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Counts and sequences, observations that continue to change our understanding of viruses in nature
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Counts and sequences, observations that continue to change our understanding of viruses in nature
K. Eric Wommack , Daniel J. Nasko , Jessica Chopyk , Eric G. Sakowski
Journal of Microbiology 2015;53(3):181-192
DOI: https://doi.org/10.1007/s12275-015-5068-6
Published online: March 3, 2015
Delaware Biotechnology Institute, University of Delaware, Newark Delaware, USADelaware Biotechnology Institute, University of Delaware, Newark Delaware, USA
Corresponding author:  K. Eric Wommack , Tel: +1-302-831-4362, 
Received: 3 February 2015   • Accepted: 10 February 2015
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The discovery of abundant viruses in the oceans and on land has ushered in a quarter century of groundbreaking advancements in our understanding of viruses within ecosystems. Two types of observations from environmental samples - direct counts of viral particles and viral metagenomic sequences - have been critical to these discoveries. Accurate direct counts have established ecosystem-scale trends in the impacts of viral infection on microbial host populations and have shown that viral communities within aquatic and soil environments respond to both short term and seasonal environmental change. Direct counts have been critical for estimating viral production rate, a measurement essential to quantifying the implications of viral infection for the biogeochemical cycling of nutrients within ecosystems. While direct counts have defined the magnitude of viral processes; shotgun sequences of environmental viral DNA - virome sequences - have enabled researchers to estimate the diversity and composition of natural viral communities. Virome-enabled studies have found the virioplankton to contain thousands of viral genotypes in communities where the most dominant viral population accounts for a small fraction of total abundance followed by a long tail of diverse populations. Detailed examination of long virome sequences has led to new understanding of genotype-to-phenotype connections within marine viruses and revealed that viruses carry metabolic genes that are important to maintaining cellular energy during viral replication. Increased access to long virome sequences will undoubtedly reveal more genetic secrets of viruses and enable us to build a genomics rulebook for predicting key biological and ecological features of unknown viruses.

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    Counts and sequences, observations that continue to change our understanding of viruses in nature
    J. Microbiol. 2015;53(3):181-192.   Published online March 3, 2015
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