Yang Dong, Jason C. K. Leong, Mani Kikuchi, Gary M. Wessel, Takahiro Bino, Naoki Irie, Fayou Wang, R. Andrew Cameron, Toko Tsurugaya, Xueyan Li, Tao Zeng, Wenting Wan, Tatsuya Ota, Luonan Chen, Akihito Omori, and Yui Uchida

Subjects

Information retrieval, Body plan, Computer science, QH301-705.5, Published Erratum, Medicine (miscellaneous), Symmetry (geometry), Biology (General), General Agricultural and Biological Sciences, General Biochemistry, Genetics and Molecular Biology

Abstract

A Correction to this paper has been published: https://doi.org/10.1038/s42003-021-02005-4

Published

2021

14. The African coelacanth genome provides insights into tetrapod evolution

Author

Mariko Forconi, Tereza Manousaki, Peter F. Stadler, Anna Maria Fausto, Simon D. M. White, Shigehiro Kuraku, Sumir Panji, Marcia Lara, Andreas Gnirke, Hervé Philippe, Shaohua Fan, Axel Meyer, Jean Nicolas Volff, Tsutomu Miyake, Sante Gnerre, Thorsten Burmester, Anne Nitsche, Igor Schneider, John J. Stegeman, Alison P. Lee, Kerstin Lindblad-Toh, Peter van Heusden, Chris T. Amemiya, Michael S. Campbell, Ettore Olmo, Vydianathan Ravi, Jason Turner-Maier, Denis Baurain, Gary W. Litman, Federica Di Palma, Nicolas Rohner, Manfred Schartl, Giuseppe Scapigliati, Oleg Simakov, Aaron M. Berlin, Barbara Picone, Ingo Braasch, Byrappa Venkatesh, David R. Nelson, Wilfried Haerty, Diana Tabbaa, M. Gail Mueller, Francesco Buonocore, Eric S. Lander, Gianluca De Moro, Uljana Hesse, Chris P. Ponting, Nathalie Feiner, Junaid Gamieldien, Clifford J. Tabin, Gregory L. Blatch, Tatsuya Ota, Steve Hoffmann, Maria Assunta Biscotti, John H. Postlethwait, Chris L. Organ, Jessica Alföldi, Lin Fan, Mark Robinson, Stephen M. J. Searle, Louise Williams, Mark E. Hahn, Sonja J. Prohaska, Jared V. Goldstone, Dariusz Przybylski, Iain MacCallum, Rosemary A. Dorrington, Joshua Z. Levin, Tatjana Sauka-Spengler, Kenta Sumiyama, Nil Ratan Saha, Henner Brinkmann, Jeremy Johnson, John P. Cannon, Filipe J. Ribeiro, Marco Gerdol, David B. Jaffe, Adriana Canapa, Hakim Tafer, Marco Barucca, Mark Yandell, Evan Mauceli, Alan Christoffels, Sibel I. Karchner, Adrienne L. Edkins, J. Joshua Smith, Bronwen Aken, Neil H. Shubin, Ted Sharpe, Domitille Chalopin, Alberto Pallavicini, Molecular Genetics Program, Benaroya Research Institute, Department of Biology, Northern Arizona University [Flagstaff], Broad Institute of MIT and Harvard (BROAD INSTITUTE), Harvard Medical School [Boston] (HMS)-Massachusetts Institute of Technology (MIT)-Massachusetts General Hospital [Boston], Comparative Genomics Laboratory, Institute of Molecular and Cell Biology, A*STAR, Biopolis, Partenaires INRAE, Université de Montréal (UdeM), Institute of Neuroscience, University of Oregon [Eugene], University of Konstanz, Instituto de Ciências Biológicas, Federal University of Para - Universidade Federal do Para [Belem - Brésil], Department of Genetics [Boston], Harvard Medical School [Boston] (HMS), Utah State University (USU), Institut de Génomique Fonctionnelle de Lyon (IGFL), Université Claude Bernard Lyon 1 (UCBL), Université de Lyon-Université de Lyon-Centre National de la Recherche Scientifique (CNRS)-Institut National de la Recherche Agronomique (INRA)-École normale supérieure - Lyon (ENS Lyon), Rhodes University, Grahamstown, Department of Life Sciences, Università degli studi di Trieste, Wellcome Trust Sanger Institute, Università Politecnica delle Marche [Ancona] (UNIVPM), Université de Liège, Victoria University [Melbourne], Department for Innovation in Biological, Agro-Food and Forest Systems, Tuscia University, University of Hamburg, Eccles Institute of Human Genetics, University of Utah, University of South Florida [Tampa] (USF), South African National Bioinformatics Institute (SANBI), University of the Western Cape, International Max Planck Research School for Organismal Biology (IMPRS), Max Planck Institute for Ornithology, Max-Planck-Gesellschaft-Max-Planck-Gesellschaft-University of Konstanz, Biology Department (WHOI), Woods Hole Oceanographic Institution (WHOI), University of Oxford [Oxford], Leipzig University, Broad Institute of MIT and Harvard, Cambridge, Massachusetts 02142, USA, Keio University, All Children’s Hospital, University of Tennessee, Bioinformatics Group, Department of Computer Science, Universität Leipzig [Leipzig], Graduate University for Advanced Studies, Comparative Genomics Laboratory, Institute of Molecular and Cell Biology, A*STAR, Biopolis, Singapore 138673, Singapore, European Molecular Biology Laboratory (EMBL), National Institute of Genetics (NIG), University of Chicago, Department Physiological Chemistry, Biocenter, Julius-Maximilians-Universität Würzburg [Wurtzbourg, Allemagne] (JMU), South African National Department of Science and Technology, National Human Genome Research Institute (NHGRI), European Science Foundation, Amemiya, Chris T., Alföldi, Jessica, Meyer, Axel, Lindblad-Toh, Kerstin, Federal University of Para - Universidade Federal do Pará - UFPA [Belém, Brazil] (UFPA), École normale supérieure de Lyon (ENS de Lyon)-Institut National de la Recherche Agronomique (INRA)-Université Claude Bernard Lyon 1 (UCBL), Université de Lyon-Université de Lyon-Centre National de la Recherche Scientifique (CNRS), Università degli studi di Trieste = University of Trieste, Università degli studi della Tuscia [Viterbo], University of the Western Cape (UWC), University of Oxford, Universität Leipzig, Julius-Maximilians-Universität Würzburg (JMU), Chris T., Amemiya, Jessica, Alföldi, Alison P., Lee, Shaohua, Fan, Hervé, Philippe, Iain, Maccallum, Ingo, Braasch, Tereza, Manousaki, Igor, Schneider, Nicolas, Rohner, Chris, Organ, Domitille, Chalopin, Jeramiah J., Smith, Mark, Robinson, Rosemary A., Dorrington, Gerdol, Marco, Bronwen, Aken, Maria Assunta, Biscotti, Marco, Barucca, Denis, Baurain, Aaron M., Berlin, Gregory L., Blatch, Francesco, Buonocore, Thorsten, Burmester, Michael S., Campbell, Adriana, Canapa, John P., Cannon, Alan, Christoffel, DE MORO, Gianluca, Adrienne L., Edkin, Lin, Fan, Anna Maria, Fausto, Nathalie, Feiner, Mariko, Forconi, Junaid, Gamieldien, Sante, Gnerre, Andreas, Gnirke, Jared V., Goldstone, Wilfried, Haerty, Mark E., Hahn, Uljana, Hesse, Steve, Hoffmann, Jeremy, Johnson, Sibel I., Karchner, Shigehiro, Kuraku, Marcia, Lara, Joshua Z., Levin, Gary W., Litman, Evan, Mauceli, Tsutomu, Miyake, M., Gail Mueller, David R., Nelson, Anne, Nitsche, Ettore, Olmo, Tatsuya, Ota, Pallavicini, Alberto, Sumir, Panji, Barbara, Picone, Chris P., Ponting, Sonja J., Prohaska, Dariusz, Przybylski, Nil Ratan, Saha, Vydianathan, Ravi, Filipe J., Ribeiro, Tatjana Sauka, Spengler, Giuseppe, Scapigliati, Stephen M. J., Searle, Ted, Sharpe, Oleg, Simakov, Peter F., Stadler, John J., Stegeman, Kenta, Sumiyama, Diana, Tabbaa, Hakim, Tafer, Jason Turner, Maier, Peter van, Heusden, Simon, White, Louise, William, Mark, Yandell, Henner, Brinkmann, Jean Nicolas, Volff, Clifford J., Tabin, Neil, Shubin, Manfred, Schartl, David B., Jaffe, John H., Postlethwait, Byrappa, Venkatesh, Federica Di, Palma, Eric S., Lander, Axel, Meyer, and Kerstin Lindblad, Toh

Subjects

0106 biological sciences, terrestrial environment, adaptation, ancestry, brain, excretion, finfish, gene expression, genome, immunity, olfaction, phylogenetics, protein, terrestrial environment, tetrapod, [SDV]Life Sciences [q-bio], LATIMERIA-MENADOENSIS, adaptation, Chick Embryo, MITOCHONDRIAL GENOME, LIVING FOSSIL, SEQUENCE, GENES, MODEL, TRANSCRIPTION, CHROMOSOMES, RETENTION, CHALUMNAE, 01 natural sciences, Genome, Animals, Genetically Modified, Mice, poisson, Coelacanth, Conserved Sequence, Phylogeny, Lungfish, 0303 health sciences, Multidisciplinary, biology, Latimeria, Fishes, Genes, Homeobox, Vertebrate, Genomics, Biological Evolution, phylogenetics, Enhancer Elements, Genetic, évolution du génome, Vertebrates, excretion, Comperative genomics, Living fossil, olfaction, Genome evolution, finfish, brain, Molecular Sequence Data, tetrapod, 010603 evolutionary biology, Article, Evolution, Molecular, 03 medical and health sciences, ddc:570, biology.animal, Animals, [INFO]Computer Science [cs], 14. Life underwater, 030304 developmental biology, Comparative genomics, ancestry, génome, Extremities, Molecular Sequence Annotation, Sequence Analysis, DNA, biology.organism_classification, immunity, body regions, Immunoglobulin M, Evolutionary biology, gene expression, protein, Sequence Alignment

Abstract

Acquisition and storage of Latimeria chalumnae samples was supported by grants from the African Coelacanth Ecosystem Programme of the South African National Department of Science and Technology. Generation of the Latimeria chalumnae and Protopterus annectens sequences by the Broad Institute of the Massachusetts Institute of Technology (MIT) and Harvard University was supported by grants from the National Human Genome Research Institute (NHGRI). K.L.T. is the recipient of a EURYI award from the European Science Foundation. We would also like to thank the Genomics Sequencing Platform of the Broad Institute for sequencing the L. chalumnae genome and L. chalumnae and P. annectens transcriptomes, S. Ahamada, R. Stobbs and the Association pour le Protection de Gombesa (APG) for their help in obtaining coelacanth samples, Y. Zhao for the use of data from Rana chensinensis, and L. Gaffney, C. Hamilton and J. Westlund for assistance with figure preparation. 10; International audience; The discovery of a living coelacanth specimen in 1938 was remarkable, as this lineage of lobe-finned fish was thought to have become extinct 70 million years ago. The modern coelacanth looks remarkably similar to many of its ancient relatives, and its evolutionary proximity to our own fish ancestors provides a glimpse of the fish that first walked on land. Here we report the genome sequence of the African coelacanth, Latimeria chalumnae. Through a phylogenomic analysis, we conclude that the lungfish, and not the coelacanth, is the closest living relative of tetrapods. Coelacanth protein-coding genes are significantly more slowly evolving than those of tetrapods, unlike other genomic features. Analyses of changes in genes and regulatory elements during the vertebrate adaptation to land highlight genes involved in immunity, nitrogen excretion and the development of fins, tail, ear, eye, brain and olfaction. Functional assays of enhancers involved in the fin-to-limb transition and in the emergence of extra-embryonic tissues show the importance of the coelacanth genome as a blueprint for understanding tetrapod evolution.

Published

2013

15. Natural Variation in the Flag Leaf Morphology of Rice Due to a Mutation of the NARROW LEAF 1 Gene in Oryza sativa L

Author

TAGUCHI-SHIOBARA, Fumio, OTA, Tatsuya, EBANA, Kaworu, OOKAWA, Taiichiro, YAMASAKI, Masanori, TANABATA, Takanari, YAMANOUCHI, Utako, WU, Jianzhong, ONO, Nozomi, NONOUE, Yasunori, NAGATA, Kazufumi, FUKUOKA, Shuichi, HIRABAYASHI, Hideyuki, YAMAMOTO, Toshio, YANO, Masahiro, Fumio, TAGUCHI-SHIOBARA, Tatsuya, OTA, Kaworu, EBANA, Taiichiro, OOKAWA, Masanori, YAMASAKI, Takanari, TANABATA, Utako, YAMANOUCHI, Jianzhong, WU, Nozomi, ONO, Yasunori, NONOUE, Kazufumi, NAGATA, Shuichi, FUKUOKA, Hideyuki, HIRABAYASHI, Toshio, YAMAMOTO, and Masahiro, YANO

Subjects

Genotype, Quantitative Trait Loci, flag leaf width, Genetically modified crops, Investigations, Quantitative trait locus, Japonica, Genetics, natural variation, Oryza sativa L, Allele, Gene, Alleles, Plant Proteins, Oryza sativa, biology, rice, Chromosome Mapping, food and beverages, Oryza, Plants, Genetically Modified, biology.organism_classification, Plant Leaves, Phenotype, Chromosome 4, Mutation, Mutation (genetic algorithm), NARROW LEAF 1, Genome-Wide Association Study

Abstract

We investigated the natural variations in the flag leaf morphology of rice. We conducted a principal component analysis based on nine flag leaf morphology traits using 103 accessions from the National Institute of Agrobiological Sciences Core Collection. The first component explained 39% of total variance, and the variable with highest loading was the width of the flag leaf (WFL). A genome-wide association analysis of 102 diverse Japanese accessions revealed that marker RM6992 on chromosome 4 was highly associated with WFL. In analyses of progenies derived from a cross between Takanari and Akenohoshi, the most significant quantitative trait locus (QTL) for WFL was in a 10.3-kb region containing the NARROW LEAF 1 (NAL1) gene, located 0.4 Mb downstream of RM6992. Analyses of chromosomal segment substitution lines indicated that a mutation (G1509A single-nucleotide mutation, causing an R233H amino acid substitution in NAL1) was present at the QTL. This explained 13 and 20% of total variability in WFL and the distance between small vascular bundles, respectively. The mutation apparently occurred during rice domestication and spread into japonica, tropical japonica, and indica subgroups. Notably, one accession, Phulba, had a NAL1 allele encoding only the N-terminal, or one-fourth, of the wild-type peptide. Given that the Phulba allele and the histidine-type allele showed essentially the same phenotype, the histidine-type allele was regarded as malfunctional. The phenotypes of transgenic plants varied depending on the ratio of histidine-type alleles to arginine-type alleles, raising the possibility that H233-type products function differently from and compete with R233-type products.

Published

2015

16. An ecological transcriptome approach to capture the molecular and physiological mechanisms of mass flowering in Shorea curtisii

Author

Ahmad Husaini Suhaimi, Masaki J. Kobayashi, Akiko Satake, Ching Ching Ng, Soon Leong Lee, Norwati Muhammad, Shinya Numata, Tatsuya Otani, Toshiaki Kondo, Naoki Tani, and Suat Hui Yeoh

Subjects

Dipterocarpaceae, Flowering time, General flowering, RNA-seq, Transcriptomics, Medicine, Biology (General), QH301-705.5

Abstract

Climatic factors have commonly been attributed as the trigger of general flowering, a unique community-level mass flowering phenomenon involving most dipterocarp species that forms the foundation of Southeast Asian tropical rainforests. This intriguing flowering event is often succeeded by mast fruiting, which provides a temporary yet substantial burst of food resources for animals, particularly frugivores. However, the physiological mechanism that triggers general flowering, particularly in dipterocarp species, is not well understood largely due to its irregular and unpredictable occurrences in the tall and dense forests. To shed light on this mechanism, we employed ecological transcriptomic analyses on an RNA-seq dataset of a general flowering species, Shorea curtisii (Dipterocarpaceae), sequenced from leaves and buds collected at multiple vegetative and flowering phenological stages. We assembled 64,219 unigenes from the transcriptome of which 1,730 and 3,559 were differentially expressed in the leaf and the bud, respectively. Differentially expressed unigene clusters were found to be enriched with homologs of Arabidopsis thaliana genes associated with response to biotic and abiotic stresses, nutrient level, and hormonal treatments. When combined with rainfall data, our transcriptome data reveals that the trees were responding to a brief period of drought prior to the elevated expression of key floral promoters and followed by differential expression of unigenes that indicates physiological changes associated with the transition from vegetative to reproductive stages. Our study is timely for a representative general flowering dipterocarp species that occurs in forests that are under the constant threat of deforestation and climate change as it pinpoints important climate sensitive and flowering-related homologs and offers a glimpse into the cascade of gene expression before and after the onset of floral initiation.

Published

2023

17. A tetrapod-like repertoire of innate immune receptors and effectors for coelacanths

Author

BOUDINOT, Pierre, ZOU, Jun, OTA, Tatsuya, BUONOCORE, Francesco, SCAPIGLIATI, Giuseppe, CANAPA, Adriana, CANNON, John, LITMAN, Gary, HANSEN, John D, Pierre, BOUDINOT, Jun, ZOU, Tatsuya, OTA, Francesco, BUONOCORE, Giuseppe, SCAPIGLIATI, Adriana, CANAPA, John, CANNON, Gary, LITMAN, and John D, HANSEN

Subjects

Immunity.Innate, Receptors Pattern Recognition, Receptors, Pattern Recognition, Multigene Family, Toll-Like Receptors, Fishes, Animals, Proteins, Leucine-Rich Repeat Proteins, Carrier Proteins, Toll-Like Receptors ＜NML MeSH Terms＞, Immunity, Innate, Phylogeny

Abstract

The recent availability of both robust transcriptome and genome resources for coelacanth (Latimeria chalumnae) has led to unique discoveries for coelacanth immunity such as the lack of IgM, a central component of adaptive immunity. This study was designed to more precisely address the origins and evolution of gene families involved in the initial recognition and response to microbial pathogens, which effect innate immunity. Several multigene families involved in innate immunity are addressed, including: Toll-like receptors (TLRs), retinoic acid inducible gene 1 (RIG1)-like receptors (RLRs), the nucleotide-binding domain and leucine-rich repeat containing proteins (NLRs), diverse immunoglobulin domain-containing proteins (DICP) and modular domain immune-type receptors (MDIRs). Our analyses also include the tripartite motif-containing proteins (TRIM), which are involved in pathogen recognition as well as the positive regulation of antiviral immunity. Finally, this study addressed some of the downstream effectors of the antimicrobial response including IL-1 family members, type I and II interferons (IFN) and IFN-stimulated effectors (ISGs). Collectively, the genes and gene families in coelacanth that effect innate immune functions share characteristics both in content, structure and arrangement with those found in tetrapods but not in teleosts. The findings support the sister group relationship of coelacanth fish with tetrapods.

Published

2014

18. Genome complexity in the coelacanth is reflected in its adaptive immune system

Author

Chris T. Amemiya, Nil Ratan Saha, Zuly E. Parra, Gary W. Litman, Francesco Buonocore, J. D. Hansen, Ellen Hsu, Tatsuya Ota, Jan Fang Cheng, and Adriana Canapa

Subjects

Genetics, biology, Locus (genetics), biology.organism_classification, Acquired immune system, Genome, Evolutionary biology, Molecular Medicine, Immunoglobulin heavy chain, Animal Science and Zoology, Coelacanth, Gene, Ecology, Evolution, Behavior and Systematics, Developmental Biology, Genomic organization, Synteny

Abstract

We have analyzed the available genome and transcriptome resources from the coelacanth in order to characterize genes involved in adaptive immunity. Two highly distinctive IgW-encoding loci have been identified that exhibit a unique genomic organization, including a multiplicity of tandemly repeated constant region exons. The overall organization of the IgW loci precludes typical heavy chain class switching. A locus encoding IgM could not be identified either computationally or by using several different experimental strategies. Four distinct sets of genes encoding Ig light chains were identified. This includes a variant sigma-type Ig light chain previously identified only in cartilaginous fishes and which is now provisionally denoted sigma-2. Genes encoding α/β and γ/δ T-cell receptors, and CD3, CD4, and CD8 co-receptors also were characterized. Ig heavy chain variable region genes and TCR components are interspersed within the TCR α/δ locus; this organization previously was reported only in tetrapods and raises questions regarding evolution and functional cooption of genes encoding variable regions. The composition, organization and syntenic conservation of the major histocompatibility complex locus have been characterized. We also identified large numbers of genes encoding cytokines and their receptors, and other genes associated with adaptive immunity. In terms of sequence identity and organization, the adaptive immune genes of the coelacanth more closely resemble orthologous genes in tetrapods than those in teleost fishes, consistent with current phylogenomic interpretations. Overall, the work reported described herein highlights the complexity inherent in the coelacanth genome and provides a rich catalog of immune genes for future investigations.

Published

2014

19. Genetic Analyses of the Heteromorphic Self-Incompatibility (S) Locus in Buckwheat

Author

Tatsuya Ota, Katsuhiro Matsui, Shingo Sato, Mariko Ueno, Yasuo Yasui, and Jotaro Aii

Subjects

Genetics, Molecular mechanism, Locus (genetics), Biology, Gene

Abstract

Understanding the molecular mechanism of heteromorphic self-incompatibility (SI) is essential to control the mating behavior in breeding and is useful for future development and improvement of self-compatible (SC) lines in buckwheat. In this chapter, we briefly summarize genetic analyses of the heteromorphic SI as well as the developments of SC lines and update recent progress on genomic characterization of the S -locus or S supergene complex regulating the heteromorphic SI. After an introduction of SI systems in buckwheat and other plants, an establishment of buckwheat SC line Kyukei SC2 and its physiological feature are described with its implication on the genomic structure of the S supergene complex. Then, we overview the latest studies on identification of genes present in the S -locus and introduce its potential application to understand the evolutionary history of buckwheat cultivation.

Published

2016

20. The basis for haplotype complexity in VCBPs, an immune-type receptor in amphioxus

Author

DISHAW, Larry J, OTA, Tatsuya, MUELLER, M Gail, CANNON, John P, HAIRE, Robert N, GWATNEY, Natasha R, LITMAN, Ronda T, LITMAN, Gary W, Larry J, DISHAW, Tatsuya, OTA, M Gail, MUELLER, John P, CANNON, Robert N, HAIRE, Natasha R, GWATNEY, Ronda T, LITMAN, and Gary W, LITMAN

Subjects

DNA, Complementary, Evolution, Molecular Sequence Data, Immunology, Immunoglobulin Variable Region, Chitin, Biology, Genome, Article, polymorphism, Evolution, Molecular, Exon, Chordata, Nonvertebrate, Variable region-containing chitin-binding protein, Branchiostoma floridae, Genetics, Animals, Amino Acid Sequence, Copy-number variation, Receptors, Immunologic, Gene, Phylogeny, Innate immunity, Polymorphism, Genetic, Innate immune system, Sequence Homology, Amino Acid, Haplotype, biology.organism_classification, Hypervariable region, Haplotypes, Variable immunoglobulin

Abstract

Innate immune gene repertoires are restricted primarily to germline variation. Adaptive immunity, by comparison, relies on somatic variation of germline-encoded genes to generate extraordinarily large numbers of non-heritable antigen recognition motifs. Invertebrates lack the key features of vertebrate adaptive immunity, but have evolved a variety of alternative mechanisms to successfully protect the integrity of “self”; in many cases, these appear to be taxon-specific innovations. In the protochordate Branchiostoma floridae (amphioxus), the variable region-containing chitin-binding proteins (VCBPs) constitute a multigene family (comprised of VCBPs 1–5), which possesses features that are consistent with innate immune-type function. A large number of VCBP alleles and haplotypes are shown to exhibit levels of polymorphism exceeding the elevated overall levels determined for the whole amphioxus genome (JGI). VCBP genes of the 2 and 5 types are distinguished further by a highly polymorphic segment (exon 2) in the N-terminal immunoglobulin domain, defined previously as a “hyper-variable region” or a “hotspot.” Genomic deoxyribonucleic acid (DNA) and complementary DNA (cDNA) sequences from large numbers of animals representing different populations reveal further significant differences in sequence complexity within and across VCBP2/5 haplotypes that arise through overlapping mechanisms of genetic exchange, gene copy number variation as well as mutation and give rise to distinct allelic lineages. The collective observations suggest that mechanisms were in place at the time of divergence of the cephalochordates that could selectively hyperdiversify immune-type receptors within a multigene family.

Published

2010

21. Zebrafish mutants with disrupted early T-cell and thymus development identified in early pressure screen

Author

Leonard I. Zon, Bradley Demarest, Chris T. Amemiya, Tatsuya Ota, Sarah A. Hutchinson, Candace Hersey, Hirohide Kawasaki, Agustín G. Zapata, Yi Zhou, Nikolaus S. Trede, Tammisty Katz, and Barry H. Paw

Subjects

Genetics, biology, T cell, Danio, Hematopoietic stem cell, Organogenesis, biology.organism_classification, Phenotype, Cell biology, medicine.anatomical_structure, medicine, Lymphopoiesis, Zebrafish, Developmental Biology, Genetic screen

Abstract

Generation of mature T lymphocytes requires an intact hematopoietic stem cell compartment and functional thymic epithelium. We used the zebrafish (Danio rerio) to isolate mutations that affect the earliest steps in T lymphopoiesis and thymic organogenesis. Here we describe the results of a genetic screen in which gynogenetic diploid offspring from heterozygous females were analyzed by whole mount in situ hybridization for the expression of rag-1. In order to assess immediately if a global defect in hematopoiesis resulted in the mutant phenotype, α-embryonic globin expression was simultaneously assayed for multilineage defects. In this report we present the results obtained with this strategy and show representative mutant phenotypes affecting early steps in T cell development and/or thymic epithelial cell development. We discuss the advantage of this strategy and the general usefulness of the zebrafish as a model system for vertebrate lymphopoiesis and thymic organogenesis.

Published

2008

22. Construction of a BAC library for buckwheat genome research -An application to positional cloning of agriculturally valuable traits

Author

Clayton G. Campbell, Masashi Mori, Daiki Matsumoto, Ohmi Ohnishi, Yasuo Yasui, and Tatsuya Ota

Subjects

Genetics, Positional cloning, Agamous, food and beverages, Locus (genetics), General Medicine, Biology, Genome, law.invention, Sequence-tagged site, law, Genomic library, Molecular Biology, Gene, Polymerase chain reaction

Abstract

We have constructed a BAC library for common buckwheat Fagopyrum esculentum Moench. The library includes 142,005 clones with an average insert size of ~76 kb, equivalent to approximately a 7~8-fold coverage of the genome. Polymerase chain reaction based screening of the library with AGAMOUS and FLORICAULA/LEAFY primers, has identified 7 and 9 BACs, respectively, which are consistent with the genome coverage. This library represents the first large insert genomic library for F. esculentum and it can be served as a genetic resource facilitating agricultural, pharmacological, physiological, and evolutionary studies of the species. To demonstrate the utilization of the library for characterizing agriculturally valuable traits, we developed a sequence tagged site marker tightly linked to the dwarf E locus as well as to the self-incompatibility complex locus and screened the library to initiate positional cloning of the causative genes.

Published

2008

23. Public safety in today's Japan

Author

Tatsuya, Ota

Subjects

Japan -- Social aspects, Offenses against public safety -- Prevention, Public safety services, Regional focus/area studies

Abstract

The increase in crime in Japan and the need for public safety is discussed. The degree, to which citizens report them to the police, reflects the consciousness of crime among the public resulting in a larger percentage of offenses being reported and recognized.

Published

2004

24. Ancient divergence of a complex family of immune-type receptor genes

Author

John P. Cannon, Donna D. Eason, Gary W. Litman, Chris T. Amemiya, M. Gail Mueller, Tatsuya Ota, Deborah Tinnemore, Robert N. Haire, and Ronda T. Litman

Subjects

Genetics, Phylogenetic tree, Molecular Sequence Data, Immunology, Genetic Variation, Immunoglobulins, Biology, Genome, Article, Transmembrane protein, Protein Structure, Tertiary, Evolution, Molecular, Phylogenetics, Multigene Family, Animals, Immunoglobulin superfamily, Amino Acid Sequence, Skates, Fish, Receptors, Immunologic, Receptor, Gene, Peptide sequence, Phylogeny

Abstract

Multigene families of activating/inhibitory receptors belonging to the immunoglobulin superfamily (IgSF) regulate immunological and other cell–cell interactions. A new family of such genes, termed modular domain immune-type receptors (MDIRs), has been identified in the clearnose skate (Raja eglanteria), a phylogenetically ancient vertebrate. At least five different major forms of predicted MDIR proteins are comprised of four different subfamilies of IgSF ectodomains of the intermediate (I)- or C2-set. The predicted number of individual IgSF ectodomains in MDIRs varies from one to six. MDIR1 contains a positively charged transmembrane residue and MDIR2 and MDIR3 each possesses at least one immunoreceptor tyrosine-based inhibitory motif in their cytoplasmic regions. MDIR4 and MDIR5 lack characteristic activating/inhibitory signalling motifs. MDIRs are encoded in a particularly large and complex multigene family. MDIR domains exhibit distant sequence similarity to mammalian CMRF-35-like molecules, polymeric immunoglobulin receptors, triggering receptors expressed on myeloid cells (TREMs), TREM-like transcripts, NKp44 and FcR homologs, as well as to sequences identified in several different vertebrate genomes. Phylogenetic analyses suggest that MDIRs are representative members of an extended family of IgSF genes that diverged before or very early in evolution of the vertebrates and subsequently came to occupy multiple, fully independent distributions in the present day.

Published

2006

25. Resolution of the novel immune-type receptor gene cluster in zebrafish

Author

Tatsuya Ota, Sheng Wei, Gary W. Litman, M. Gail Mueller, Ronda T. Litman, Kimberly P. Dobrinski, David A. Ostrov, Sean Humphray, Kerstin Jekosch, Julie Y. Djeu, Nikolaus S. Trede, Chris T. Amemiya, Jose A. Hernandez Prada, Jennifer S. Montgomery, Salil Desai, Matthew P. Buzzeo, and Jeffrey A. Yoder

Subjects

Models, Molecular, Gene isoform, DNA, Complementary, Molecular Sequence Data, Locus (genetics), Biology, Evolution, Molecular, Loss of heterozygosity, Gene cluster, Animals, Lectins, C-Type, Amino Acid Sequence, Receptors, Immunologic, Gene, Alleles, Phylogeny, Zebrafish, Genetics, Multidisciplinary, Alternative splicing, Haplotype, Chromosome Mapping, Genetic Variation, Biological Sciences, Zebrafish Proteins, Protein Structure, Tertiary, Divergent evolution, Alternative Splicing, Multigene Family

Abstract

The novel immune-type receptor (NITR) genes encode a unique multigene family of leukocyte regulatory receptors, which possess an extracellular Ig variable (V) domain and may function in innate immunity. Artificial chromosomes that encode zebrafish NITRs have been assembled into a contig spanning ≈350 kb. Resolution of the complete NITR gene cluster has led to the identification of eight previously undescribed families of NITRs and has revealed the presence of C-type lectins within the locus. A maximum haplotype of 36 NITR genes (138 gene sequences in total) can be grouped into 12 distinct families, including inhibitory and activating receptors. An extreme level of interindividual heterozygosity is reflected in allelic polymorphisms, haplotype variation, and family-specific isoform complexity. In addition, the exceptional diversity of NITR sequences among species suggests divergent evolution of this multigene family with a birth-and-death process of member genes. High-confidence modeling of Nitr V-domain structures reveals a significant shift in the spatial orientation of the Ig fold, in the region of highest interfamily variation, compared with Ig V domains. These studies resolve a complete immune gene cluster in zebrafish and indicate that the NITRs represent the most complex family of activating/inhibitory surface receptors thus far described.

Published

2004

26. Positive Darwinian selection operating on the immunoglobulin heavy chain of Antarctic fishes

Author

Eric Huang, H. William Detrich, Tatsuya Ota, Thuy-Ai T. Nguyen, and Chris T. Amemiya

Subjects

Nonsynonymous substitution, Molecular Sequence Data, Antarctic Regions, Complementarity determining region, Biology, Chaenocephalus aceratus, Notothenioidei, Evolution, Molecular, Animals, Amino Acid Sequence, Selection, Genetic, Phylogeny, Southern blot, Genetics, Genome, Base Sequence, Sequence Homology, Amino Acid, Phylogenetic tree, Fishes, General Medicine, biology.organism_classification, Adaptation, Physiological, Protein Structure, Tertiary, Freezing point, Cold Temperature, Blotting, Southern, Immunoglobulin M, Immunoglobulin heavy chain, Animal Science and Zoology, Immunoglobulin Heavy Chains

Abstract

The cooling of the Southern Ocean to the freezing point of seawater (−1.9°C) over the past 25 million years played a dominant selective role in the evolution of the Antarctic fish fauna. During this period, the perciform suborder Notothenioidei, which is largely endemic to the Antarctic, diversified and developed numerous cold-adapted characters. In this report, we provide compelling evidence that the immunoglobulin heavy chain (IgH) of the notothenioid fishes has undergone adaptive selection. Two and four IgH clones were isolated, respectively, from spleen cDNA libraries prepared from the Antarctic icefish Chaenocephalus aceratus and the yellowbelly rockcod Notothenia coriiceps. The transmembrane region of the membrane form of the rockcod IgM heavy chain was located at the end of the second constant (CH) domain, in contrast to other teleost IgMs in which the transmembrane region is located at the end of the third constant domain. Phylogenetic analyses of CH regions revealed that rates of nonsynonymous nucleotide substitution were higher than rates of synonymous nucleotide substitution. Many of the nonsynonymous substitutions introduced charge changes, consistent with positive Darwinian selection acting to adapt the structure of the notothenioid immunoglobulins. The rates of nonsynonymous nucleotide substitutions were higher than the rates of synonymous nucleotide substitutions in complementarity determining regions of variable regions, suggesting that diversity at antigen binding sites is enhanced by genomic and/or somatic selection. Results of Southern blot hybridization experiments were consistent with a translocon type of IgH gene organization reminiscent of bony fishes and tetrapods. J. Exp. Zool. (Mol. Dev. Evol.) 295B:45–58, 2003. © 2003 Wiley-Liss, Inc.

Published

2003

27. Cloning novel immune-type inhibitory receptors from the rainbow trout, Oncorhynchus mykiss

Author

Tatsuya Ota, Krista M. Nichols, Gail Mueller, Jeffrey A. Yoder, Gary W. Litman, Gary H. Thorgaard, and Sandra S. Ristow

Subjects

Cloning, Genetics, Sequence Homology, Amino Acid, Gene map, Phylogenetic tree, Lineage (evolution), Molecular Sequence Data, Immunology, Chromosome Mapping, Immunoglobulin domain, Biology, Species Specificity, Oncorhynchus mykiss, Animals, Rainbow trout, Amino Acid Sequence, RNA, Messenger, Cloning, Molecular, Receptors, Immunologic, Receptor, Gene, Phylogeny

Abstract

Novel immune-type receptor ( NITR) genes that encode two extracellular immunoglobulin domains and cytoplasmic immunoreceptor tyrosine-based inhibition motifs (ITIMs) have been described previously in three lineages of bony fish. In the current study, four ITIM-containing NITR cDNAs are identified in the rainbow trout ( Oncorhynchus mykiss), and their expression patterns and genomic complexity are characterized. The ITIM-containing NITR2 gene maps 1.3 cM from an ITIM-containing C-type lectin receptor ( TCL-2) on linkage group XXI. A comprehensive, phylogenetic analysis of NITRs from rainbow trout and three other major lineages of bony fish defines conserved families of NITRs and suggests an ancient lineage of distinct groups of genes. Several probable scenarios that explain the origins of variant forms of NITRs are described.

Published

2002

28. A case of post-BCG therapy renal granuloma concurrent with ureteral carcinoma

Author

Tatsuya Otaki, Nobuyuki Nakajima, and Akira Miyajima

Subjects

Bacillus calmette-guerin, Renal granuloma, Bladder cancer, Diseases of the genitourinary system. Urology, RC870-923

Abstract

Intravesical administration of Bacillus Calmette-Guerin (BCG) is recommended to reduce the risk of recurrence or progression of carcinoma in situ, stage Ta tumors of high grade, or stage T1 tumors. Renal complications following intravesical BCG therapy are rare. The mechanism of renal granuloma formation may be related to vesicoureteral reflux. Vesicoureteral reflux after transurethral resection of bladder tumors (TURBT) has been reported to be higher when the tumor is located near the ureteral orifice. Herein, we report a case of a renal granuloma after BCG therapy with concurrent ipsilateral urethral carcinoma.

Published

2023

29. ノトセニア亜目魚類をとりまく環境と進化（特集：科学はどう進んでいくのか / Part 2 新たな学問領域）

Author

Tatsuya, OTA

Published

2006

30. Genome complexity in the coelacanth is reflected in its adaptive immune system

Author

SAHA, Nil Ratan, OTA, Tatsuya, LITMAN, Gary W, HANSEN, John, PARRA, Zuly, HSU, Ellen, BUONOCORE, Francesco, CANAPA, Adriana, CHENG, Jan-Fang, AMEMIYA, Chris T, Nil Ratan, SAHA, Tatsuya, OTA, Gary W, LITMAN, John, HANSEN, Zuly, PARRA, Ellen, HSU, Francesco, BUONOCORE, Adriana, CANAPA, Jan-Fang, CHENG, and Chris T, AMEMIYA

Subjects

Coelacanth, immune receptor, Genes, Immunoglobulin, cluster of differentiation, Fishes, Receptors, Antigen, T-Cell, Exons, Adaptive Immunity, Synteny, Article, Major Histocompatibility Complex, V(D)J rearrangement, variable region, Immune System, cytokine, Animals, T-cell receptor, Immunoglobulin Light Chains, Immunoglobulin Heavy Chains, immunoglobulin, Phylogeny

Abstract

We have analyzed the available genome and transcriptome resources from the coelacanth in order to characterize genes involved in adaptive immunity. Two highly distinctive IgW-encoding loci have been identified that exhibit a unique genomic organization, including a multiplicity of tandemly repeated constant region exons. The overall organization of the IgW loci precludes typical heavy chain class switching. A locus encoding IgM could not be identified either computationally or by using several different experimental strategies. Four distinct sets of genes encoding Ig light chains were identified. This includes a variant sigma-type Ig light chain previously identified only in cartilaginous fishes and which is now provisionally denoted sigma-2. Genes encoding α/β and γ/δ T-cell receptors, and CD3, CD4, and CD8 co-receptors also were characterized. Ig heavy chain variable region genes and TCR components are interspersed within the TCR α/δ locus; this organization previously was reported only in tetrapods and raises questions regarding evolution and functional cooption of genes encoding variable regions. The composition, organization and syntenic conservation of the major histocompatibility complex locus have been characterized. We also identified large numbers of genes encoding cytokines and their receptors, and other genes associated with adaptive immunity. In terms of sequence identity and organization, the adaptive immune genes of the coelacanth more closely resemble orthologous genes in tetrapods than those in teleost fishes, consistent with current phylogenomic interpretations. Overall, the work reported described herein highlights the complexity inherent in the coelacanth genome and provides a rich catalog of immune genes for future investigations.

Published

2013

31. A nonradioactive method for improved restriction analysis and fingerprinting of large P1 artificial chromosome clones

Author

Tatsuya Ota and Chris T. Amemiya

Subjects

Cloning, Genetics, Plasmid, Restriction map, biology.protein, Restriction digest, Amplified fragment length polymorphism, Biology, Restriction fragment length polymorphism, Applied Microbiology and Biotechnology, Insert (molecular biology), Restriction fragment

Abstract

The P1 artificial chromosome (PAC) cloning system is very useful for physical mapping, however, the large insert sizes cause difficulty in routine restriction analysis. In order to facilitate restriction mapping and fingerprinting, we have developed a simple, nonradioactive method for end-labeling and detection of restriction fragments from PAC clones. This method is very easy to implement, gives good differentiation of restriction fragments, and uses comparatively small amounts of DNA. We have used this method for restriction analysis of PAC clones containing inserts from human as well as from lower vertebrates. The method should also be applicable to other large-insert plasmid systems.

Published

1996

32. Construction of a bacterial artificial chromosome library from the inshore hagfish, Eptatretus burgeri: A resource for the analysis of the agnathan genome

Author

SUZUKI, Takashi, OTA, Tatsuya, FUJIYAMA, Asao, KASAHARA, Masanori, Takashi, SUZUKI, Tatsuya, OTA, Asao, FUJIYAMA, and Masanori, KASAHARA

Subjects

Genetics, Chromosomes, Artificial, Bacterial, Bacterial artificial chromosome, Genome evolution, Genome, Base Sequence, Phylogenetic tree, biology, hagfish, General Medicine, genome evolution, biology.organism_classification, biology.animal, Eptatretus burgeri, jawless fishes, Animals, %22">Fish , Hagfishes, Molecular Biology, BAC library, DNA Primers, Hagfish

Abstract

The jawless fish occupy an important phylogenetic position for understanding the evolution of body plans, the origin of adaptive immunity and genome evolution in chordates. We describe here the construction of a large-insert bacterial artificial chromosome (BAC) library from the inshore hagfish, Eptatretus burgeri. The BAC library contains 93,978 clones with an average insert size of 100 kb and is estimated to represent threefold genome-equivalent coverage. The library was organized in three-dimensional pools to facilitate screening by PCR. We have screened this library by PCR and isolated several BAC clones; the average number of positive clones was compatible with the estimated genome coverage of the library. This BAC library, constructed for the first time from the jawless fish, should serve as a useful resource for the scientific community.

Published

2004

33. Erratum: Corrigendum: The spotted gar genome illuminates vertebrate evolution and facilitates human-teleost comparisons

Author

Han Wang, Peter F. Stadler, Angel Amores, Axel Meyer, Jean Nicolas Volff, Jeremy A. Johnson, Thomas Desvignes, Andrew R. Gehrke, Nil Ratan Saha, Michael S. Campbell, Mark Yandell, Kazuhiko Kawasaki, John H. Letaw, Felix E.G. Beaudry, John S. Taylor, Igor Schneider, Dustin J. Wcisel, Daniel Barrell, Cristian Cañestro, Quenton C. Fontenot, Julian M. Catchen, Kyle J. Martin, Chris T. Amemiya, Kerstin Lindblad-Toh, J. Joshua Smith, Yann Guiguen, John F Mulley, Jason Sydes, Bronwen Aken, Neil H. Shubin, Shaohua Fan, Allyse M. Ferrara, Masato Mikami, Tatsuya Ota, Ronda T. Litman, Jana Hertel, Tereza Manousaki, Aaron M. Berlin, Mikio Ishiyama, Federica Di Palma, Peter W. H. Holland, Mario Fasold, Jessica Alföldi, Jeremy Pasquier, Vydianathan Ravi, Gary W. Litman, Yi Sun, Tetsuya Nakamura, Stephen M. J. Searle, Louise Williams, Ingo Braasch, Peter Batzel, Alison P. Lee, Steffi Kehr, Julien Bobe, John H. Postlethwait, Domitille Chalopin, Byrappa Venkatesh, Jeffrey A. Yoder, Michael J. Beam, and Marcia Lara

Subjects

0301 basic medicine, Whole genome sequencing, Zoology, Vertebrate, Biology, biology.organism_classification, Genome, Spotted gar, 03 medical and health sciences, 030104 developmental biology, Evolutionary biology, biology.animal, Genetics, %22">Fish

Abstract

Nat. Genet. 48, 427–437 (2016); published online 7 March 2016; corrected after print 25 April 2016 As we intended, other researchers have been able to use the draft spotted gar genome sequence available from the Broad Institute website since December 2011, the assembly LepOcu1 publicly available from NCBI since 13 January 2012 under accession code GCA000242695.

Published

2016

34. S-LOCUS EARLY FLOWERING 3 is exclusively present in the genomes of short-styled buckwheat plants that exhibit heteromorphic self-incompatibility

Author

YASUI, Yasuo, MORI, Masashi, AII, Jotaro, ABE, Tomoko, MATSUMOTO, Daiki, SATO, Shingo, HAYASHI, Yoriko, OHNISHI, Ohmi, OTA, Tatsuya, Yasuo, YASUI, Masashi, MORI, Jotaro, AII, Tomoko, ABE, Daiki, MATSUMOTO, Shingo, SATO, Yoriko, HAYASHI, Ohmi, OHNISHI, and Tatsuya, OTA

Subjects

Candidate gene, Mutant, Cereals, lcsh:Medicine, Crops, Plant Science, Flowers, Biology, Plant Genetics, Genome, Homology (biology), Species Specificity, Genetic linkage, Genetics, Amino Acid Sequence, lcsh:Science, Gene, Plant Proteins, Multidisciplinary, RNA Plant, Gene Expression Profiling, Species Specificity ＜NLM MeSH Terms＞, fungi, lcsh:R, Botany, Self-Incompatibility in Flowering Plants, food and beverages, Agriculture, biology.organism_classification, Phenotype, Agronomy, Mutagenesis, RNA, Plant, lcsh:Q, Genome Plant, Fagopyrum, Genome, Plant, Research Article

Abstract

The different forms of flowers in a species have attracted the attention of many evolutionary biologists, including Charles Darwin. In Fagopyrum esculentum (common buckwheat), the occurrence of dimorphic flowers, namely short-styled and long-styled flowers, is associated with a type of self-incompatibility (SI) called heteromorphic SI. The floral morphology and intra-morph incompatibility are both determined by a single genetic locus named the S-locus. Plants with short-styled flowers are heterozygous (S/s) and plants with long-styled flowers are homozygous recessive (s/s) at the S-locus. Despite recent progress in our understanding of the molecular basis of flower development and plant SI systems, the molecular mechanisms underlying heteromorphic SI remain unresolved. By examining differentially expressed genes from the styles of the two floral morphs, we identified a gene that is expressed only in short-styled plants. The novel gene identified was completely linked to the S-locus in a linkage analysis of 1,373 plants and had homology to EARLY FLOWERING 3. We named this gene S-LOCUS EARLY FLOWERING 3 (S-ELF3). In an ion-beam-induced mutant that harbored a deletion in the genomic region spanning S-ELF3, a phenotype shift from short-styled flowers to long-styled flowers was observed. Furthermore, S-ELF3 was present in the genome of short-styled plants and absent from that of long-styled plants both in world-wide landraces of buckwheat and in two distantly related Fagopyrum species that exhibit heteromorphic SI. Moreover, independent disruptions of S-ELF3 were detected in a recently emerged self-compatible Fagopyrum species and a self-compatible line of buckwheat. The nonessential role of S-ELF3 in the survival of individuals and the prolonged evolutionary presence only in the genomes of short-styled plants exhibiting heteromorphic SI suggests that S-ELF3 is a suitable candidate gene for the control of the short-styled phenotype of buckwheat plants.

Published

2012

35. Comparative genomic analysis of the proteasome β5t subunit gene: implications for the origin and evolution of thymoproteasomes

Author

SUTOH, Yoichi, KONDO, Mizuho, OHTA, Yuko, OTA, Tatsuya, TOMARU, Utano, FLAJNIK, Martin F, KASAHARA, Masanori, Yoichi, SUTOH, Mizuho, KONDO, Yuko, OHTA, Tatsuya , OTA, Utano, TOMARU, Martin F, FLAJNIK, and Masanori, KASAHARA

Subjects

Models, Molecular, Proteasome Endopeptidase Complex, Protein subunit, Immunology, Molecular Sequence Data, PSMB5, Thymus Gland, Immunoproteasome, Article, Evolution, Molecular, PSMB11, β5t subunit, biology.animal, Endopeptidases, Genetics, Animals, Humans, Zebra finch, Gene, Zebrafish, Phylogeny, biology, Intron, Vertebrate, Genomics, Zebrafish Proteins, biology.organism_classification, Thymoproteasome, Protein Structure, Tertiary, Tandem exon duplication

Abstract

The thymoproteasome is a recently discovered, specialized form of 20S proteasomes expressed exclusively in the thymic cortex. Although the precise molecular mechanism by which the thymoproteasome exerts its function remains to be elucidated, accumulating evidence indicates that it plays a crucial role in positive selection of T cells. In the present study, we analyzed the evolution of the β5t subunit, a β-type catalytic subunit uniquely present in thymoproteasomes. The gene coding for the β5t subunit, designated PSMB11, was identified in the cartilaginous fish, the most divergent group of jawed vertebrates compared to the other jawed vertebrates, but not in jawless vertebrates or invertebrates. Interestingly, teleost fish have two copies of apparently functional PSMB11 genes, designated PSMB11a and PSMB11b, that encode β5t subunits with distinct amino acids in the S1 pocket. BLAST searches of genome databases suggest that birds such as chickens, turkey, and zebra finch lost the PSMB11 gene, and have neither thymoproteasomes nor immunoproteasomes. In mammals, reptiles, amphibians, and teleost fishes, the PSMB11 gene (the PSMB11a gene in teleost fish) is located next to the PSMB5 gene coding for the β5 subunit of the standard 20S proteasome, indicating that the PSMB11 gene arose by tandem duplication from the evolutionarily more ancient PSMB5 gene. The general absence of introns in PSMB11 and an unusual exon-intron structure of jawed vertebrate PSMB5 suggest that PSMB5 lost introns and duplicated in tandem in a common ancestor of jawed vertebrates, with PSMB5 subsequently gaining two introns and PSMB11 remaining intronless.

Published

2011

36. Construction of a BAC library for buckwheat genome research - an application to positional cloning of agriculturally valuable traits

Author

Yasuo, Yasui, Masashi, Mori, Daiki, Matsumoto, Ohmi, Ohnishi, Clayton G, Campbell, and Tatsuya, Ota

Subjects

Chromosomes, Artificial, Bacterial, DNA, Plant, Genetic Linkage, Gene Order, Cloning, Molecular, Genome, Plant, Fagopyrum, Gene Library

Abstract

We have constructed a BAC library for common buckwheat Fagopyrum esculentum Moench. The library includes 142,005 clones with an average insert size of approximately 76 kb, equivalent to approximately a 7 to approximately 8-fold coverage of the genome. Polymerase chain reaction based screening of the library with AGAMOUS and FLORICAULA/LEAFY primers, has identified 7 and 9 BACs, respectively, which are consistent with the genome coverage. This library represents the first large insert genomic library for F. esculentum and it can be served as a genetic resource facilitating agricultural, pharmacological, physiological, and evolutionary studies of the species. To demonstrate the utilization of the library for characterizing agriculturally valuable traits, we developed a sequence tagged site marker tightly linked to the dwarf E locus as well as to the self-incompatibility complex locus and screened the library to initiate positional cloning of the causative genes.

Published

2009

37. Support for Victims of Crime in Asia

Author

Tatsuya Ota

Subjects

Horizon (archaeology), Political science, Mathematical economics

Published

2007

38. T cells and the thymus in developing zebrafish

Author

Lisa A. Steiner, Valerie S. Hohman, Frank Sacher, Tatsuya Ota, Nadia Danilova, and Catherine E. Willett

Subjects

Embryo, Nonmammalian, T-Lymphocytes, Immunology, Molecular Sequence Data, Receptors, Antigen, T-Cell, Spleen, In situ hybridization, Thymus Gland, Biology, Recombination-activating gene, medicine, Animals, Amino Acid Sequence, Intestinal Mucosa, Zebrafish, In Situ Hybridization, Regulation of gene expression, Homeodomain Proteins, Mesonephros, T-cell receptor, Gene Expression Regulation, Developmental, biology.organism_classification, Molecular biology, Pronephros, Intestines, medicine.anatomical_structure, Developmental Biology

Abstract

The expression of genes encoding T cell receptor (TCR) alpha was used to follow the development of the thymus and to analyze the distribution of T cells in zebrafish. In the thymus, expression was first detected, by in situ hybridization, at four days post fertilization. In RNA extracted from whole fish, TCRalpha transcripts were also detected at four days and reached adult levels at three weeks. At six weeks, TCRalpha was expressed throughout the thymus, whereas rag1 expression was localized to the peripheral regions. Expression of TCRalpha outside the thymus was detected at nine days. In adult peripheral organs, the greatest expression was in the pronephros, mesonephros and intestine; expression in the spleen became greater as fish age. Three new, relatively highly expressed, TCR Valpha families were identified.

Published

2003

39. Lineage-restricted retention of a primitive immunoglobulin heavy chain isotype within the Dipnoi reveals an evolutionary paradox

Author

Chris T. Amemiya, Jonathan P. Rast, Tatsuya Ota, and Gary W. Litman

Subjects

DNA, Complementary, African lungfish, Lineage (evolution), Molecular Sequence Data, Evolution, Molecular, Phylogenetics, biology.animal, Animals, Amino Acid Sequence, Cloning, Molecular, Phylogeny, Gene Library, Protopterus, Genetics, Multidisciplinary, Sequence Homology, Amino Acid, biology, Fishes, Vertebrate, Biological Sciences, Blotting, Northern, biology.organism_classification, Isotype, Protein Structure, Tertiary, Immunoglobulin M, biology.protein, RNA, Immunoglobulin heavy chain, Immunoglobulin Heavy Chains, Caltech Library Services

Abstract

The lineage leading to lungfishes is one of the few major jawed vertebrate groups in which Ig heavy chain isotype structure has not been investigated at the genetic level. In this study, we have characterized three different Ig heavy chain isotypes of the African lungfish,Protopterus aethiopicus, including an IgM-type heavy chain and short and long forms of non-IgM heavy chains. Northern blot analysis as well as patterns of VHutilization suggest that the IgM and non-IgM isotypes are likely encoded in separate loci. The two non-IgM isotypes identified inProtopterusshare structural features with the short and long forms of IgX/W/NARC (referred to hereafter as IgW), which were previously considered to be restricted to the cartilaginous fish. It seems that the IgW isotype has a far broader phylogenetic distribution than considered originally and raises questions with regard to the origin and evolutionary divergence of IgM and IgW. Moreover, its absence in other gnathostome lineages implies paradoxically that the IgW-type genes were lost from teleost and tetrapod lineages.

Published

2003

40. Possible abscopal effect after discontinuation of nivolumab in metastatic renal cell carcinoma

Author

Nobuyuki Nakajima, Tatsuo Kano, Kazuya Oda, Takato Uchida, Tatsuya Otaki, Kentaro Nagao, Yuki Shimizu, Masayoshi Kawakami, Hakushi Kim, Masahiro Nitta, Masanori Hasegawa, Yoshiaki Kawamura, and Akira Miyajima

Subjects

abscopal effect, immune checkpoint inhibitor, programmed cell death‐1, radiotherapy, renal cell carcinoma, Diseases of the genitourinary system. Urology, RC870-923

Abstract

Introduction Renal cell carcinoma has been considered radioresistant. Recently, several studies have reported the efficacy of combination therapy using radiotherapy and immune checkpoint inhibitors. Case presentation In 1999, a 56‐year‐old woman underwent left nephrectomy (clear cell carcinoma, pT1bN0M0). Seventeen years postoperatively, recurrence in the left lung hilum was observed. Despite administration of three molecular target drugs, all treatments were terminated due to adverse events. Nivolumab was initiated in December 2016. In August 2017, subcutaneous and lung metastases were observed. Moreover in January 2018, right renal metastasis was noted. After 22 cycles of nivolumab treatment, metastasis in the iliac bone was observed, and the patient was subjected to conventional palliative external beam radiation therapy. Five months after radiotherapy, there was significant reduction in multiple metastases. Here, we reported the case presenting with possible abscopal effect. Conclusion Radiotherapy combined with immune checkpoint inhibitors may induce systemic effects against metastatic renal carcinoma.

Published

2020

41. Evolution of Vertebrate Immunoglobulin Variable Gene Segments

Author

Masatoshi Nei, T Sitnikova, and Tatsuya Ota

Subjects

Genetics, Immune system, Antigen, Effector, biology.protein, Antibody Diversity, Immunogenetics, Biology, Antibody, Gene, Function (biology)

Abstract

Immunoglobulins (Igs), also known as antibodies, play major roles in the verte- brate humoral immune system. They recognize and bind to foreign antigens, such as viruses, bacteria and parasites, and initiate a series of immunological responses (effector function). The dual function of the Ig protein is facilitated by its unique structure consisting of two functionally distinct domains, i.e., the variable (V) domain for antigen recognition and the constant (C) domain for effector function (Frazer and Capra 1998). Ig is generally composed of two identical heavy (IgH) and two identical light (IgL) chains, both of which contribute to the formation of V and C domains.

Published

2000

42. The 239AB gene on chromosome 22: a novel member of an ancient gene family

Author

Faina Schwartz and Tatsuya Ota

Subjects

TBX1, Adult, Transcription, Genetic, Chromosomes, Human, Pair 22, Molecular Sequence Data, Pair-rule gene, WAGR syndrome, Nerve Tissue Proteins, Biology, Polymerase Chain Reaction, Mice, Fetus, WAGR Syndrome, Pregnancy, Intellectual Disability, Gene cluster, Genetics, medicine, Gene family, Animals, Humans, Amino Acid Sequence, Caenorhabditis elegans, Gene, Phylogeny, Gene Library, Base Sequence, Chromosomes, Human, Pair 11, Brain, Chromosome Mapping, General Medicine, medicine.disease, Organ Specificity, Multigene Family, Human genome, Female, Chromosome 22, Chickens, Sequence Alignment

Abstract

A novel family of genes expressed in human brain has recently been identified. Gene 239FB, transcribed extensively in fetal brain, was isolated from the chromosome 11p13 region associated with mental retardation component of the WAGR (Wilms tumor, aniridia, genitourinary anomalies, mental retardation) syndrome. This report presents a cDNA sequence and expression profile of a related gene, 239AB, isolated from adult brain library, that was mapped to chromosome 22. While similar in structure, the two genes differ in their expression pattern and may have different roles in central nervous system development and function. In contrast to the 239FB, which is expressed predominantly in fetal brain, the 239AB gene is transcribed in adult tissues. Both human genes encode novel proteins of unknown function that are highly conserved from Caenorhabditis elegans to birds and mammals. Phylogenetic analysis suggested that the two lineages of the ancient gene family represented by 239FB and 239AB have been in existence prior to the emergence of modern animals.

Published

1997

43. Characterization of two mannose-binding protein cDNAs from rhesus monkey (Macaca mulatta): structure and evolutionary implications

Author

Alfred I. Tauber, Kedernath N. Sastry, Tatsuya Ota, and Tirsit Mogues

Subjects

DNA, Complementary, Pan troglodytes, Sequence analysis, Molecular Sequence Data, Enzyme-Linked Immunosorbent Assay, Biochemistry, Mannose-Binding Lectin, Mice, biology.animal, Complementary DNA, Animals, Humans, Primate, Genomic library, Amino Acid Sequence, Peptide sequence, Gene, Phylogeny, Gene Library, chemistry.chemical_classification, biology, Sequence Homology, Amino Acid, cDNA library, Sequence Analysis, DNA, Molecular biology, Macaca mulatta, Recombinant Proteins, Amino acid, Rats, Macaca fascicularis, chemistry, Macaca, Carrier Proteins, Mannose

Abstract

Mannose-binding proteins (MBPs), members of the collectin family, have been implicated as lectin opsonins for various viruses and bacteria. Two distinct but related MBPs, MBP-A and MBP-C, with approximately 55% identity at the amino acid level, have been previously characterized from rodents. In humans, however, only one form of MBP has been characterized. In this paper we report studies elucidating the evolution of primate MBPs. ELISA and Western blot analyses indicated that rhesus and cynomolgus monkeys have two forms of MBP in their sera, while chimpanzees have only one form, similar to humans. Two distinct MBP cDNA clones were isolated and characterized from a rhesus monkey liver cDNA library. Rhesus MBP-A is closely related to the mouse and rat MBP-A, showing 77% and 75% identity at the amino acid level, respectively. Rhesus MBP-A also has three cysteines at the N-terminus, similar to mouse and rat MBP-A and human MBP. Rhesus MBP-C shares 90% identity with the human MBP at the amino acid level and has three cysteines at the N-terminus, in contrast to two cysteine residues found in rodent MBP-C. A stretch of nine amino acids close to the N-terminus, absent in both mouse and rat MBP-A, but present in rodent MBP-C, chicken and human MBPs, is also found in the rhesus MBP-A. The phylogenetic analysis of rhesus and other mammalian MBPs, coupled with the serological data suggest that at least two distinct MBP genes existed prior to mammalian radiation and the hominoid ancestor apparently lost one of these genes or failed to express it.

Published

1996

44. Contributors

Author

Christopher T. Amemiya, Chaz Andre, Louis Bernier, Bruce Birren, Ken Dewar, Rainer Fislage, Martin Ganal, Caroline S. Gerrad, Richard Herrmann, Jrg D. Hoheisel, Adam Kuspa, Eric Lai, Richard W.F. Le Page, Jennifer S. Lee, Hans Lehrach, Roger C. Levesque, Gary W. Litman, William F. Loomis, Elmar Maier, Sara E. Melville, Michele Morgante, S.P. Morzaria, Richard Mott, Tatsuya Ota, Wayne Powell, J. Antoni Rafalski, Ute Römling, Nancy S. Shepherd, Scott V. Tingey, Burkhard Tümmler, Julie M. Vogel, and Rainer Wenzel

Published

1996

45. Construction of P1 Artificial Chromosome (PAC) Libraries from Lower Vertebrates

Author

Christopher T. Amemiya, Gary W. Litman, and Tatsuya Ota

Subjects

Genetics, Bacterial artificial chromosome, endocrine system diseases, education, food and beverages, Locus (genetics), Genomics, Biology, humanities, Restriction enzyme, Restriction site, chemistry.chemical_compound, chemistry, health services administration, Gene, DNA

Abstract

This chapter discusses construction of P1 artificial chromosome (PAC) libraries from lower vertebrates. Both the P1 artificial chromosome (PAC) and F-factor-based bacterial artificial chromosome (BAC) systems allow cloning and propagation of relatively large DNA fragments. The protocols described have been found to be effective for generating PAC libraries from lower species and for rapidly characterizing PAC clones. PAC system was used for examining extended loci of the rearranging genes in several species, including both teleosts and chondrichthyians. The efficiency with which PAC clones are generated is determined, in part, by the frequency of large, intramolecular ligation. It is found that if the clone contains a known gene or marker, the membrane also can be hybridized to this probe in order to orient the locus within the clone. It is useful both to construct maps for several restriction enzymes and to conduct double digests to corroborate the inferred order of restriction sites. The PAC cloning system also should prove to be useful for addressing a range of genomics problems that are unique to lower vertebrates and to other non-mammalian species.

Published

1996

46. Positive selection is a general phenomenon in the evolution of abalone sperm lysin

Author

Victor D. Vacquier, Tatsuya Ota, and Youn-Ho Lee

Subjects

Male, DNA, Complementary, Molecular Sequence Data, Lysin, Vitelline membrane, Biology, complex mixtures, Mucoproteins, Species Specificity, Genetics, Animals, Point Mutation, Amino Acid Sequence, Selection, Genetic, Clade, Molecular Biology, Ecology, Evolution, Behavior and Systematics, Selection (genetic algorithm), Base Composition, Polymorphism, Genetic, Phylogenetic tree, Sequence Homology, Amino Acid, Ecology, Reproductive isolation, Sequence Analysis, DNA, Sperm, Biological Evolution, Spermatozoa, Evolutionary biology, Genetic Code, Mollusca, Codon usage bias

Abstract

Lysin is a 16kDa acrosomal protein used by abalone sperm to create a hole in the egg vitelline envelope (VE). The interaction of lysin with the VE is species-selective and is one step in the multistep fertilization process that restricts heterospecific (cross-species) fertilization. For this reason, the evolution of lysin could play a role in establishing prezygotic reproductive isolation between species. Previously, we sequenced sperm lysin cDNAs from seven California abalone species and showed that positive Darwinian selection promotes their divergence. In this paper an additional 13 lysin sequences are presented representing species from Japan, Taiwan, Australia, New Zealand, South Africa, and Europe. The total of 20 sequences represents the most extensive analysis of a fertilization protein to date. The phylogenetic analysis divides the sequences into two major clades, one composed of species from the northern Pacific (California and Japan) and the other composed of species from other parts of the world. Analysis of nucleotide substitution demonstrates that positive selection is a general process in the evolution of this fertilization protein. Analysis of nucleotide and codon usage bias shows that neither parameter can account for the robust data supporting positive selection. The selection pressure responsible for the positive selection on lysin remains unknown.

Published

1995

47. Evolution of immunoglobulin VH pseudogenes in chickens

Author

Tatsuya Ota and Masatoshi Nei

Subjects

Nonsynonymous substitution, Pseudogene, Xenopus, Molecular Sequence Data, Immunoglobulin Variable Region, Biology, Mice, Sequence Homology, Nucleic Acid, Gene cluster, Meiotic gene conversion, Gene duplication, Genetics, Gene family, Animals, Humans, Gene conversion, Molecular Biology, Ecology, Evolution, Behavior and Systematics, Phylogeny, Base Sequence, Genes, Immunoglobulin, Hominidae, Biological Evolution, Synonymous substitution, Immunoglobulin Heavy Chains, Chickens, Pseudogenes, Antibody Diversity

Abstract

In chickens, there is a single functional gene (VH1) coding for the heavy chain variable region of immunoglobulins, and immunoglobulin diversity is generated by gene conversion of the VH1 gene by many variable region pseudogenes (psi VH's) that exist on the 5' side of the VH1 gene. To understand the evolution of this unique genetic system, we conducted statistical analyses of VH1 and psi VH genes together with functional VH genes from other higher vertebrate species. The results indicate, first, that chicken VH genes are all closely related to one another and were derived relatively recently from an ancestral gene belonging to one of the three major groups of VH genes in higher vertebrates. Second, the rate of nonsynonymous substitution is slightly higher than that of synonymous substitution in the complementarity-determining regions (CDRs), which suggests that diversity-enhancing selection has operated in the CDRs even for pseudogenes. However, both the rates of synonymous and nonsynonymous substitution are higher in the CDRs than in the framework regions (FRs), apparently because of an interaction between positive selection and meiotic gene conversion in the CDRs. Third, a dot matrix analysis of the psi VH genes and genomic diversity (D) genes has indicated that the 3' end of psi VH genes is attached by D-gene-like sequences, and this region of psi VH genes has high similarity with D gene sequences. This suggests that V and D genes were fused at some point of evolutionary time and this fused element multiplied by gene duplication. Finally, two alternative hypotheses of explaining the evolution of the chicken VH gene system are presented.

Published

1995

48. Variance and covariances of the numbers of synonymous and nonsynonymous substitutions per site

Author

Tatsuya Ota and Masatoshi Nei

Subjects

Nonsynonymous substitution, Genetics, Models, Genetic, Phylogenetic tree, Variance (accounting), Covariance, Biology, Ka/Ks ratio, Mutation, Mutation (genetic algorithm), Statistics, Computer Simulation, Statistical analysis, Selection, Genetic, Molecular Biology, Ecology, Evolution, Behavior and Systematics

Abstract

Nei and Gojobori (1986) developed a simple method to estimate the numbers of synonymous (ds) and nonsynonymous (dN) substitutions per site. In the present paper, we have developed a method for computing variances and covariances of ds's and dN's and of the proportions of synonymous (ps) and nonsynonymous (pN) differences. We also have developed a method for computing the variances of mean dS, dN, pS, pN, without constructing a phylogenetic tree of the genes. We have conducted computer simulations based on simple evolutionary models and have shown that the new method gives good estimates of variances and covariances.

Published

1994

49. Estimation of the number of amino acid substitutions per site when the substitution rate varies among sites

Author

Masatoshi Nei and Tatsuya Ota

Subjects

Genetics, chemistry.chemical_classification, chemistry, Molecular evolution, Substitution (logic), Statistical analysis, Computational biology, Biology, Molecular Biology, Ecology, Evolution, Behavior and Systematics, Amino acid

Published

1994

50. Immunoglobulin light chain class multiplicity and alternative organizational forms in early vertebrate phylogeny

Author

Ronda T. Litman, Martin Margittai, Michele K. Anderson, M. J. Shamblott, Jonathan P. Rast, Gary W. Litman, and Tatsuya Ota

Subjects

Immunology, Molecular Sequence Data, Immunoglobulin light chain, Homology (biology), Phylogenetics, biology.animal, Genetics, Gene family, Animals, Humans, Amino Acid Sequence, Skates, Fish, Cloning, Molecular, Gene, Peptide sequence, Phylogeny, biology, Base Sequence, Genes, Immunoglobulin, Hydrolagus, Fishes, Vertebrate, Sequence Analysis, DNA, biology.organism_classification, Germ Cells, Multigene Family, Vertebrates, Sharks, Immunoglobulin Light Chains

Abstract

The prototypic chondrichthyan immunoglobulin (Ig) light chain type (type I) isolated from Heterodontus francisci (horned shark) has a clustered organization in which variable (V), joining (J), and constant (C) elements are in relatively close linkage (V-J-C). Using a polymerase chain reaction-based approach on a light chain peptide sequence from the holocephalan, Hydrolagus colliei (spotted ratfish), it was possible to isolate members of a second light chain gene family. A probe to this light chain (type II) detects homologs in two orders of elasmobranchs, Heterodontus, a galeomorph and Raja erinacea (little skate), a batoid, suggesting that this light chain type may be present throughout the cartilaginous fishes. In all cases, V, J, and C regions of the type II gene are arranged in closely linked clusters typical of all known Ig genes in cartilaginous fishes. All representatives of this type II gene family are joined in the germline. A third (kappa-like) light chain type from Heterodontus is described. These findings establish that a degree of light chain class complexity comparable to that of the mammals is present in the most phylogenetically distant extant jawed vertebrates and that the phenomenon of germline-joined (pre-rearranged) genes, described originally in the heavy chain genes of cartilaginous fishes, extends to light chain genes.

Published

1994