Letter to the Editor: Bean-Associated Cytorhabdovirus and Papaya Cytorhabdovirus are Strains of the Same Virus
1
UFyMA-INTA-Conicet, Córdoba 5020, Argentina
2
Queensland Alliance for Agriculture and Food Innovation, The University of Queensland, St. Lucia, QLD 4072, Australia
*
Authors to whom correspondence should be addressed.
†
Member of the ICTV Rhabdoviridae Study Group.
Viruses 2019, 11(3), 230; https://doi.org/10.3390/v11030230
Submission received: 26 February 2019
/
Accepted: 5 March 2019
/
Published: 7 March 2019
(This article belongs to the Section Viruses of Plants, Fungi and Protozoa)
Dear Editor,
Recently, Alves-Freitas and colleagues [1] reported the complete genome sequence of a new cytorhabdovirus associated with a common bean in Brazil (GenBank accession number MK202584) which they tentatively named bean-associated cytorhabdovirus (BaCV). These authors reported that there was a low level of sequence identity with other cytorhabdoviruses (15-39%) and that RNA-dependent RNA polymerase (RdRp) phylogeny showed that the BaCV clustered most closely with yerba mate chlorosis-associated virus (YmCaV) and rice stripe mosaic virus (RSMV). Based on these results, the authors suggested that BaCV should be taxonomically classified as a new species in the genus Cytorhabdovirus. However, when we subjected BaCV protein sequences to Blastp analysis, the top hit (organism) was papaya cytorhabdovirus (PCRV) (GenBank accession number MH282832), whose complete genome sequence has been available in GenBank since October 1, 2018, almost three months before the manuscript describing BaCV was submitted to Viruses; the authors of the BaCV study may have overlooked the GenBank submission, since the work describing papaya cytorhabdovirus has not yet been published. This finding prompted us to further investigate the relationship between BaCV and PCRV. The genomic organization of both viruses, as well as the gene junction sequences are very similar. Moreover, when analogous genes of both viruses were compared to each other, the sequence identity was always above 92%, and as high as 96%, for the nucleocapsid protein (N) gene, and 97% for glycoprotein (G) and RdRp genes/proteins (Table 1), which suggests that BaCV and PCRV are strains of the same virus. Viruses assigned to different species within the genus Cytorhabdovirus have a minimum nucleotide sequence divergence of >50% in cognate genes [2], which is clearly not the case here. Interestingly, both viruses have a high amino acid sequence identity (over 89%) with virus-like sequences associated with the whitefly Bemisia tabaci available in GenBank (KJ994257; KJ994260; KJ994261; KJ994263; KJ994264 accession numbers). Phylogenetic analysis showed that the N (Figure 1A) and RdRp (Figure 1B) amino acid sequences of BaCV, PCRV, and Bemisia tabaci virus-like sequences (BTCRV) cluster together in a separate clade, indicating that these viruses are closely related. This phenomenon indicates that BaCV and PCRV are strains of the same virus and that Bemisia tabaci is a likely potential vector of these viruses (Figure 1B).
In conclusion, considering all the available data, the bean-associated cytorhabdovirus identified by Alvares-Freitas and collaborators [1] should be correctly classified as a bean-infecting strain of papaya cytorhabdovirus and not as a new virus. Our sequence analysis further suggests that this virus may be the first rhabdovirus to be potentially transmitted by whiteflies.
Author Contributions
Both authors wrote and revised the manuscript.
Conflicts of Interest
The authors declare no conflict of interest.
References
- Alves-Freitas, D.; Pinheiro-Lima, B.; Faria, J.; Lacorte, C.; Ribeiro, S.; Melo, F. Double-Stranded RNA High-Throughput Sequencing Reveals a New Cytorhabdovirus in a Bean Golden Mosaic Virus-Resistant Common Bean Transgenic Line. Viruses 2019, 11, 90. [Google Scholar] [CrossRef] [PubMed]
- Walker, P.J.; Blasdell, K.R.; Calisher, C.H.; Dietzgen, R.G.; Kondo, H.; Kurath, G.; Longdon, B.; Stone, D.M.; Tesh, R.N.; Tordo, N.; Vasilakis, N.; Whitfield, A.E. ICTV Report Consortium. ICTV virus taxonomy profile: Rhabdoviridae. J. Gen. Virol. 2018, 99, 447–448. [Google Scholar] [CrossRef] [PubMed]
Figure 1.
Neighbor joining trees inferred using an alignment of nucleocapsid (N protein) (A) and RdRp (L protein) (B) from 20 available cytorhabdovirus genome sequences. The genomes of the nucleorhabdoviruses sonchus yellow net virus (SYNV; L32603), datura yellow vein virus (DYVV; KM823531) and black currant-associated rhabdovirus (BCaRV; MF543022) were used as outgroup. The trees were constructed using the JTT model with 1000 bootstrap replicates. BaCV, PCRV, and BTCRV are within a green box. (B) also indicates known insect vector types. The cytorhabdoviruses used to construct the tree, and their accession numbers, are: alfalfa dwarf virus (ADV; KP205452), barley yellow striate mosaic virus (BYSMV; KM213865), bean-associated cytorhabdovirus (BaCV; MK202584) Bemisia tabaci virus-like sequences (BTCRV; KJ994260; KJ994261; KJ994263; KJ994264), cabbage cytorhabdovirus-1 (CCyV-1; KY810772), colocasia bobone-disease associated virus (CBDaV; KT381973), lettuce necrotic yellow virus (LNYV; AJ867584), lettuce yellow mottle virus (LYMoV; EF687738), maize-associated cytorhabdovirus (MaCyV; KY965147), maize yellow striate virus (MYSV; KY884672), northern cereal mosaic virus (NCMV; AB030277), papaya cytorhabdovirus (PCRV; MH282832), persimmon virus A (PeVA; AB735628), rice stripe mosaic virus (RSMV; KX525586), strawberry crinkle virus (SCV; MH129615), tomato yellow mottle-associated virus (TYMaV; KY075646), wuhan insect virus 4 (WhIV-4; KM817650), wuhan insect virus 5 (WhIV-5; KM817651), wuhan insect virus 6 (WhIV-6; KM817652), yerba mate chlorosis-associated virus (YmCaV; KY366322).
Figure 1.
Neighbor joining trees inferred using an alignment of nucleocapsid (N protein) (A) and RdRp (L protein) (B) from 20 available cytorhabdovirus genome sequences. The genomes of the nucleorhabdoviruses sonchus yellow net virus (SYNV; L32603), datura yellow vein virus (DYVV; KM823531) and black currant-associated rhabdovirus (BCaRV; MF543022) were used as outgroup. The trees were constructed using the JTT model with 1000 bootstrap replicates. BaCV, PCRV, and BTCRV are within a green box. (B) also indicates known insect vector types. The cytorhabdoviruses used to construct the tree, and their accession numbers, are: alfalfa dwarf virus (ADV; KP205452), barley yellow striate mosaic virus (BYSMV; KM213865), bean-associated cytorhabdovirus (BaCV; MK202584) Bemisia tabaci virus-like sequences (BTCRV; KJ994260; KJ994261; KJ994263; KJ994264), cabbage cytorhabdovirus-1 (CCyV-1; KY810772), colocasia bobone-disease associated virus (CBDaV; KT381973), lettuce necrotic yellow virus (LNYV; AJ867584), lettuce yellow mottle virus (LYMoV; EF687738), maize-associated cytorhabdovirus (MaCyV; KY965147), maize yellow striate virus (MYSV; KY884672), northern cereal mosaic virus (NCMV; AB030277), papaya cytorhabdovirus (PCRV; MH282832), persimmon virus A (PeVA; AB735628), rice stripe mosaic virus (RSMV; KX525586), strawberry crinkle virus (SCV; MH129615), tomato yellow mottle-associated virus (TYMaV; KY075646), wuhan insect virus 4 (WhIV-4; KM817650), wuhan insect virus 5 (WhIV-5; KM817651), wuhan insect virus 6 (WhIV-6; KM817652), yerba mate chlorosis-associated virus (YmCaV; KY366322).
Table 1.
Sequence identities between bean-associated cytorhabdovirus and papaya cytorhabdovirus.
| identity % (nt/aa) | |
|---|---|
| genome | 96.5 |
| 3’leader | 93.8 |
| N | 96.8/96.9 |
| P | 97.0/94.8 |
| P3 | 96.4/97.3 |
| P4 | 94.1/92.4 |
| M | 96.6/98.6 |
| G | 97.3/97.9 |
| L | 97.3/97.9 |
| 5’trailer | 95.2 |
nt: nucleotides; aa: amino acids.
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MDPI and ACS Style
Bejerman, N.; Dietzgen, R.G. Letter to the Editor: Bean-Associated Cytorhabdovirus and Papaya Cytorhabdovirus are Strains of the Same Virus. Viruses 2019, 11, 230. https://doi.org/10.3390/v11030230
AMA Style
Bejerman N, Dietzgen RG. Letter to the Editor: Bean-Associated Cytorhabdovirus and Papaya Cytorhabdovirus are Strains of the Same Virus. Viruses. 2019; 11(3):230. https://doi.org/10.3390/v11030230
Chicago/Turabian StyleBejerman, Nicolás, and Ralf G. Dietzgen. 2019. "Letter to the Editor: Bean-Associated Cytorhabdovirus and Papaya Cytorhabdovirus are Strains of the Same Virus" Viruses 11, no. 3: 230. https://doi.org/10.3390/v11030230
APA StyleBejerman, N., & Dietzgen, R. G. (2019). Letter to the Editor: Bean-Associated Cytorhabdovirus and Papaya Cytorhabdovirus are Strains of the Same Virus. Viruses, 11(3), 230. https://doi.org/10.3390/v11030230
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