ICTV Virus Taxonomy Profile: Chrysoviridae.

The Chrysoviridae is a family of small, isometric, non-enveloped viruses (40 nm in diameter) with segmented dsRNA genomes (typically four segments). The genome segments are individually encapsidated and together comprise 11.5-12.8 kbp. The single genus Chrysovirus includes nine species. Chrysoviruses lack an extracellular phase to their life cycle; they are transmitted via intracellular routes within an individual during hyphal growth, in asexual or sexual spores, or between individuals via hyphal anastomosis. There are no known natural vectors for chrysoviruses. This is a summary of the International Committee on Taxonomy of Viruses (ICTV) Report on the taxonomy of the Chrysoviridae, which is available at www.ictv.global/report/chrysoviridae.

Virion

Virions are isometric, non-enveloped and about 40 nm in diameter. The capsid of Penicillium chrysogenum virus comprises 60 copies of a 109 kDa polypeptide arranged on a T=1 icosahedral lattice (Table 1, Fig. 1). The capsid protein is formed by a repeated α-helical domain, indicative of gene duplication despite lack of sequence similarity between the two halves [1]. This domain has a fold that is conserved among dsRNA viruses [2].

Table 1.

Characteristics of the family Chrysoviridae

Typical member:	Penicillium chrysogenum virus ATCC 9480 (dsRNA1: AF296439; dsRNA2: AF296440; dsRNA3: AF296441; dsRNA4: AF296442), species Penicillium chrysogenum virus, genus Chrysovirus
Virion	Isometric, non-enveloped, 40 nm in diameter
Genome	A total of 11.5–12.8 kbp of dsRNA in a quadripartite genome with each segment separately encapsidated
Replication	Particles containing both dsRNA and ssRNA can be isolated from infected fungal hosts. Virions accumulate in the cytoplasm
Translation	From positive-sense transcripts of genomic dsRNAs
Host range	Fungi
Taxonomy	One genus (Chrysovirus) including nine species

Fig. 1.

Three-dimensional cryo-EM reconstruction of Penicillium chrysogenum virus virions at a resolution of 4.1 Å. (Left) Cryo-EM image of Penicillium chrysogenum virus (scale bar, 50 nm). (Middle) Atomic model of the Penicillium chrysogenum virus capsid viewed along a twofold axis. (Right) Atomic model of a Penicillium chrysogenum virus CP (top view) showing the N-terminal domain (1–498, blue), the linker segment (499–515, red) and the C-terminal domain (516–982, yellow). Symbols indicate icosahedral symmetry axes.

Genome

The genome consists of four linear, separately encapsidated, dsRNA segments of 2.5–3.6 kbp [3, 4]. The largest segment, dsRNA1, codes for the virion-associated, RNA-dependent RNA polymerase (RdRP; P1) and dsRNA2 codes for the major capsid protein (CP; P2). Both dsRNA 3 and 4 encode proteins of unknown function [5]. Sequences at the 5′- and 3′-UTRs are highly conserved among the four dsRNA segments (Fig. 2). In addition to the absolutely conserved 5′- and 3′-termini, a 40–75 nt region with high sequence identity is present in the 5′-UTR of all four dsRNAs (Box 1, Fig. 2). A second region of strong sequence similarity is present immediately downstream from Box 1 and consists of a stretch of 30–50 nt containing a reiteration of the sequence ‘CAA’. The (CAA)n repeats are similar to the enhancer elements present at the 5′-UTRs of tobamoviruses [6]. The N-terminal region of P3 shares high sequence similarity with the corresponding N-terminal region of RdRP (P7/P-loop domain; possibly a nucleotide triphosphate hydrase domain). P4 is a putative cysteine protease [7].

Fig. 2.

Genome organization of Penicillium chrysogenum virus isolate ATCC 9480 (PcV-ATCC9480). The genome consists of four dsRNA segments, each of which is monocistronic. The RdRP (P1) ORF (nt positions 145–3498 on dsRNA1), the CP (P2) ORF (nt positions 158–3106 on dsRNA2), the P3 ORF (nt positions 162–2900 on dsRNA3) and the P4 ORF (nt positions 163–2706 on dsRNA4) are represented by rectangular boxes.

Replication

Replication has not been characterized in detail. Particles containing a single molecule of dsRNA, as well as particles containing both dsRNA and ssRNA, can be isolated from an infected fungal host [3]. Virions accumulate in the cytoplasm.

Taxonomy

The family Chrysoviridae includes a single genus with nine species, whose members infect ascomycetous or basidiomycetous fungi.

Species demarcation criteria include nucleotide and deduced amino acid sequence data (≤70 % and ≤53 % aa sequence identity in the RdRP and CP, respectively). Chrysoviruses cause latent persistent infections in their fungal hosts. Unclassified, chrysovirus-related viruses with 3-segmented dsRNA genomes infect plants with no apparent damage [8]. Some chrysovirus-related viruses with five dsRNA genomic segments, however, cause deleterious effects in their fungal hosts [9]. blast searches using a Penicillium chrysogenum virus RdRP amino acid sequence show high sequence identity (37.6–70.2 %) to the RdRPs of members of the genus Chrysovirus and to related, unclassified viruses. Phylogenetic analysis based on the complete deduced amino acid sequences of RdRPs of members of the family Chrysoviridae, and of related, unclassified viruses with 3–5 dsRNA segments, leads to the identification of two large distinct clusters: cluster I corresponds to members of the genus Chrysovirus and related, unclassified viruses with three genome segments. Cluster II comprises related, unclassified viruses with four or five genome segments.

Resources

Full ICTV Online (10th) Report: www.ictv.global/report/chrysoviridae.