Defining quality virus data


Arvind Varsani is a virology researcher in the Biodesign Center for Fundamental and Applied Microbiomics.

Microbes in, on and around the planet are said to outnumber the stars in the Milky Way Galaxy. The total number of viruses is expected to vastly exceed even that calculation.

Arvind Varsani, a researcher in Arizona State University's Biodesign Center for Fundamental and Applied Microbiomics has hunted these elusive entities in far-flung locales, from Pacific islands to Amazonian jungles to Antarctic ice floes. In a new report, he joins an international group of researchers attempting to establish more efficient and accurate strategies for identifying and cataloging the astonishing plenitude of viruses inhabiting the planet.

While many viruses remain unknown and uncultivated, advances in genome sequencing and analyses have allowed researchers to identify more than 750,000 uncultivated virus genomes from metagenomic and metatranscriptomic data sets. In IMG/VR, a database for virus sequences established and maintained by researchers at the U.S. Department of Energy Joint Genome Institute (JGI), a DOE Office of Science User Facility, the viral diversity available has tripled within a single year.

As more and more researchers continue to assemble new genome sequences of uncultivated viruses, JGI researchers led a community effort to develop guidelines and best practices for defining virus data quality. In a report published Dec. 17 in Nature Biotechnology, JGI partnered with a number of virus experts; representatives from the Genomic Standards Consortium (GSC), an open-membership working body that engages the research community in the standards development process; and the International Committee on Taxonomy of Viruses, the premier authority on the official taxonomy of viruses that is currently re-evaluating virus classification based on sequence-based information.

Varsani collecting viral samples in the Antarctic.

Guidelines for quality and analyses

“Viruses are critical components of every microbial ecosystem. The JGI is especially interested in developing standards for virus genomes because we generate much of this data ourselves,” said Simon Roux, JGI research scientist and first author. “We are part of a small group of researchers who have scrutinized these data at length, have seen the metrics and can provide guidance to help determine data quality. Additionally, in this paper, we’ve tried to provide not just standards, but also outline what type of analyses can be performed on these data, to help researchers who want to characterize their own novel viruses.”

Cultured viruses already have their own data quality standards, but these cannot be directly applied to uncultured viruses, whose sequences are often incomplete and for which some properties can only be predicted indirectly using computational approaches.

“The uncultivated virus genome community has come together to define what is important to report and valuable to the research community,” said GSC President Lynn Schriml, of the Institute of Genome Sciences at University of Maryland School of Medicine. The GSC includes representatives from the National Center for Biotechnology Information and the European Bioinformatics Institute, who also collaborated on this article.

Categories of virus genome quality

In the paper, Roux and his colleagues outlined the minimum amount of information for an uncultivated virus genome, including the source, methods of identification of the virus genome and data quality. The JGI has previously developed standards for the minimum metadata to be reported with single amplified genomes (SAGs) and metagenome-assembled genomes (MAGs) submitted to public databases.

“The tremendous growth of virus sequence data, and microbiome data in general, necessitates robust standards and data quality metrics to allow the research community to leverage this data for comparative analyses,” said Emiley Eloe-Fadrosh, JGI metagenome program head and study senior author. “By establishing and promoting ‘best practices,’ the research community has the opportunity to break down barriers of data accessibility and reusability, thereby amplifying the research beyond the initial project scope.” 

The team proposed three categories of genome quality. “Genome fragments” are comprised of single or multiple fragments that are predicted to be less than 90 percent complete, or have no estimated genome size, and are minimally annotated. A “high-quality draft genome” is estimated to represent 90 percent or more of the complete expected genome sequence, in fragment(s) where any gaps span mostly repetitive regions. Finally, a “finished genome” would include both a complete genome comprised of a single contiguous sequence without gaps and with extensive annotation.

“If you're going to build a standard,” Schriml noted, “it is essential to discuss what should be represented with the research community, taxonomists and database providers and to integrate these data needs into the standard.”

Schriml added journals have also started endorsing the application of the GSC’s “Minimum Information about any (X) Sequence (MIxS)” guidelines, the umbrella under which the uncultivated virus genome standards and other similar community efforts reside. The GSC tracks the adoption of these standards developed over the past decade using records uploaded to the BioSample database. These records reflect individual samples collected, sequenced and annotated, and Schriml said that nearly 450,000 BioSample records currently reference MIxS guidelines, up from 326,000 records tracked in the spring.

Written by Massie Ballon and David Gilbert for JGI

More Science and technology

 

Photo of the ISPMHA group at ASU with Olivia Davis in the center

ASU postdoctoral researcher leads initiative to support graduate student mental health

Olivia Davis had firsthand experience with anxiety and OCD before she entered grad school. Then, during the pandemic and as a…

Silhouettes of an adult and a child facing each other.

ASU graduate student researching interplay between family dynamics, ADHD

The symptoms of attention deficit hyperactivity disorder (ADHD) — which include daydreaming, making careless mistakes or taking…

Portrait of Shaopeng Wang.

Will this antibiotic work? ASU scientists develop rapid bacterial tests

Bacteria multiply at an astonishing rate, sometimes doubling in number in under four minutes. Imagine a doctor faced with a…