Tomato (Solanum lycopersicum L.) is an important vegetable crop worldwide. In spring and autumn 2017, virus-like symptoms were observed on greenhouse grown tomato plants in the east of Akkar plain (south of coastal region, Tartous governorate, Syria). These symptoms were: mild to severe mosaic on the apical leaves, brown necrosis on sepals, receptacle and flower’s cluster carrier, and severe symptoms of brown rugose and discoloration on fruit. During next growing seasons, disease spread was observed in most of Syrian coastal region with disease incidence ranged from 40% to 70% by 2020. Tomato brown rugose fruit virus (ToBRFV) was suspected as a main causal agent of the disease, especially since its first report in Jordan, a neighboring country (Salem et al. 2016), Palestine (Alkowni et al. 2019), Turkey (Fidan et al. 2019), Germany (Menzel et al. 2019), Italy (Panno et al. 2019), America (Camacho-Beltrán et al. 2019), Egypt (Amer and Mahmoud, 2020), and recently in Spain (Alfaro-Fernandez et al. 2021). In November and December 2020, seventy-one leaf samples from symptomatic plants (59 from Tartous and 12 from Lattakia governorates) and seven from asymptomatic ones (5 from Tartous and 2 from Lattakia) were collected and tested for the presence of ToBRFV by double-antibody sandwich enzyme-linked immunosorbent assay (DAS-ELISA), using ToBRFV-commercial kit (LOEWE® Biochemia, Germany) following the manufacturer’s instructions. Results showed, forty-three of symptomatic samples reacted positively (38 in Tartous and 5 in Lattakia) and none of asymptomatic ones. On the other hand, sap mechanical inoculation of 10 tomato cv. Mandaloun F1 (Enza Zaden, the Netherlands) plants using a positive tomato isolate gave systemic mosaic symptoms in all plants identical to those observed in the original plants in the field, after 13 days of inoculation, and necrotic local lesions on 10 plants of Nicotiana tabacum after 5 days, indicating the presence of a tobamovirus in general. ToBRFV infection was confirmed in all mechanically-inoculated plants by DAS-ELISA. Further tests were necessary to investigate ToBRFV presence, because of its serological relationships with another tobamoviruses. Six representative symptomatic samples (ELISA-positive) and two asymptomatic (ELISA-negative) samples were subjected to total RNA extraction using the SV-Total RNA Extraction kit (Promega, U.S.A.) following the manufacturer’s instructions. The samples were tested by two-step reverse transcription-polymerase chain reaction (RT-PCR) using species-specific primers and protocols for most common tomato-infecting viruses, including: tomato chlorosis virus and tomato infectious chlorosis virus (Dovas et al. 2002), pepino mosaic virus (PepMV) and tomato torrado virus (Wieczorek et al. 2013), alfalfa mosaic virus (Parrella et al. 2000), tomato spotted wilt virus (Salem et al. 2012) and a pair of primers: ToBRFV-F2 (5’-CATATCTCTCGACACCAGTAAAAGGACCCG-3’) and ToBRFV-R2 (5’-TCCGAGTATAGGAAGACTCTGGTTGGTC-3’) targeting a region of the RNA dependent RNA polymerase (RdRp), of the ToBRFV genome (KT383474; Salem et al. 2016). First-strand cDNA synthesis was carried out using Moloney murine leukemia virus reverse transcriptase (M-MLV RT; Promega) and random primer according to the manufacturer's protocol, then followed by PCR with the seven species-specific primers. Only ToBRFV was detected among all tested viruses in symptomatic samples (ELISA-positive), and none of the tested viruses was detected in the asymptomatic plants. To confirm the presence of ToBRFV, two selected RdRp-specific PCR amplicons (872 bp) were purified and ligated into pGEM T-Easy Vector (Promega), and three clones were sequenced (GenBank accession nos. MZ447794 to 96). BLASTn analysis showed that the nucleotide sequences are 99.77-100% identical and shared around 99% identity to RdRp of ToBRFV isolate (MT118666) from Turkey available in the GenBank. Accordingly, the presence of ToBRFV was confirmed by bioassays on indicator plants, DAS-ELISA, RT-PCR, and further sequencing. To our knowledge, this is the first report of ToBRFV infecting tomato in Syria, and this requires special emphasis for further investigations because of the virus severity, easy transmission ability and absent of commercial resistance varieties till now.
A study was conducted at the Horticulture Farm, Sher-e-Bangla Agricultural University, Bangladesh during April to September, 2012 to determine the suitability of selected plant growth regulators and the proper use and effectiveness of selected organic manures and also their suitable combinations for successful okra production. The experiment consisted of two factors: factor A: growth regulators as -G 0 : control (water), G 1 : GA 3 (100 ppm) and G 2 : Miraculan (1000 ppm) and factor B: organic manures as -OM 0 : control (no manure), OM 1 : vermicompost (9 t/ha) and OM 2 : poultry manure (11.5 t/ha). The combined use of GA 3 and poultry manure produced the tallest plants. Both the growth regulators and organic manures enhanced early flowering. In case of growth hormone, the highest yield (16.67 t/ha) was recorded from G 1 followed by G 2 (16.49 t/ha). The highest yield (18.03 t/ha) was found from OM 2, closely followed by OM 1 (17.59 t/h). Considering the treatment combinations, the highest yield was harvested from G 1 OM 2 (19.62 t/ha), followed by G 1 OM 1 (19.01 t/h), G 2 OM 1 (18.42 t/h) and G 2 OM 2 (18.30 t/h), respectively.
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