Prevalent and persistent viral infection in cultures of the coral algal endosymbiont Symbiodinium

[1]  M. Oppen,et al.  Evidence for a role of viruses in the thermal sensitivity of coral photosymbionts , 2016, The ISME Journal.

[2]  Dmitrij Turaev,et al.  HoloVir: A Workflow for Investigating the Diversity and Function of Viruses in Invertebrate Holobionts , 2016, Front. Microbiol..

[3]  A. Thurber,et al.  Viral Outbreak in Corals Associated with an In Situ Bleaching Event: Atypical Herpes-Like Viruses and a New Megavirus Infecting Symbiodinium , 2016, Front. Microbiol..

[4]  C. Suttle,et al.  Metagenomic characterization of viral communities in corals: mining biological signal from methodological noise. , 2015, Environmental microbiology.

[5]  S. Davy,et al.  Latent virus‐like infections are present in a diverse range of Symbiodinium spp. (Dinophyta) , 2014, Journal of phycology.

[6]  Andrew J. Alverson,et al.  Transcriptomic Insights into the Life History of Bolidophytes, the Sister Lineage to Diatoms , 2014, Journal of phycology.

[7]  G. Steward,et al.  The Characterization of RNA Viruses in Tropical Seawater Using Targeted PCR and Metagenomics , 2014, mBio.

[8]  Björn Usadel,et al.  Trimmomatic: a flexible trimmer for Illumina sequence data , 2014, Bioinform..

[9]  C. Suttle,et al.  Generating viral metagenomes from the coral holobiont , 2014, Front. Microbiol..

[10]  François Enault,et al.  Metavir 2: new tools for viral metagenome comparison and assembled virome analysis , 2014, BMC Bioinformatics.

[11]  C. Downs,et al.  Heat-Stress and Light-Stress Induce Different Cellular Pathologies in the Symbiotic Dinoflagellate during Coral Bleaching , 2013, PloS one.

[12]  J. Zucko,et al.  KEGG orthology-based annotation of the predicted proteome of Acropora digitifera: ZoophyteBase - an open access and searchable database of a coral genome , 2013, BMC Genomics.

[13]  G. Steward,et al.  Are we missing half of the viruses in the ocean? , 2012, The ISME Journal.

[14]  E. Koonin,et al.  Hidden evolutionary complexity of Nucleo-Cytoplasmic Large DNA viruses of eukaryotes , 2012, Virology Journal.

[15]  R. V. Thurber,et al.  Unique nucleocytoplasmic dsDNA and +ssRNA viruses are associated with the dinoflagellate endosymbionts of corals , 2012, The ISME Journal.

[16]  Sergey I. Nikolenko,et al.  SPAdes: A New Genome Assembly Algorithm and Its Applications to Single-Cell Sequencing , 2012, J. Comput. Biol..

[17]  Ana Vukelic,et al.  A Profile of an Endosymbiont-enriched Fraction of the Coral Stylophora pistillata Reveals Proteins Relevant to Microbial-Host Interactions* , 2012, Molecular & Cellular Proteomics.

[18]  B. Willis,et al.  Coral thermal tolerance shaped by local adaptation of photosymbionts , 2012 .

[19]  F. Rohwer,et al.  Metagenomics and future perspectives in virus discovery , 2012, Current Opinion in Virology.

[20]  D. Walsh,et al.  Viral subversion of the host protein synthesis machinery , 2011, Nature Reviews Microbiology.

[21]  A. Vardi,et al.  A chemical arms race at sea mediates algal host-virus interactions. , 2011, Current opinion in microbiology.

[22]  A. Telenti,et al.  Lausannevirus, a giant amoebal virus encoding histone doublets. , 2011, Environmental microbiology.

[23]  Natalya Yutin,et al.  Eukaryotic large nucleo-cytoplasmic DNA viruses: Clusters of orthologous genes and reconstruction of viral genome evolution , 2009, Virology Journal.

[24]  Forest Rohwer,et al.  The GAAS Metagenomic Tool and Its Estimations of Viral and Microbial Average Genome Size in Four Major Biomes , 2009, PLoS Comput. Biol..

[25]  D. Scanlan,et al.  From small hosts come big viruses: the complete genome of a second Ostreococcus tauri virus, OtV-1. , 2009, Environmental microbiology.

[26]  G. Steward,et al.  RNA viruses in the sea. , 2009, FEMS microbiology reviews.

[27]  E. Rosenberg,et al.  The role of microorganisms in coral bleaching , 2009, The ISME Journal.

[28]  P. Glynn,et al.  Climate change and coral reef bleaching: An ecological assessment of long-term impacts, recovery trends and future outlook , 2008 .

[29]  V. Weis Cellular mechanisms of Cnidarian bleaching: stress causes the collapse of symbiosis , 2008, Journal of Experimental Biology.

[30]  D. Allemand,et al.  Effects of Temperature and UV Radiation Increases on the Photosynthetic Efficiency in Four Scleractinian Coral Species , 2007, The Biological Bulletin.

[31]  J. Davy,et al.  Morphological diversity of virus-like particles within the surface microlayer of scleractinian corals , 2007 .

[32]  C. Munn,et al.  Characterization of a Latent Virus-Like Infection of Symbiotic Zooxanthellae , 2007, Applied and Environmental Microbiology.

[33]  G. Malin,et al.  VIRAL INFECTION OF EMILIANIA HUXLEYI (PRYMNESIOPHYCEAE) LEADS TO ELEVATED PRODUCTION OF REACTIVE OXYGEN SPECIES 1 , 2006 .

[34]  Eugene V Koonin,et al.  Evolutionary genomics of nucleo-cytoplasmic large DNA viruses. , 2006, Virus research.

[35]  O. Hoegh‐Guldberg,et al.  Viruses: agents of coral disease? , 2006, Diseases of aquatic organisms.

[36]  Julian Parkhill,et al.  Complete Genome Sequence and Lytic Phase Transcription Profile of a Coccolithovirus , 2005, Science.

[37]  S. Davy,et al.  An enemy within? Observations of virus-like particles in reef corals. , 2005, Coral Reefs.

[38]  Michael P. Lesser,et al.  Exposure to solar radiation increases damage to both host tissues and algal symbionts of corals during thermal stress , 2004, Coral Reefs.

[39]  K. Tarutani,et al.  Isolation and characterization of two distinct types of HcRNAV, a single-stranded RNA virus infecting the bivalve-killing microalga Heterocapsa circularisquama , 2004 .

[40]  C. Brussaard Optimization of Procedures for Counting Viruses by Flow Cytometry , 2004, Applied and Environmental Microbiology.

[41]  M. Sitbon,et al.  Emergence of vertebrate retroviruses and envelope capture. , 2004, Virology.

[42]  Satoru Suzuki,et al.  Virus-like Particles Suppress Growth of the Red-Tide-Forming Marine Dinoflagellate Gymnodinium mikimotoi , 2003, Marine Biotechnology.

[43]  N. Knowlton,et al.  Diversity and distribution of coral-associated bacteria , 2002 .

[44]  E. Koonin,et al.  Common Origin of Four Diverse Families of Large Eukaryotic DNA Viruses , 2001, Journal of Virology.

[45]  L. Muscatine,et al.  Cellular mechanisms underlying temperature-induced bleaching in the tropical sea anemone Aiptasia pulchella. , 2001, The Journal of experimental biology.

[46]  K. Ryan,et al.  Temperature induction of viruses in symbiotic dinoflagellates , 2001 .

[47]  K. Tarutani,et al.  Isolation of a virus infecting the novel shellfish- killing dinoflagellate Heterocapsa circularisquama , 2001 .

[48]  B. Brown,et al.  Coral bleaching: causes and consequences , 1997, Coral Reefs.

[49]  L. Muscatine,et al.  Reef Corals: Mutualistic Symbioses Adapted to Nutrient-Poor Environments , 1977 .

[50]  E. Rosenberg,et al.  Microbial Diseases of Corals: Pathology and Ecology , 2011 .

[51]  G. Steward,et al.  Characterization of the diversity of marine RNA viruses , 2010 .

[52]  P. Ralph,et al.  Coral bleaching: the role of the host. , 2009, Trends in ecology & evolution.

[53]  J. Lough,et al.  Climate Variability and Change: Monitoring Data and Evidence for Increased Coral Bleaching Stress , 2009 .

[54]  J. Maniloff,et al.  Virus taxonomy : eighth report of the International Committee on Taxonomy of Viruses , 2005 .

[55]  O. Hoegh‐Guldberg Climate change, coral bleaching and the future of the world's coral reefs , 1999 .

[56]  Miriam L. Land,et al.  Trace: Tennessee Research and Creative Exchange Prodigal: Prokaryotic Gene Recognition and Translation Initiation Site Identification Recommended Citation Prodigal: Prokaryotic Gene Recognition and Translation Initiation Site Identification , 2022 .