The zebrafish galectins Drgal1-L2 and Drgal3-L1 bind in vitro to the infectious hematopoietic necrosis virus (IHNV) glycoprotein and reduce viral adhesion to fish epithelial cells.

[1]  T. Nishizawa,et al.  Infectious Hematopoietic Necrosis , 2016 .

[2]  H. Ahmed,et al.  Manipulating galectin expression in zebrafish (Danio rerio). , 2015, Methods in molecular biology.

[3]  T. Bowden,et al.  Timing of Galectin-1 Exposure Differentially Modulates Nipah Virus Entry and Syncytium Formation in Endothelial Cells , 2014, Journal of Virology.

[4]  Richard D. Cummings,et al.  Galectin-1 Exerts Inhibitory Effects during DENV-1 Infection , 2014, PloS one.

[5]  Marion C Lanteri,et al.  Galectin-9 is rapidly released during acute HIV-1 infection and remains sustained at high levels despite viral suppression even in elite controllers. , 2014, AIDS research and human retroviruses.

[6]  Y. Obase,et al.  Increased levels of plasma galectin-9 in patients with influenza virus infection. , 2014, The Tohoku journal of experimental medicine.

[7]  I. Wilson,et al.  The Galectin CvGal1 from the Eastern Oyster (Crassostrea virginica) Binds to Blood Group A Oligosaccharides on the Hemocyte Surface* , 2013, The Journal of Biological Chemistry.

[8]  Shicui Zhang,et al.  Anti-viral activity of galectin-1 from flounder Paralichthys olivaceus. , 2013, Fish & shellfish immunology.

[9]  T. Ogawa,et al.  Galectins in the abdominal cavity of the conger eel Conger myriaster participate in the cellular encapsulation of parasitic nematodes by host cells. , 2012, Fish & shellfish immunology.

[10]  T. Ogawa,et al.  Allosteric Regulation of the Carbohydrate-binding Ability of a Novel Conger Eel Galectin by d-Mannoside , 2012, The Journal of Biological Chemistry.

[11]  H. Ahmed,et al.  Galectins as self/non-self recognition receptors in innate and adaptive immunity: an unresolved paradox , 2012, Front. Immun..

[12]  P. Hitchen,et al.  Glycoproteomic characterization of recombinant mouse α-dystroglycan. , 2012, Glycobiology.

[13]  J. Winton,et al.  Immunity to Fish Rhabdoviruses , 2012, Viruses.

[14]  G. Vasta Galectins as pattern recognition receptors: structure, function, and evolution. , 2012, Advances in experimental medicine and biology.

[15]  L. Amzel,et al.  Structural and functional diversity of the lectin repertoire in teleost fish: relevance to innate and adaptive immunity. , 2011, Developmental and comparative immunology.

[16]  A. Hyatt,et al.  Viruses of Fish: An Overview of Significant Pathogens , 2011, Viruses.

[17]  G. Rabinovich,et al.  Coupling pathogen recognition to innate immunity through glycan-dependent mechanisms. , 2011, International immunopharmacology.

[18]  M. Tremblay,et al.  Host-Soluble Galectin-1 Promotes HIV-1 Replication through a Direct Interaction with Glycans of Viral gp120 and Host CD4 , 2011, Journal of Virology.

[19]  G. Rabinovich,et al.  When galectins recognize glycans: from biochemistry to physiology and back again. , 2011, Biochemistry.

[20]  Jen-Ren Wang,et al.  Galectin-1 Binds to Influenza Virus and Ameliorates Influenza Virus Pathogenesis , 2011, Journal of Virology.

[21]  D. Pang,et al.  Clathrin-Mediated Endocytosis in Living Host Cells Visualized through Quantum Dot Labeling of Infectious Hematopoietic Necrosis Virus , 2011, Journal of Virology.

[22]  H. Yoon,et al.  Galectin-3 Exerts Cytokine-Like Regulatory Actions through the JAK–STAT Pathway , 2010, The Journal of Immunology.

[23]  David F. Smith,et al.  Innate immune lectins kill bacteria expressing blood group antigen , 2010, Nature Medicine.

[24]  V. Vakharia,et al.  Molecular characterization of the virulent infectious hematopoietic necrosis virus (IHNV) strain 220-90 , 2010, Virology Journal.

[25]  H. Ahmed,et al.  Nodavirus Infection of Sea Bass (Dicentrarchus labrax) Induces Up-Regulation of Galectin-1 Expression with Potential Anti-Inflammatory Activity12 , 2009, The Journal of Immunology.

[26]  Tetsuo Kato,et al.  Effect of eel galectin AJL-1 on periodontopathic bacterial biofilm formation and their lipopolysaccharide-mediated inflammatory cytokine induction. , 2009, International journal of antimicrobial agents.

[27]  G. Vasta,et al.  Roles of galectins in infection , 2009, Nature Reviews Microbiology.

[28]  Gabriel A. Rabinovich,et al.  Turning 'sweet' on immunity: galectin–glycan interactions in immune tolerance and inflammation , 2009, Nature Reviews Immunology.

[29]  B. Michel,et al.  The Major Portal of Entry of Koi Herpesvirus in Cyprinus carpio Is the Skin , 2009, Journal of Virology.

[30]  E. Telemo,et al.  Galectin-3 functions as an opsonin and enhances the macrophage clearance of apoptotic neutrophils. , 2008, Glycobiology.

[31]  H. Ahmed,et al.  Knockdown of a galectin-1-like protein in zebrafish (Danio rerio) causes defects in skeletal muscle development , 2009, Glycoconjugate Journal.

[32]  Hafiz Ahmed,et al.  Animal lectins : a functional view , 2008 .

[33]  A. Weighall,et al.  Inactivated infectious haematopoietic necrosis virus (IHNV) vaccines. , 2008, Journal of fish diseases.

[34]  L. Baum,et al.  Galectin‐1 on cervical epithelial cells is a receptor for the sexually transmitted human parasite Trichomonas vaginalis , 2008, Cellular microbiology.

[35]  David F. Smith,et al.  Galectin-1, -2, and -3 Exhibit Differential Recognition of Sialylated Glycans and Blood Group Antigens* , 2008, Journal of Biological Chemistry.

[36]  S. Mercier,et al.  Galectin-1 promotes HIV-1 infectivity in macrophages through stabilization of viral adsorption. , 2008, Virology.

[37]  K. Dhaliwal,et al.  Galectin-3 reduces the severity of pneumococcal pneumonia by augmenting neutrophil function. , 2008, The American journal of pathology.

[38]  G. Vasta,et al.  A Galectin of Unique Domain Organization from Hemocytes of the Eastern Oyster (Crassostrea virginica) Is a Receptor for the Protistan Parasite Perkinsus marinus12 , 2007, The Journal of Immunology.

[39]  G. Rabinovich,et al.  A Novel Function for Galectin-1 at the Crossroad of Innate and Adaptive Immunity: Galectin-1 Regulates Monocyte/Macrophage Physiology through a Nonapoptotic ERK-Dependent Pathway1 , 2007, The Journal of Immunology.

[40]  R. Kiss,et al.  Galectin-1: a small protein with major functions. , 2006, Glycobiology.

[41]  M. Giovannini,et al.  Bioluminescence Imaging of Live Infected Salmonids Reveals that the Fin Bases Are the Major Portal of Entry for Novirhabdovirus , 2006, Journal of Virology.

[42]  Mark Sutton-Smith,et al.  Glycomic profiling of cells and tissues by mass spectrometry: fingerprinting and sequencing methodologies. , 2006, Methods in enzymology.

[43]  B. Chatterjee,et al.  Characterization of a galactose binding serum lectin from the Indian catfish, Clarias batrachus: possible involvement of fish lectins in differential recognition of pathogens. , 2005, Comparative biochemistry and physiology. Toxicology & pharmacology : CBP.

[44]  Sachiko Sato,et al.  Galectin-1 Acts as a Soluble Host Factor That Promotes HIV-1 Infectivity through Stabilization of Virus Attachment to Host Cells1 , 2005, The Journal of Immunology.

[45]  C. Barillas-Mury,et al.  A Role for Insect Galectins in Parasite Survival , 2004, Cell.

[46]  A. Tanguy,et al.  Discovery of genes expressed in response to Perkinsus marinus challenge in Eastern (Crassostrea virginica) and Pacific (C. gigas) oysters. , 2004, Gene.

[47]  Wei-Jun Yang,et al.  Characteristics and primary structure of a galectin in the skin mucus of the Japanese eel, Anguilla japonica. , 2004, Developmental and comparative immunology.

[48]  H. Ahmed,et al.  Biochemical and molecular characterization of galectins from zebrafish (Danio rerio): notochord-specific expression of a prototype galectin during early embryogenesis. , 2003, Glycobiology.

[49]  Sachiko Sato,et al.  Seeing strangers or announcing “danger”: Galectin-3 in two models of innate immunity , 2004, Glycoconjugate Journal.

[50]  H. Ahmed,et al.  Galectins in teleost fish: Zebrafish (Danio rerio) as a model species to address their biological roles in development and innate immunity , 2004, Glycoconjugate Journal.

[51]  Yuzuru Suzuki,et al.  Molecular diversity of skin mucus lectins in fish. , 2003, Comparative biochemistry and physiology. Part B, Biochemistry & molecular biology.

[52]  G. Kurath,et al.  Molecular epidemiology of infectious hematopoietic necrosis virus reveals complex virus traffic and evolution within southern Idaho aquaculture. , 2003, Diseases of aquatic organisms.

[53]  J. Hirabayashi,et al.  Specific recognition of Leishmania major poly-beta-galactosyl epitopes by galectin-9: possible implication of galectin-9 in interaction between L. major and host cells. , 2003, The Journal of biological chemistry.

[54]  C. Amemiya,et al.  Zebrafish as an immunological model system. , 2002, Microbes and infection.

[55]  Douglas N W Cooper,et al.  Galectinomics: finding themes in complexity. , 2002, Biochimica et biophysica acta.

[56]  S. Jesuthasan Zebrafish in the Spotlight , 2002, Science.

[57]  Yuzuru Suzuki,et al.  Primary Structure and Characteristics of a Lectin from Skin Mucus of the Japanese Eel Anguilla japonica * , 2002, The Journal of Biological Chemistry.

[58]  Sachiko Sato,et al.  Specific Recognition and Cleavage of Galectin-3 byLeishmania major through Species-specific Polygalactose Epitope* , 2002, The Journal of Biological Chemistry.

[59]  S. Biacchesi,et al.  Heterologous Exchanges of the Glycoprotein and the Matrix Protein in a Novirhabdovirus , 2002, Journal of Virology.

[60]  P. Collodi,et al.  Novel Form of Fibronectin from Zebrafish Mediates Infectious Hematopoietic Necrosis Virus Infection , 2002, Journal of Virology.

[61]  L. Zon,et al.  The art and design of genetic screens: zebrafish , 2001, Nature Reviews Genetics.

[62]  Thomas D. Schmittgen,et al.  Analysis of relative gene expression data using real-time quantitative PCR and the 2(-Delta Delta C(T)) Method. , 2001, Methods.

[63]  B. Delmas,et al.  Fish Rhabdovirus Cell Entry Is Mediated by Fibronectin , 1999, Journal of Virology.

[64]  G. Gottlieb Genetics and development , 1999, Current opinion in genetics & development.

[65]  W. Cho,et al.  Monoclonal antibodies raised against infectious haematopoietic necrosis virus (IHNV) G protein and a cellular 90 kDa protein neutralize IHNV infection in vitro. , 1996, The Journal of general virology.

[66]  S. Lapatra,et al.  The esophagus/cardiac stomach region : site of attachment and internalization of infectious hematopoietic necrosis virus in challenged juvenile rainbow trout Oncorhynchus mykiss and coho salmon O. kisutch , 1995 .

[67]  E. Mundt,et al.  Complete genomic sequence of the fish rhabdovirus infectious haematopoietic necrosis virus. , 1995, The Journal of general virology.

[68]  K. Titani,et al.  Tissue fibronectin is an endogenous ligand for galectin-1. , 1995, Glycobiology.

[69]  M. Landolt,et al.  Characterization of the infectious hematopoietic necrosis virus glycoprotein using neutralizing monoclonal antibodies. , 1994 .

[70]  S. Sato,et al.  Binding specificity of a baby hamster kidney lectin for H type I and II chains, polylactosamine glycans, and appropriately glycosylated forms of laminin and fibronectin. , 1992, The Journal of biological chemistry.

[71]  M. Landolt,et al.  Inactivation of Infectious Hematopoietic Necrosis Virus by Low Levels of Iodine , 1991, Applied and environmental microbiology.

[72]  K. Wolf Fish Viruses and Fish Viral Diseases , 2019 .

[73]  S. Chilmonczyk,et al.  Rainbow trout gill pillar cells: demonstration of inert particle phagocytosis and involvement in viral infection. , 1980, Journal of the Reticuloendothelial Society.

[74]  D. Mulcahy,et al.  Plaquing procedure for infectious hematopoietic necrosis virus , 1980, Applied and environmental microbiology.