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index medicus (7) 7
animals (6) 6
immunology (5) 5
bony fish (3) 3
evolution (3) 3
fishes - genetics (3) 3
genes (3) 3
genetic research (3) 3
genome (3) 3
genomes (3) 3
genomics (3) 3
haplotypes (3) 3
life sciences (3) 3
mhc class-i (3) 3
novel immune-type receptors (3) 3
rainbow-trout (3) 3
receptors, immunologic - genetics (3) 3
zebrafish - genetics (3) 3
zebrafish - immunology (3) 3
zebrafish proteins - genetics (3) 3
zebrafish proteins - immunology (3) 3
antigens (2) 2
biological evolution (2) 2
channel catfish (2) 2
developmental biology (2) 2
diverse immunoglobulin domain containing proteins (2) 2
fishes - immunology (2) 2
genetic aspects (2) 2
genetics & heredity (2) 2
ictalurus-punctatus (2) 2
immunity, innate (2) 2
immunoglobulin-like transcripts (2) 2
novel immunoglobulin-like transcripts (2) 2
polymeric immunoglobulin receptor-like proteins (2) 2
receptors, immunologic - immunology (2) 2
teleost (2) 2
transcriptome (2) 2
vertebrates (2) 2
zebrafish (2) 2
zoology (2) 2
1-methyl-3-phenyl-5-3-phe-nyl-41h-pyridinone (1) 1
[sdv]life sciences [q-bio] (1) 1
actinopterygii (1) 1
amino acid sequence (1) 1
analyse du transcriptome (1) 1
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analyse phylogénétique (1) 1
analysis (1) 1
ancestral vertebrate (1) 1
ancient allelic lineages (1) 1
animal models in research (1) 1
anopheles (1) 1
antigen presentation (1) 1
aquarium trade (1) 1
aquatic herbicide (1) 1
aquatic plants (1) 1
aquatic resources (1) 1
article (1) 1
atlantic salmon (1) 1
basic medicine (1) 1
biodiversity conservation (1) 1
biological invasions (1) 1
biological sciences (1) 1
biology (1) 1
biomedical research (1) 1
carp (1) 1
caulerpa (1) 1
cell-receptor (1) 1
cg2 clonal zebrafish (1) 1
chemical and pharmacologic phenomena (1) 1
chromosome (1) 1
chromosomes (1) 1
cloning, organism (1) 1
coevolution (1) 1
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cysteine endopeptidases - classification (1) 1
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diverse immunoglobulin domain-containing proteins (1) 1
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1. Full Text The spotted gar genome illuminates vertebrate evolution and facilitates human-teleost comparisons
by Braasch, Ingo and Gehrke, Andrew R and Smith, Jeramiah J and Kawasaki, Kazuhiko and Manousaki, Tereza and Pasquier, Jeremy and Amores, Angel and Desvignes, Thomas and Batzel, Peter and Catchen, Julian and Berlin, Aaron M and Campbell, Michael S and Barrell, Daniel and Martin, Kyle J and Mulley, John F and Ravi, Vydianathan and Lee, Alison P and Nakamura, Tetsuya and Chalopin, Domitille and Fan, Shaohua and Wcisel, Dustin and Caestro, Cristian and Sydes, Jason and Beaudry, Felix E.G and Sun, Yi and Hertel, Jana and Beam, Michael J and Fasold, Mario and Ishiyama, Mikio and Johnson, Jeremy and Kehr, Steffi and Lara, Marcia and Letaw, John H and Litman, Gary W and Litman, Ronda T and Mikami, Masato and Ota, Tatsuya and Saha, Nil Ratan and Williams, Louise and Stadler, Peter F and Wang, Han and Taylor, John S and Fontenot, Quenton and Ferrara, Allyse and Searle, Stephen M.J and Aken, Bronwen and Yandell, Mark and Schneider, Igor and Yoder, Jeffrey A and Volff, Jean-Nicolas and Meyer, Axel and Amemiya, Chris T and Venkatesh, Byrappa and Holland, Peter W.H and Guiguen, Yann and Bobe, Julien and Shubin, Neil H and Di Palma, Federica and Alföldi, Jessica and Lindblad-Toh, Kerstin and Postlethwait, John H and Medicinska fakulteten and Science for Life Laboratory, SciLifeLab and Medicinska och farmaceutiska vetenskapsområdet and Institutionen för medicinsk biokemi och mikrobiologi and Uppsala universitet
Nature Genetics, ISSN 1061-4036, 03/2016, Volume 48, Issue 4, pp. 427 - 437
To connect human biology to fish biomedical models, we sequenced the genome of spotted gar (Lepisosteus oculatus), whose lineage diverged from teleosts before... 
MHC CLASS-I | PROVIDES INSIGHTS | COMPLEX-CLASS-I | ANCESTRAL VERTEBRATE | GENE NOMENCLATURE | GENETICS & HEREDITY | TRANSPOSABLE ELEMENTS | RAY-FINNED FISH | BONY FISH | HOX GENES | COMPREHENSIVE ANALYSIS | Fishes - genetics | Fishes - metabolism | Animals | Humans | Transcriptome | Female | Models, Genetic | Genome | Organ Specificity | Sequence Analysis, DNA | Karyotype | Evolution, Molecular | Genetic research | Evolutionary genetics | Genotype | Genetic aspects | Research | Teleostei | Identification and classification | Proteins | Hypotheses | Biomedical research | Councils | Genomics | Zebrafish | Evolution | Biology | Genomes | Grants | Gene expression | Chromosomes | Models animals en la investigació | Animal models in research | Teleostis | Life Sciences | GWAS | comparative medicine | zebrafish | polyploidy | medaka | neofunctionalization | Basic Medicine | Medical Genetics | Medicinsk genetik | Medical and Health Sciences | Medicin och hälsovetenskap | Medicinska och farmaceutiska grundvetenskaper
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2. Full Text Alternative haplotypes of antigen processing genes in zebrafish diverged early in vertebrate evolution
by Sean C. McConnell and Kyle M. Hernandez and Dustin J. Wcisel and Ross N. Kettleborough and Derek L. Stemple and Jeffrey A. Yoder and Jorge Andrade and Jill L. O. de Jong
Proceedings of the National Academy of Sciences of the United States of America, ISSN 0027-8424, 8/2016, Volume 113, Issue 34, pp. E5014 - E5023
Antigen processing and presentation genes found within the MHC are among the most highly polymorphic genes of vertebrate genomes, providing populations with... 
Comparative genomics | Proteasome and TAP evolution | CG2 clonal zebrafish | MHC class I pathway | Major histocompatibility | COEVOLUTION | GENOMIC ORGANIZATION | MULTIDISCIPLINARY SCIENCES | IDENTIFICATION | comparative genomics | REGION | MHC CLASS-I | PRIMITIVE VERTEBRATES | proteasome and TAP evolution | ORIGIN | major histocompatibility | PROTEASOME | SEQUENCE | ANCIENT ALLELIC LINEAGES | Haplotypes | Zebrafish Proteins - classification | Zebrafish - immunology | Transcriptome | Phylogeny | Zebrafish - classification | Antigen Presentation | Protein Isoforms - classification | Zebrafish Proteins - immunology | Proteasome Endopeptidase Complex - immunology | Cloning, Organism | Histocompatibility Antigens Class I - immunology | Histocompatibility Antigens Class I - genetics | Zebrafish - genetics | Biological Evolution | Proteasome Endopeptidase Complex - genetics | Animals | Cysteine Endopeptidases - genetics | Histocompatibility Antigens Class I - classification | High-Throughput Nucleotide Sequencing | Zebrafish Proteins - genetics | Genome | Protein Isoforms - immunology | Cysteine Endopeptidases - classification | Cysteine Endopeptidases - immunology | Protein Isoforms - genetics | Antigens | Genetic aspects | Observations | Health aspects | Zebra fish | Biological Sciences | PNAS Plus
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3. Full Text The confounding complexity of innate immune receptors within and between teleost species
by Wcisel, Dustin J and Yoder, Jeffrey A
Fish and Shellfish Immunology, ISSN 1050-4648, 06/2016, Volume 53, pp. 24 - 34
Teleost genomes encode multiple multigene families of immunoglobulin domain-containing innate immune receptors (IIIRs) with unknown function and no clear... 
Gene content haplotype | Diverse immunoglobulin domain containing proteins | Novel immunoglobulin-like transcripts | Novel immune-type receptors | Polymeric immunoglobulin receptor-like proteins | DISPARATE DISTRIBUTION | CHANNEL CATFISH | RAINBOW-TROUT | ONCORHYNCHUS-MYKISS | ICTALURUS-PUNCTATUS | IG-LIKE DOMAINS | IMMUNOLOGY | IMMUNOGLOBULIN-LIKE TRANSCRIPTS | VARIABLE DOMAINS | GENETIC DIVERSITY | FISHERIES | MULTIGENE FAMILIES | MARINE & FRESHWATER BIOLOGY | VETERINARY SCIENCES | Genetic Variation | Fishes - genetics | Animals | Genome | Immunity, Innate | Receptors, Immunologic - genetics | Fishes - immunology | Tyrosine | Fc receptors | Killer cells | Anopheles | Phosphoproteins | Analysis | Genes | Genomics | Evolution
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4. Full Text Conference report: The 14th congress of the International Society of Developmental and Comparative Immunology
by Abernath, Kelsey and Banach, Maureen and Barela Hudgell, Megan A and Blackmon, Laura E and Breaux, Breanna and Brusch, George A and Criscitiello, Michael F and Deiss, Thaddeus C and Ding, Yang and Flowers, Emily and Kenney, Eric and Matz, Hanover and Modak, Tejashree and Ott, Jeannine and Rhoo, Kun Hyoe and Rusnak, Elana D and Shibasaki, Yasuhiro and Tassia, Michael G and Wcisel, Dustin and Yaparla, Amulya
Developmental and Comparative Immunology, ISSN 0145-305X, 07/2019, Volume 96, pp. 83 - 92
Medical colleges | Conferences, meetings and seminars | Comparative analysis | Political aspects | Conferences and conventions | Trade and professional associations | Mentors | Immunology
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5. Full Text An Evolutionary Perspective of Innate Immune Receptor Diversity
by Wcisel, Dustin
01/2017, ISBN 9780355635775
The zebrafish (Danio rerio) is a useful model for studying gene function and evolution and has recently gained momentum as a model for studying the... 
Immunology | Genetics
Dissertation
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6. Full Text The identification of additional zebrafish DICP genes reveals haplotype variation and linkage to MHC class I genes
by Rodriguez-Nunez, Ivan and Wcisel, Dustin J and Litman, Ronda T and Litman, Gary W and Yoder, Jeffrey A
Immunogenetics, ISSN 0093-7711, 04/2016, Volume 68, Issue 4, pp. 295 - 312
Bony fish encode multiple multi-gene families of membrane receptors that are comprised of immunoglobulin (Ig) domains and are predicted to function in innate... 
Innate immunity | Immune receptor | Haplotype | Immunoglobulin domain | Polymorphism | LIGAND-BINDING | MODEL | IMMUNOLOGY | CYPRINUS-CARPIO | FAMILY | GENOME SEQUENCE | IMMUNE-SYSTEM | NONSENSE-MEDIATED DECAY | GENETICS & HEREDITY | TELEOST FISH | COPY NUMBER VARIATION | CELL-RECEPTOR | Haplotypes | Lipids - genetics | Zebrafish - immunology | Genes, MHC Class I - genetics | Immunoglobulins - genetics | Immunity, Innate | Zebrafish - growth & development | Zebrafish - genetics | Animals | Gene Expression Regulation, Developmental | Genes, MHC Class I - immunology | Zebrafish Proteins - immunology | Receptors, Immunologic - immunology | Zebrafish Proteins - genetics | Receptors, Immunologic - genetics | Genetic Linkage | Embryonic development | Carp | Fishes | Genes | Genomics | Genetic research | Genetic polymorphisms
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7. Full Text Loopholes in the regulation of invasive species: genetic identifications identify mislabeling of prohibited aquarium plants
by Thum, Ryan A and Thum, Ryan A and Mercer, Amanda T and Mercer, Amanda T and Wcisel, Dustin J and Wcisel, Dustin J
Biological Invasions, ISSN 1387-3547, 5/2012, Volume 14, Issue 5, pp. 929 - 937
Numerous invasive aquatic species introductions can be traced to the aquarium trade. Many potentially harmful aquarium species may be difficult to identify... 
Life Sciences | Myriophyllum | Taxonomy | Aquarium trade | Freshwater & Marine Ecology | Water gardening | ITS | Ecology | Developmental Biology | Plant Sciences | Invasion | BIOLOGICAL INVASIONS | E-COMMERCE | PATHWAY | ECOLOGY | CAULERPA | BIODIVERSITY CONSERVATION | Genetic research | Invasive species | Aquatic resources | Plant introductions | Morphology | Aquatic plants | Nonnative species
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8. Full Text Spotted Gar and the Evolution of Innate Immune Receptors
: SPOTTED GAR INNATE IMMUNE RECEPTORS
by Wcisel, Dustin J and Ota, Tatsuya and Litman, Gary W and Yoder, Jeffrey A
Journal of Experimental Zoology Part B: Molecular and Developmental Evolution, ISSN 1552-5007, 11/2017, Volume 328, Issue 7, pp. 666 - 684
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9. Full Text Spotted Gar and the Evolution of Innate Immune Receptors
by Wcisel, Dustin J and Ota, Tatsuya and Litman, Gary W and Yoder, Jeffrey A
Journal of Experimental Zoology Part B: Molecular and Developmental Evolution, ISSN 1552-5007, 11/2017, Volume 328, Issue 7, pp. 666 - 684
ABSTRACT The resolution of the gar genome affords an opportunity to examine the diversification and functional specialization of immune effector molecules at a... 
CHANNEL CATFISH | RAINBOW-TROUT | BONY FISH | FUNCTIONAL-CHARACTERIZATION | ICTALURUS-PUNCTATUS | DEVELOPMENTAL BIOLOGY | IMMUNOGLOBULIN-LIKE TRANSCRIPTS | MHC CLASS-I | GENOME DUPLICATION | EVOLUTIONARY BIOLOGY | ZOOLOGY | TOLL-LIKE RECEPTORS | LIPOPOLYSACCHARIDE LPS | Biological Evolution | Amino Acid Sequence | Fishes - genetics | Animals | Gene Expression Regulation - immunology | Immunity, Innate - physiology | Immunity, Innate - genetics | Fishes - immunology | Toll-like receptors | novel immune-type receptors | diverse immunoglobulin domain-containing proteins | Holostei | teleost | Actinopterygii
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10. Alternative haplotypes of antigen processing genes in zebrafish diverged early in vertebrate evolution
by Sean C McConnell and Kyle M Hernandez and Dustin J Wcisel and Ross N Kettleborough and Derek L Stemple and Jeffrey A Yoder and Jorge Andrade and Jill L O de Jong
Proceedings of the National Academy of Sciences of the United States of America, ISSN 0027-8424, 08/2016, Volume 113, Issue 34, p. E5014
  Antigen processing and presentation genes found within the MHC are among the most highly polymorphic genes of vertebrate genomes, providing populations with... 
Antigens | Vertebrates | Genes | Zebrafish | Evolution | Genomes
Journal Article
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11. Alternative haplotypes of antigen processing genes in zebrafish diverged early in vertebrate evolution
by McConnell, Sean C and Hernandez, Kyle M and Wcisel, Dustin J and Kettleborough, Ross N and Stemple, Derek L and Yoder, Jeffrey A and Andrade, Jorge and de Jong, Jill L O
Proceedings of the National Academy of Sciences, USA, ISSN 0027-8424, 08/2016, Volume 113, Issue 34, pp. E5014 - E5014
Antigen processing and presentation genes found within the MHC are among the most highly polymorphic genes of vertebrate genomes, providing populations with... 
Journal Article
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12. Full Text Multigene families of immunoglobulin domain-containing innate immune receptors in zebrafish: Deciphering the differences
by Rodríguez-Nunez, Iván and Wcisel, Dustin J and Litman, Gary W and Yoder, Jeffrey A
Developmental and Comparative Immunology, ISSN 0145-305X, 09/2014, Volume 46, Issue 1, pp. 24 - 34
Five large multigene families encoding innate-type immune receptors that are comprised of immunoglobulin domains have been identified in bony fish, of which... 
Diverse immunoglobulin domain containing proteins | Novel immunoglobulin-like transcripts | Leukocyte immune-type receptors | Novel immune-type receptors | Polymeric immunoglobulin receptor-like proteins | IMMUNOREGULATORY RECEPTORS | RAINBOW-TROUT | MUCOSAL IMMUNITY | BONY FISH | IMMUNOLOGY | MOLECULES | ZOOLOGY | GENE-CLUSTER | POLYMERIC IG RECEPTOR | SURFACE-RECEPTORS | PROTEIN-TYROSINE-PHOSPHATASE | ATLANTIC SALMON | Haplotypes | Receptors, Immunologic - chemistry | Animals | Zebrafish - immunology | Zebrafish Proteins - chemistry | Zebrafish Proteins - immunology | Receptors, Immunologic - immunology | Zebrafish Proteins - genetics | Receptors, Immunologic - genetics | Zebrafish - genetics | Immunoglobulins
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13. Full Text Erratum: The spotted gar genome illuminates vertebrate evolution and facilitates human-teleost comparisons (Nature Genetics (2016) 48 (427-437))
by Braasch, Ingo and Gehrke, Andrew R and Smith, Jeramiah J and Kawasaki, Kazuhiko and Manousaki, Tereza and Pasquier, Jeremy and Amores, Angel and Desvignes, Thomas and Batzel, Peter and Catchen, Julian and Berlin, Aaron M and Campbell, Michael S and Barrell, Daniel and Martin, Kyle J and Mulley, John F and Ravi, Vydianathan and Lee, Alison P and Nakamura, Tetsuya and Chalopin, Domitille and Fan, Shaohua and Wcisel, Dustin and Cañestro, Cristian and Sydes, Jason and Beaudry, Felix E G and Sun, Yi and Hertel, Jana and Beam, Michael J and Fasold, Mario and Ishiyama, Mikio and Johnson, Jeremy and Kehr, Steffi and Lara, Marcia and Letaw, John H and Litman, Gary W and Litman, Ronda T and Mikami, Masato and Ota, Tatsuya and Saha, Nil Ratan and Williams, Louise and Stadler, Peter F and Wang, Han and Taylor, John S and Fontenot, Quenton and Ferrara, Allyse and Searle, Stephen M J and Aken, Bronwen and Yandell, Mark and Schneider, Igor and Yoder, Jeffrey A and Volff, Jean-Nicolas and Meyer, Axel and Amemiya, Chris T and Venkatesh, Byrappa and Holland, Peter W.H and Guiguen, Yann and Bobe, Julien and Shubin, Neil H and Di Palma, Federica and Alföldi, Jessica and Lindblad-Toh, Kerstin and Postlethwait, John H
Nature Genetics, ISSN 1061-4036, 06/2016, Volume 48, Issue 6, p. 700
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14. Full Text Corrigendum: The spotted gar genome illuminates vertebrate evolution and facilitates human-teleost comparisons
by Braasch, Ingo and Gehrke, Andrew R and Smith, Jeramiah J and Kawasaki, Kazuhiko and Manousaki, Tereza and Pasquier, Jeremy and Amores, Angel and Desvignes, Thomas and Batzel, Peter and Catchen, Julian and Berlin, Aaron M and Campbell, Michael S and Barrell, Daniel and Martin, Kyle J and Mulley, John F and Ravi, Vydianathan and Lee, Alison P and Nakamura, Tetsuya and Chalopin, Domitille and Fan, Shaohua and Wcisel, Dustin and Cañestro, Cristian and Sydes, Jason and Beaudry, Felix E G and Sun, Yi and Hertel, Jana and Beam, Michael J and Fasold, Mario and Ishiyama, Mikio and Johnson, Jeremy and Kehr, Steffi and Lara, Marcia and Letaw, John H and Litman, Gary W and Litman, Ronda T and Mikami, Masato and Ota, Tatsuya and Saha, Nil Ratan and Williams, Louise and Stadler, Peter F and Wang, Han and Taylor, John S and Fontenot, Quenton and Ferrara, Allyse and Searle, Stephen M J and Aken, Bronwen and Yandell, Mark and Schneider, Igor and Yoder, Jeffrey A and Volff, Jean-Nicolas and Meyer, Axel and Amemiya, Chris T and Venkatesh, Byrappa and Holland, Peter W H and Guiguen, Yann and Bobe, Julien and Shubin, Neil H and Di Palma, Federica and Alfo Ldi, Jessica and Lindblad-Toh, Kerstin and Postlethwait, John H
Nature genetics, ISSN 1061-4036, 05/2016, Volume 48, Issue 6, pp. 700 - 700
  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... 
Genomes | Life Sciences
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15. Full Text Erratum: Corrigendum: The spotted gar genome illuminates vertebrate evolution and facilitates human-teleost comparisons
by Braasch, Ingo and Gehrke, Andrew R and Smith, Jeramiah J and Kawasaki, Kazuhiko and Manousaki, Tereza and Pasquier, Jeremy and Amores, Angel and Desvignes, Thomas and Batzel, Peter and Catchen, Julian and Berlin, Aaron M and Campbell, Michael S and Barrell, Daniel and Martin, Kyle J and Mulley, John F and Ravi, Vydianathan and Lee, Alison P and Nakamura, Tetsuya and Chalopin, Domitille and Fan, Shaohua and Wcisel, Dustin and Cañestro, Cristian and Sydes, Jason and Beaudry, Felix E G and Sun, Yi and Hertel, Jana and Beam, Michael J and Fasold, Mario and Ishiyama, Mikio and Johnson, Jeremy and Kehr, Steffi and Lara, Marcia and Letaw, John H and Litman, Gary W and Litman, Ronda T and Mikami, Masato and Ota, Tatsuya and Saha, Nil Ratan and Williams, Louise and Stadler, Peter F and Wang, Han and Taylor, John S and Fontenot, Quenton and Ferrara, Allyse and Searle, Stephen M J and Aken, Bronwen and Yandell, Mark and Schneider, Igor and Yoder, Jeffrey A and Volff, Jean-Nicolas and Meyer, Axel and Amemiya, Chris T and Venkatesh, Byrappa and Holland, Peter W H and Guiguen, Yann and Bobe, Julien and Shubin, Neil H and Di Palma, Federica and Alfo¨ldi, Jessica and Lindblad-Toh, Kerstin and Postlethwait, John H
Nature Genetics, ISSN 1061-4036, 06/2016, Volume 48, Issue 6, pp. 700 - 700
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