A Breakthrough in Kitavirids: Genetic Variability, Reverse Genetics, Koch's Postulates, and Transmission of Hibiscus Green Spot Virus 2.

Hibiscus green spot virus 2 (HGSV-2), a member of the genus Higrevirus (family Kitaviridae), is a positive-stranded RNA virus associated with leprosis-like symptoms in citrus and green spots on leaves in hibiscus. HGSV-2 has only been reported in Hawaii, and while it is speculated that mites in the genus Brevipalpus might be responsible for its transmission, proper transmission assays have yet to be conducted. This study characterizes additional citrus and hibiscus isolates of HGSV-2 collected from two Hawaiian Islands. We constructed an infectious cDNA clone from a hibiscus isolate of HGSV-2 collected on Oahu and demonstrated its ability to infect several experimental hosts, including Phaseolus vulgaris, Nicotiana tabacum, and N. benthamiana, as well as natural hosts, Citrus reticulata and Hibiscus arnottianus. Bacilliform virions with varied sizes of 33 to 120 nm (length) and 14 to 70 nm (diameter) were observed in partially purified preparations obtained from agroinoculated leaves. Virus progeny from the infectious cDNA clone was found to be infectious after mechanical transmission to N. benthamiana and to cause local lesions. Finally, an isoline colony of the mite Brevipalpus azores had vector competence to transmit a citrus isolate of HGSV-2 collected from Maui to citrus and hibiscus plants, demonstrating the mite-borne nature of HGSV-2. The infectious cDNA clone developed in this study is the first reverse-genetics system for a kitavirid and will be fundamental to better characterize basic biology of HGSV-2 and its interactions with host plants and mite vectors.

First report of the hibiscus strain of citrus leprosis virus C2 infecting passionfruit (Passiflora edulis).

In Hawaii, passionfruit (Passiflora edulis; Passifloraceae) is grown primarily in residential properties and community gardens (CG). In 2019, passionfruit plants displaying chlorotic spots on young leaves, and green spots in senescing leaves were observed at two CG in Honolulu. Symptoms resembled those of passionfruit green spot virus (PfGSV) infection in Passiflora spp. (Ramos-González et al. 2020) and of the hibiscus strain of citrus leprosis virus C2 (CiLV-C2H) infection in hibiscus in Hawaii (Melzer et al. 2013). Both viruses belong to the genus Cilevirus, family Kitaviridae. Total RNA was extracted from two sample pools comprised of 40 symptomatic leaves collected from both the CG following a CTAB-based procedure (Li et al. 2008). To identify the virus associated with the P. edulis infection, reverse transcription (RT)-polymerase chain reaction (PCR) was performed using CiLV-C2 (Olmedo-Velarde et al. 2021) and PfGSV specific primers (Ramos-González et al. 2020). RT-PCR assay amplified the CiLV-C2 amplicon but failed to produce the PfGSV amplicon from infected leaves. Amplicon sequencing followed by a BLASTn search showed the nucleotide sequence had >99% identity with the CiLV-C2H-RNA1 (KC626783). A ribo-depleted RNA library created using the TruSeq Stranded Total RNA Library Prep kit (Illumina) underwent high throughput sequencing (HTS) on a NextSeq550 Illumina platform (2x75 cycles). The 6.5 million raw reads obtained were trimmed, filtered, and de novo assembled using Metaviral SPAdes v. 3.15.02 (Antipov et al. 2020). The resulting contigs were searched against an in-house database generated from GenBank virus and viroid sequences using BLASTn. This identified 12 and 3 contigs corresponding to CiLV-C2H and watermelon mosaic virus, respectively, with the latter being previously reported in passionfruit (Watanabe et al. 2016). RNA1 contigs covered 80.17% of the CiLV-C2H genome, whereas RNA2 contigs covered 94.5% with an average coverage depth of 31.660 and 57.121, respectively. To obtain the near complete genome of CiLV-C2H, gaps from the assembled HTS data were filled by overlapping RT-PCR followed by Sanger sequencing. RNA1 (8,536 nt, Acc. No. MW413437) and RNA2 (4,878 nt, MW413438) genome sequences shared 99.2% and 97.0% identity with CiLV-C2H-RNA1 (KC626783) and -RNA2 (KC626784). To further confirm the presence of CiLV-C2H in symptomatic P. edulis plants, 40 symptomatic leaf samples were individually tested by RT-PCR, and 30 samples were positive. Brevipalpus mites collected from CiLV-C2H-positive P. edulis leaves were transferred to common bean (Phaseolus vulgaris) seedlings (Garita et al. 2013). At 15-30 days post-transfer, RNA extracted from lesions observed in recipient plants tested positive for CiLV-C2H by RT-PCR. Total RNA from individual Brevipalpus mites was isolated, and cDNA was prepared to tentatively identify the mite species involved in CiLV-C2H transmission in passionfruit (Druciarek et al 2019, Olmedo-Velarde et al. 2021). CiLV-C2H was detected in individual mites, and the 28S ribosomal mite RNA sequence (MZ478051) shared 99-100% nucleotide identity with B. yothersi (MK293678 and MT812697), a vector of CiLV-C2 (Roy et al. 2013). CiLV-C2 currently has a host range limited to the families Malvaceae, Araceae, and Rutaceae (Roy et al. 2015). CiLV-C2H infects hibiscus alone and citrus in mixed infection with CiLV-C2 (Roy et al; 2018) which is responsible for causing citrus leprosis disease. Detection of CiLV-C2H in passionfruit expands the number of host families of CiLV-C2H.

First report of orchid fleck virus associated with citrus leprosis symptoms in rough lemon (Citrus jambhiri) and mandarin (C. reticulata) the United States.

Citrus leprosis is an economically important disease of citrus in South and Central America. The disease can be caused by several non-systemic viruses belonging to the genera Cilevirus (family Kitaviridae) and Dichorhavirus (family Rhabdoviridae) (Roy et al. 2015; Freitas-Astúa et al. 2018). In February 2020, lesions consistent with citrus leprosis were observed on the leaves and stems of rough lemon (Citrus jambhiri) and mandarin (C. reticulata) trees in Hilo, Hawaii. Brevipalpus mites, vector of orchid fleck virus (OFV), were also present on these trees (Freitas-Astúa et al. 2018). To identify the virus associated with the symptoms, total RNA was isolated using a NucleoSpin RNA Plus kit (Macherey-Nagel) and underwent reverse transcription (RT)-PCR with two newly designed universal primers specific for dichorhaviruses (Dichora-R1-F1: 5`-CAYCACTGYGCBRTNGCWGATGA, Dichora-R1-R1: 5`-AGKATRTSWGCCATCCKGGCTATBAG). The expected ~350 bp amplicon was obtained and directly sequenced in both directions. Blastn and Blastx searches revealed that the primer-trimmed consensus sequence (MT232917) shared 99.3% nucleotide (nt) and 100% amino acid (aa) identity with an OFV isolate from Germany (AF321775). OFV has two orchid- (OFV-Orc1 and OFV-Orc2) and two citrus- (OFV-Cit1 and OFV-Cit2) infecting strains (Roy et al. 2020). However, an isolate of OFV-Orc1 has recently been associated with citrus leprosis in South Africa (Cook et al. 2019). To confirm the presence of OFV in Hawaiian citrus and identify the strain, symptomatic tissue was submitted to USDA-APHIS-PPQ-S&T where total RNA were extracted from the symptomatic tissue using RNeasy Plant Mini kit (Qiagen). The RNA samples were tested with OFV-Orc and OFV-Cit generic and specific primers in a conventional RT-PCR assay following optimized RT-PCR protocols (Roy et al. 2020). Two additional sets of generic primers (OFV-Orc-GPF: 5'-AGCGATAACGACCTTGATATGACACC, OFV-Orc-GPR: 5'-TGAGTGGTAGTCAATG CTCCATCAT and OFV-R2-GF1: 5'- CARTGTCAGGAGGATGCATGGAA, OFV-R2-GR: 5'- GACCTGCTTGATGTAATTGCTTCCTTC') were designed based on available OFV phospho (P) and large (L) polyprotein gene sequences in GenBank. These assays detected OFV-Orc2 in the symptomatic citrus samples, with the nucleocapsid (1353 bp), P (626 bp), and L (831 bp) gene sequences sharing 97 to 98% identity with published OFV-Orc2 sequences (AB244417 and AB516441). Ribo-depleted RNA (Ribo-Zero, Illumina) was prepared using a TruSeq Stranded Total RNA Library Prep kit (Illumina) and underwent high throughput sequencing (HTS) on a MiSeq platform (Illumina). The resulting 19.6 million 2x75bp reads were de novo assembled using SPAdes v. 3.10.0 (Bankevitch et al. 2012). In addition to sequences corresponding to citrus tristeza virus and citrus vein enation virus, two contigs of 6,412 nt (average depth 18,821; MW021482) and 5,986 nt (average depth 19,278; MW021483), were found to have ≥98% identity to RNA1 (AB244417) and RNA2 (AB244418) of OFV isolate So (Japan), respectively. This is the first report of OFV in Hawaii and the first time leprosis has been observed in the USA since it was eradicated from Florida in the 1960s, although that outbreak was attributed to infection by citrus leprosis virus-N0, a distant relative of OFV (Hartung et al. 2015). The recent detection of citrus leprosis associated with OFV infection in South Africa (Cook et al. 2019) and now Hawaii underscores the threat this pathogen poses to the global citrus industry.

Role Bending: Complex Relationships Between Viruses, Hosts, and Vectors Related to Citrus Leprosis, an Emerging Disease.

Citrus leprosis complex is an emerging disease in the Americas, associated with two unrelated taxa of viruses distributed in South, Central, and North America. The cytoplasmic viruses are Citrus leprosis virus C (CiLV-C), Citrus leprosis virus C2 (CiLV-C2), and Hibiscus green spot virus 2, and the nuclear viruses are Citrus leprosis virus N (CiLV-N) and Citrus necrotic spot virus. These viruses cause local lesion infections in all known hosts, with no natural systemic host identified to date. All leprosis viruses were believed to be transmitted by one species of mite, Brevipalpus phoenicis. However, mites collected from CiLV-C and CiLV-N infected citrus groves in Mexico were identified as B. yothersi and B. californicus sensu lato, respectively, and only B. yothersi was detected from CiLV-C2 and CiLV-N mixed infections in the Orinoco regions of Colombia. Phylogenetic analysis of the helicase, RNA-dependent RNA polymerase 2 domains and p24 gene amino acid sequences of cytoplasmic leprosis viruses showed a close relationship with recently deposited mosquito-borne negevirus sequences. Here, we present evidence that both cytoplasmic and nuclear viruses seem to replicate in viruliferous Brevipalpus species. The possible replication in the mite vector and the close relationship with mosquito borne negeviruses are consistent with the concept that members of the genus Cilevirus and Higrevirus originated in mites and citrus may play the role of mite virus vector.

A cilevirus infects ornamental hibiscus in Hawaii.

The complete nucleotide sequence of a virus infecting ornamental hibiscus (Hibiscus sp.) in Hawaii with symptoms of green ringspots on senescing leaves was determined from double-stranded RNA isolated from symptomatic tissue. Excluding polyadenylated regions at the 3' termini, the bipartite RNA genome was 8748 and 5019 nt in length for RNA1 and RNA2, respectively. The genome organization was typical of a cilevirus: RNA1 encoded a large replication-associated protein with methyltransferase, protease, helicase and RNA-dependent RNA polymerase domains as well as a 29-kDa protein of unknown function. RNA2 possessed five open reading frames that potentially encoded proteins with molecular masses of 15, 7, 62, 32, and 24 kDa. The 32-kDa protein is homologous to 3A movement proteins of RNA viruses; the other proteins are of unknown function. A proteome comparison revealed that this virus was 92 % identical to citrus leprosis virus cytoplasmic type 2 (CiLV-C2), a recently characterized cilevirus infecting citrus with leprosis-like symptoms in Colombia. The high sequence similarity suggests that the virus described in this study could be a strain of CiLV-C2, but since the new genus Cilevirus does not have species demarcation criteria established at present, the classification of this virus infecting hibiscus is open to interpretation. This study represents the first documented case of a cilevirus established in the United States and provides insight into the diversity within the genus Cilevirus.

Characterization of a virus infecting Citrus volkameriana with citrus leprosis-like symptoms.

A Citrus volkameriana tree displaying symptoms similar to citrus leprosis on its leaves and bark was found in Hawaii. Citrus leprosis virus C (CiLV-C)-specific detection assays, however, were negative for all tissues tested. Short, bacilliform virus-like particles were observed by transmission electron microscopy in the cytoplasm of symptomatic leaves but not in healthy controls. Double-stranded (ds) RNAs ≈8 and 3 kbp in size were present in symptomatic leaf tissue but not in healthy controls. Excluding poly(A) tails, the largest molecule, RNA1, was 8,354 bp in length. The ≈3 kbp dsRNA band was found to be composed of two distinct molecules, RNA2 and RNA3, which were 3,169 and 3,113 bp, respectively. Phylogenetic analyses indicated that the RNA-dependent RNA polymerase (RdRp) domain located in RNA1 was most closely related to the RdRp domain of CiLV-C. A reverse-transcription polymerase chain reaction assay developed for the detection of this virus was used to screen nearby citrus trees as well as Hibiscus arnottianus plants with symptoms of hibiscus green spot, a disease associated with infection by Hibiscus green spot virus (HGSV). All nearby citrus trees tested negative with the assay; however, symptomatic H. arnottianus plants were positive. All three RNAs were present in symptomatic H. arnottianus and were >98% identical to the RNAs isolated from C. volkameriana. We contend that the virus described in this study is HGSV, and propose that it be the type member of a new virus genus, Higrevirus.