The nucleotide sequence of the Iranian maize mosaic rhabdovirus (IMMV) was obtained using a random-PCR method (rPCR) followed by PCR with specific primers. Analysis of the complete nucleotide sequence of the IMMV genes and intergenic regions comprising a total of 12,381 nucleotides (including the partial sequences of leader and trailer regions) revealed six open reading frames (ORF) on the viral complementary RNA (vcRNA). On the basis of its similarities to other rhabdovirus sequences, the IMMV genome consists of 3'-leader-N-P-3-M-G-L-5'-trailer. The intergenic regions contained a characteristic consensus sequence, 3'-AAUUCUUUUUGGGUUU/G-5'. The IMMV gene products showed a high similarity to those of maize mosaic virus and taro vein chlorosis virus and a more distant relationship to other rhabdoviruses. Together with the biological, serological and morphological features described earlier, our molecular data provide evidence that IMMV is a distinct member of the genus Nucleorhabdovirus in the family Rhabdoviridae.
In summer 2009, a survey for virus diseases in cucurbits was conducted in open fields and plastichouses in Khartoum State, the most important growing area for cucurbits in Sudan. Chlorosis and yellowing symptoms on middle and lower leaves were observed on many muskmelon (Cucumis melo L.) plants grown in open fields in the Assilat agricultural scheme and on approximately 80% of the cucumber (Cucumis sativus L.) plants grown in plastichouses in Khartoum North. Large populations of whiteflies (Bemisia tabaci L.) were present in both locations. Leaf symptoms that were observed were similar to those caused by Cucurbit chlorotic yellows virus (CCYV), a recently described new Crinivirus species infecting cucurbits in Japan (4), indicating presence of this virus previously only reported from Japan, Taiwan (2), and China (1). Samples from seven symptomatic muskmelon leaves were collected from individual plants grown in different open fields in Assilat and from a symptomatic cucumber plant grown in a plastichouse. Total RNA was extracted from these samples with the RNeasy Plant Mini Kit (QIAGEN, Hilden, Germany) to amplify putative CCYV sequences with primers (Crini-s2 5′-CATTCCTACCTGTTTAGCCA and Crini-as2 5′-TGCACTTATAATCTGCTGGTAC) designed from CCYV sequences available at GenBank. A 353-bp DNA fragment of the HSP70 gene was amplified by reverse transcription (RT)-PCR for all samples. Further analysis by direct sequencing of two PCR products showed 99 to 100% nt sequence identity to Asian CCYV isolates. Amplification of the coat protein sequence with the primer pair (CCYV-CPs 5′-ATGGAGAAGACTGACAATAAACAA and CCYV-CPas 5′-TTTACTACAACCTCCCGGTG) followed by cloning and sequencing yielded a 760-bp fragment having 99% nucleotide sequence identity to all Asian isolates. For confirmation, dsRNA preparations of symptomatic muskmelon tissue (collected in June 2010) were made, showing dsRNA patterns typical for criniviruses after separation on agarose gels. This dsRNA was used as template for random RT-PCR followed by sequencing of the cloned PCR products (3). Comparison with sequences available at GenBank revealed that cDNA sequences from dsRNA also were 99 to 100% identical to the CCYV genome sequence (AB523788.1). Whitefly transmission of the virus was confirmed by giving a population of B. tabaci an acquisition access period of 24 h and a further 24 h on muskmelon and cucumber seedlings. Symptoms were observed after 5 to 7 days, and the presence of CCYV was confirmed by RT-PCR. In conclusion, symptoms, RT-PCR, and dsRNA sequencing results confirm the presence and establishment of CCYV in cucurbit crops in Sudan. It is remarkable that the sequences obtained from the Sudanese samples show only negligible sequence differences from Asian isolates. Because of the large whitefly vector populations, the spread of CCYV to neighboring countries in Africa and potentially southern Europe, or wherever cucurbits are grown, can be expected. To our knowledge, this is the first report of CCYV in Sudan and outside Eastern Asia. The sequences obtained in this study have been submitted to GenBank under Accession Nos. JF807053 to JF807055. References: (1) Q. S. Gu et al. Plant Dis. 95:73, 2011. (2) L. H. Huang et al. Plant Dis. 94:1168, 2010. (3) W. Menzel et al. Arch. Virol. 154:1343, 2009. (4) M. Okuda et al. Phytopathology 100:560, 2010.
Yellowing diseases of field- and greenhouse-grown cucurbits are becoming increasingly important in many cucurbit cultivation areas in Iran. Virus surveys were conducted from 2011 to 2012 in greenhouse-grown cucumber (Cucumis sativus L.) and field-cultivated cucumber, squash (Cucurbita sp.) and melon (Cucumis melo L.) in Tehran, Semnan, Bushehr, Hormozgan, Isfahan, Yazd, and Fars provinces, the major cucurbit-growing areas in Iran. Leaf samples with various symptoms, e.g., chlorosis, interveinal chlorotic spots on lower leaves, bright yellow color or sever yellowing on older leaves, were collected and screened for the presence of the whitefly transmitted criniviruses (family Closteroviridae) Cucurbit chlorotic yellows virus (CCYV) and Cucurbit yellow stunting disorder virus (CYSDV) through double-antibody sandwich (DAS)-ELISA, using CCYV and CYSDV specific antisera (DSMZ, Germany). The ELISA results showed that of 347 cucumber leaf samples originating from cucumber greenhouses, 170 and 65 were positive for CCYV and CYSDV, respectively, and 45 samples were infected with both viruses. In addition, of 147 leaf samples collected from melon, cucumber, and squash grown in open fields, 57 and 53 were infected with CCYV and CYSDV, respectively, and 14 were infected with both viruses. These results indicate that these two viruses are widely distributed on these cucurbit crops in Iran. CCYV was not detected in Bushehr and CYSDV was not detected in Isfahan and Hormozgan provinces. To confirm the presence of CCYV and CYSDV, total RNA was extracted (Sigma Chemical, St. Louis, MO) from 18 samples that reacted positive in DAS-ELISA originating from different surveyed provinces. RT-PCR was carried out using specific primers Crini-s2 (5′-CATTCCTACCTGTTTAGCCA-3′) (2) and Crini-as1 (5′-ATCCTTCGCAGTGAAAAACC-3′) to amplify a 460-bp fragment of the HSP70 gene and CCYV using specific primers CCYV-HSP-F1 (5′-TGCGTATGTCAATGGTGTTATG-3′) and CCYV-HSP-R1 (5′-ATCCTTCGCAGTGAAAAACC-3′) to amplify a 462-bp fragment of the HSP70 gene (latter 3 primers from [3]). Expected DNA fragments for CYSDV and CCYV were amplified from 11 (CCYV 7/11, CYSDV 4/11) of 18 samples but not from any of the healthy controls. Further analysis by sequencing three selected PCR products amplified with primers CCYV-HSP-F1/R1 showed complete consensus among the sequences, and in comparison with sequences available at GenBank, the highest identities were obtained to Asian CCYV isolates (94% nt/98% aa identity). The CCYV sequences were deposited in GenBank under accessions KC559449 to KC559451. The identity of the amplified CYSDV DNA could also be confirmed by sequencing of three PCR products. CCYV has first been proven to occur in different countries in East Asia and has recently been reported from Sudan (2) and Lebanon (1), indicating the putative spread of the virus wherever cucurbits are grown and its vector, the whitefly Bemisia tabaci, is present. Large populations of whiteflies were present in all surveyed areas. However, to our knowledge, this is the first report for the occurrence of CCYV in Iran. In conclusion, the presence of CCYV and CYSDV in the major cucurbit growing provinces and the large whitefly population pose a serious threat to cucurbit production in Iran. References: (1) P. E. Abrahamian et al. Plant Dis. 96:1704, 2012. (2) K. Hamed et al. Plant Dis. 95:1321, 2011. (3) R. Zeng et al. Plant Dis. 95:354, 2011.
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