All Stories

  1. Chromulinavorax destructans, a pathogen of microzooplankton that provides a window into the enigmatic candidate phylum Dependentiae
  2. Nutrients and Other Environmental Factors Influence Virus Abundances across Oxic and Hypoxic Marine Environments
  3. Variation in the Genetic Repertoire of Viruses Infecting Micromonas pusilla Reflects Horizontal Gene Transfer and Links to Their Environmental Distribution
  4. Consensus statement: Virus taxonomy in the age of metagenomics
  5. A comprehensive method for amplicon-based and metagenomic characterization of viruses, bacteria, and eukaryotes in freshwater samples
  6. Viruses Infecting a Freshwater Filamentous Cyanobacterium (Nostocsp.) Encode a Functional CRISPR Array and a Proteobacterial DNA Polymerase B
  7. Metagenomic Analysis Suggests Modern Freshwater Microbialites Harbor a Distinct Core Microbial Community
  8. Re-examination of the relationship between marine virus and microbial cell abundances
  9. Year-Long Metagenomic Study of River Microbiomes Across Land Use and Water Quality
  10. Biogeography of Viruses in the Sea
  11. Metagenomic analysis reveals that modern microbialites and polar microbial mats have similar taxonomic and functional potential
  12. Single-cell transcriptomics using spliced leader PCR: Evidence for multiple losses of photosynthesis in polykrikoid dinoflagellates
  13. Eye-like ocelloids are built from different endosymbiotically acquired components
  14. Previously unknown evolutionary groups dominate the ssDNA gokushoviruses in oxic and anoxic waters of a coastal marine environment
  15. Combining genomic sequencing methods to explore viral diversity and reveal potential virus-host interactions
  16. Polar freshwater cyanophage S-EIV1 represents a new widespread evolutionary lineage of phages
  17. Metagenomic characterization of viral communities in corals: mining biological signal from methodological noise
  18. Corrigendum: Metagenomic and whole-genome analysis reveals new lineages of gokushoviruses and biogeographic separation in the sea
  19. Metagenomic characterisation of viral communities in corals: Mining biological signal from methodological noise
  20. A multitrophic model to quantify the effects of marine viruses on microbial food webs and ecosystem processes
  21. High temporal and spatial diversity in marine RNA viruses implies that they have an important role in mortality and structuring plankton communities
  22. Dissecting the role of viruses in marine nutrient cycling: bacterial uptake of D- and L-amino acids released by viral lysis
  23. The virion of Cafeteria roenbergensis virus (CroV) contains a complex suite of proteins for transcription and DNA repair
  24. Generating viral metagenomes from the coral holobiont
  25. Viral infection of bacteria and phytoplankton in the Arctic Ocean as viewed through the lens of fingerprint analysis
  26. Prevalence of psbA-containing cyanobacterial podoviruses in the ocean
  27. Viruses: unlocking the greatest biodiversity on Earth
  28. Draft Genome Sequence of Exiguobacterium pavilionensis Strain RW-2, with Wide Thermal, Salinity, and pH Tolerance, Isolated from Modern Freshwater Microbialites
  29. The Draft Genome Sequence of Sphingomonas paucimobilis Strain HER1398 (Proteobacteria), Host to the Giant PAU Phage, Indicates That It Is a Member of the Genus Sphingobacterium (Bacteroidetes)
  30. Previously unknown and highly divergent ssDNA viruses populate the oceans
  31. First Draft Genome Sequence from a Member of the Genus Agrococcus, Isolated from Modern Microbialites
  32. Effects of environmental variation and spatial distance on Bacteria, Archaea and viruses in sub-polar and arctic waters
  33. To kill or not to kill: The balance between lytic and lysogenic viral infection is driven by trophic status
  34. Metagenomic and whole-genome analysis reveals new lineages of gokushoviruses and biogeographic separation in the sea
  35. Modeling the Winter–to–Summer Transition of Prokaryotic and Viral Abundance in the Arctic Ocean
  36. Effects of patch connectivity and heterogeneity on metacommunity structure of planktonic bacteria and viruses
  37. Contrasting Ecosystem-Effects of Morphologically Similar Copepods
  38. Marine viruses and global climate change
  39. Milne Fiord epishelf lake: A coastal Arctic ecosystem vulnerable to climate change
  40. Phylodynamics and movement of Phycodnaviruses among aquatic environments
  41. The Sensitivity of Massively Parallel Sequencing for Detecting Candidate Infectious Agents Associated with Human Tissue
  42. Prasinovirus‡
  43. Marnavirus
  44. Prymnesiovirus
  45. Characterization of the diversity of marine RNA viruses
  46. Manual of Aquatic Viral Ecology
  47. Enumeration of virus particles in aquatic or sediment samples by epifluorescence microscopy
  48. Arctic microbial ecosystems and impacts of extreme warming during the International Polar Year
  49. Viruses: a vast reservoir of genetic diversity and driver of global processes
  50. Determination of Virus Abundance by Epifluorescence Microscopy
  51. Isolation Independent Methods of Characterizing Phage Communities 1: Strain Typing Using Fingerprinting Methods
  52. Physical and biological correlates of virus dynamics in the southern Beaufort Sea and Amundsen Gulf
  53. Evidence that viral abundance across oceans and lakes is driven by different biological factors
  54. Global-scale processes with a nanoscale drive: the role of marine viruses
  55. Marine viruses — major players in the global ecosystem
  56. The complete genomes of three viruses assembled from shotgun libraries of marine RNA virus communities
  57. Exploring the Vast Diversity of Marine Viruses
  58. Estimation of Biologically Damaging UV Levels in Marine Surface Waters with DNA and Viral Dosimeters¶
  59. Distribution, genetic richness and phage sensitivity of Vibrio spp. from coastal British Columbia
  60. Viral Community Structure
  61. The Marine Viromes of Four Oceanic Regions
  62. Genetic richness of vibriophages isolated in a coastal environment
  63. Les bactériophages de type T4 : des composants prépondérants de la « matière noire  » de la biosphère
  64. Viruses in the sea
  65. The viriosphere, diversity, and genetic exchange within phage communities
  66. High abundances of viruses in a deep-sea hydrothermal vent system indicates viral mediated microbial mortality
  67. The viriosphere: the greatest biological diversity on Earth and driver of global processes
  68. Adsorption and precipitation of iron from seawater on a marine bacteriophage (PWH3A-P1)
  69. The use of degenerate-primed random amplification of polymorphic DNA (DP-RAPD) for strain-typing and inferring the genetic similarity among closely related viruses
  70. Genome sequence and characterization of a virus (HaRNAV) related to picorna-like viruses that infects the marine toxic bloom-forming alga Heterosigma akashiwo
  71. High diversity of unknown picorna-like viruses in the sea
  72. The complete sequence of marine bacteriophage VpV262 infecting vibrio parahaemolyticus indicates that an ancestral component of a T7 viral supergroup is widespread in the marine environment
  73. CHARACTERIZATION OF HaRNAV, A SINGLE‐STRANDED RNA VIRUS CAUSING LYSIS OF HETEROSIGMA AKASHIWO (RAPHIDOPHYCEAE)1
  74. DNA polymerase gene sequences indicate western and forest tent caterpillar viruses form a new taxonomic group within baculoviruses
  75. Viruses causing lysis of the toxic bloom‐forming alga Heterosigma akashiwo(Raphidophyceae) are widespread in coastal sediments of British Columbia, Canada
  76. Estimation of Biologically Damaging UV Levels in Marine Surface Waters with DNA and Viral Dosimeters¶
  77. Cyanophages
  78. A NOVEL VIRUS (HaNIV) CAUSES LYSIS OF THE TOXIC BLOOM‐FORMING ALGA HETEROSIGMA AKASHIWO (RAPHIDOPHYCEAE)
  79. Ecological, Evolutionary, and Geochemical Consequences of Viral Infection of Cyanobacteria and Eukaryotic Algae
  80. Viruses and Nutrient Cycles in the Sea
  81. Viruses in Antarctic lakes
  82. The role of sunlight in the removal and repair of viruses in the sea
  83. DESCRIPTION AND CHARACTERIZATION OF THE ALGAL SPECIES AUREOUMBRA LAGUNENSIS GEN. ET SP. NOV. AND REFERRAL OF AUREOUMBRA AND AUREOCOCCUS TO THE PELAGOPHYCEAE1
  84. Evolutionary Relationships among Large Double-Stranded DNA Viruses That Infect Microalgae and Other Organisms as Inferred from DNA Polymerase Genes
  85. Direct counts of viruses in natural waters and laboratory cultures by epifluorescence microscopy
  86. Dynamics of lytic virus infecting the photosynthetic marine picoflagellate Micromonas pusilla
  87. PHYLOGENY OF AUREOCOCCUS ANOPHAGEFFERENS AND A MORPHOLOGICALLY SIMILAR BLOOM‐FORMING ALGA FROM TEXAS AS DETERMINED BY 18S RIBOSOMAL RNA SEQUENCE ANALYSIS1
  88. THE INABILITY OF THE TEXAS “BROWN TIDE” ALGA TO USE NITRATE AND THE ROLE OF NITROGEN IN THE INITIATION OF A PERSISTENT BLOOM OF THIS ORGANISM1
  89. PRODUCTION OF AXENIC CULTURES OF MICROMONAS PUSILLA (PRASINOPHYCEAE) USING ANTIBIOTIC 1
  90. Viruses in Marine Planktonic Systems
  91. Size-Dependent Ammonium and Phosphate Uptake, and N:P Supply Ratios in an Oligotrophic Lake
  92. Virus ecology
  93. Infection of phytoplankton by viruses and reduction of primary productivity
  94. Rapid ammonium cycling and concentration‐dependent partitioning of ammonium and phosphate: Implications for carbon transfer in planktonic communities
  95. Discrimination by freshwater zooplankton between single algal cells differing in nutritional status
  96. RAPID AMMONIUM UPTAKE BY FRESHWATER PHYTOPLANKTON1
  97. Ecology of Microbial Communities. Forty-First Symposium of the Society for General Microbiology Held at the University of St. Andrews, April 1987. Symposia of Society the General Microbiology, Symposium 41. M. Fletcher T. R. G. Gray J. G. Jones
  98. Ammonium and phosphate uptake kinetics of size-fractionated plankton from an oligotrophic freshwater lake
  99. POLYMERIZATION OF SILICA IN ACIDIC SOLUTIONS: A NOTE OF CAUTION TO PHYCOLOGISTS
  100. POLYMERIZATION OF SILICA IN ACIDIC SOLUTIONS: A NOTE OF CAUTION TO PHYCOLOGISTS
  101. Prasinovirus
  102. Prymnesiovirus
  103. Prymnesiovirus
  104. Prasinovirus
  105. Cyanophages and Their Role in the Ecology of Cyanobacteria