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3. Identification and Partial Characterization of Viral Agent of Lettuce Big Vein in Tehran Province

Author

Mosahebi G, M. Koohi Habibi, and F Heidari

Subjects
Varicosavirus, Gene bank, biology, Chenopodium, Inoculation, Lactuca, biology.organism_classification, Nicotiana occidentalis, Virology, Chenopodium quinoa, Virus
Abstract

Background and Aims: The causal agents of viral lettuce big vein disease are two viruse, Lettuce big vein associated virus (Varicosavirus) and Mirafiori lettuce virus (Ophiovirus). These viruses have coat proteins of similar size but have different morphologies and serologically unrelated.The purpose of this study was to distinguish and detect LBVaV and MiLV in lettuce fields in Tehran Province. Patients and Methods: A total 344 samples with mosaic and big vein, head stunt, leaf deformation and motteling symptoms were collected from lettuce fields in Tehran Province.Using DAS – ELISA and specific antiserum for MiLV (DSMZ, AS-0798) and RTPCR for LBVaV. Positive samples in ELISA and RT-PCR were inoculated on index plants,including Chenopodium quinoa, Chenopodium amaranticolor, Lactuca sativa and Nicotiana occidentalis p1. Results: The results of ELISA and RT-PCR about MiLV showed that, virus is transmitted on C.quinoa and produced chlorotic local lesion but about LBVaV, RT-PCR showed that C.quinoa and C.amaranticolor were infected and the virus caused chlorotic local lesion. Extraction of total RNA with three methods using RNAWIZ buffer, Guanidium isothiosianat buffer and Qiagen kit showed that exteraction with RNeasy plant minikit (Qiagen company) is better for RT-PCR. RT-PCR with LBVaV and MiLV specific primer pairs (were designed with Navaro et al. 2004) were performed and the fragment length were amplified for LBVaV and MiLV respectively 296bp and 469bp. The sequence nucleotides of CP of LBVaV was determined and had high similarity with other isolates in gene bank. Conclusion: This is the first report of occurrence of these viral diseases in lettuce in Iran (Tehran Province).

Published
2010

4. Study of biological and molecular characterization of pepper-PVY isolated from Tehran pepper fields and it’s comparison with other PVY isolates

Author

Mosahebi G, E Ansari Dezfouli, S Mostafaei, and M Kouhi Habibi

Subjects
Reverse transcription polymerase chain reaction, biology, Potato virus Y, Host (biology), Sequence analysis, fungi, Pepper, Potyvirus, food and beverages, biology.organism_classification, Virology, Solanaceae, Serology
Abstract

Potato virus Y a type species of the genus potyvirus infects several crops in the family solanaceae. PVY isolated from field infected peppers was identified on the basis of host reaction, serological and molecular characterization. The result of ELISA, Immunoblot electrophoresis and Immuno Capture Reverse Transcription Polymerase Chain Reaction (IC- RT-PCR) indicated that pepper isolate of PVY shares the reported properties of the PVY but in host range studies some differences were observed. For this reason the sequence analysis was performed .This is the first report of PVY incidence in Iran pepper fields.

Published
2007

5. Characterization of a filamentous virus from Bermuda grass and its molecular, serological and biological comparison with Spartina mottle virus

Author

Ahmad Hosseini, Claudio Ratti, C. Rubies-Autonell, Keramat Izadpanah, M. Koohi Habibi, and Mosahebi G

Subjects
Sequence Homology, Iran, Genome, Virus, Phylogenetics, Virology, Plant virus, Animals, Cluster Analysis, Serotyping, Phylogeny, Plant Diseases, Aphid, biology, Phylogenetic tree, Potyviridae, Reverse Transcriptase Polymerase Chain Reaction, General Medicine, Sequence Analysis, DNA, Cynodon dactylon, biology.organism_classification, Cynodon, Italy, Aphids, RNA, Viral
Abstract

Bermuda grass with mosaic symptoms have been found in many parts of Iran. No serological correlation was observed between two isolates of this filamentous virus and any of the members of the family Potyviridae that were tested. Aphid transmission was demonstrated at low efficiency for isolates of this virus, whereas no transmission through seed was observed. A DNA fragment corresponding to the 3′ end of the viral genome of these two isolates from Iran and one isolate from Italy was amplified and sequenced. A BLAST search showed that these isolates are more closely related to Spartina mottle virus (SpMV) than to any other virus in the family Potyviridae. Specific serological assays confirmed the phylogenetic analysis. Sequence and phylogenetic analysis suggested that these isolates could be considered as divergent strains of SpMV in the proposed genus Sparmovirus.

Published
2010

9. Occurrence and distribution of Potato virus Y strain N (PVY(N)) on celery in Iran.

Author

Khoshkhatti N, Habibi Koohi M, and Mosahebi G

Subjects
Apium genetics, DNA Primers, DNA, Complementary genetics, DNA, Plant genetics, Iran, Mosaicism, Plant Diseases genetics, Plant Diseases virology, Plant Leaves virology, Potyvirus pathogenicity, RNA, Plant genetics, Seasons, Apium virology, Potyvirus isolation & purification
Abstract

Celery (Apium graveolens) is an important crop grown in many countries. Different types of diseases present a major constraint to Celery production and can lead to significant reductions in yield Potato Virus Y, the type member of the genus Potyvirus(family Potyviridae) is one of the causal agents of viral diseases in crops. In the present study, PVY occurring in celery fields was determined as the causal agent of mosaic disease of celery (Apium graveolens). The virus is naturally transmitted by aphids in a non-persistent manner. During growing seasons 2006-2007 celery fields were visited through Tehran Province and a total 332 sample based on selection of plants expressing symptoms like mosaic, vein clearing and mottling were collected. By using serological method (DAS-ELIZA) with specific antiserum of PVY (DSMZ-AS-0137.403) 17.64% of the samples were infected with PVY .The reaction of PVY infected samples were positive in TAS-ELIZA with specific monoclonal antibody (MAbs) of PVYN strain (DSMZ-AS-403.1). PVY N strain isolated from celery was reported for the first time in Iran and in the world in this survey.

Published
2009

10. Carnation mottle virus, an important viral agent infecting carnation cut-flower crops in Mahallat of Iran.

Author

Safari M, Koohi Habibi M, Mosahebi G, and Dizadji A

Subjects
Carmovirus classification, Geography, Iran, Plant Leaves virology, Carmovirus isolation & purification, Carmovirus pathogenicity, Crops, Agricultural virology, Flowers virology, Plant Diseases virology
Abstract

One of the most important cut-flower crops grown worldwide on commercial scale is Carnation (Dianthus caryophyllus L.). It's the main production of Mahallat where is one of the most important ornamental plants production centers of Iran. Infection of carnation with pathogens Like viral agents causes economic losses in carnation cut-flower crop. One of the viral agents of this flower is Carnation mottle virus (CarMV) which is the type member of genus Carmovirus and belongs to the Tombusviridae family. It is naturally transmitted by grafting and contacting between plants. Although its infection lead to mild symptims, it weakens the plant to infection by other pathogens. The carnation greenhouses of Mahallat were visited during 2008 January to April and 100 samples with mild mosaic symptom were collected and tested by DAS-ELISA using CarMV specific polyclonal antibody. The results showed that 75% of samples wrere infected with this virus. Mechanical inocubation of Chenopodium quinoa, C. amaranticolor and Spinacea oleracea with extracted crude sap of CarMV infected carnation Leaves in phosphate buffer (pH, 7) resulted in appearance of chlorotic and necrotic local lesions on inoculated leaves 4-7 days after incubation. The virus was partially purified using C. amaranticolor locally symptomatic leaves. Total soluble proteins were extracted from healthy and CarMV infected C. amaranticolor plants and beside partially purified preparation electrophoresed through 15% poly acrylamide get according to SDS-PAGE standard procedure. Protein bands were electroblotted onto nitrocelluse membrane and incubated with CarMV polyclonal during western immunoblot analysis according to standard method. The result revealed a distinc protein band with Mr of 35.5 kDa in total protein preparation of infected plant and viral partial pure preparation, without any reaction in those of healthy plant. RT-PCR carried out using total RNA extracted from infected plant by Rneasy Plant Mini Kit (Qiagen)and a pair of primers, CPu, CPd, corresponding to the flanking region of the virus CP resulted in amplification of a DNA fragment in expected size around 1 kbp.

Published
2009

11. Differentiation of Magnaporthe species complex by rep-PCR genomic fingerprinting.

Author

Motallebi P, Javan-Nikkhah M, Okhovvat M, Berdi Fotouhifar K, and Hossien Mosahebi G

Subjects
DNA Fingerprinting, DNA, Fungal genetics, Digitaria microbiology, Iran, Magnaporthe classification, Magnaporthe pathogenicity, Plant Diseases microbiology, Polymerase Chain Reaction methods, Setaria Plant microbiology, Genetic Variation, Magnaporthe genetics, Oryza microbiology
Abstract

Rice blast disease, caused by the fungus Magnoporthe grisea is responsible for considerable damages on rice and leaf spot on some weeds in Iran and in other parts of the world. Infected samples were collected from rice and weeds including Digitaria sanguinalis (crabgrass), Setaria italica (foxtail millet), Echinochloa crus-galli (barnyard millet), and some unknown weeds during 1997-2005 and were preserved in collection of Mycology at the University of Tehran, Iran. In this study, genetic diversity of Magnaporthe grisea species complex isolates was studied based on DNA fingerprinting by rep-PCR, using of two primers including ERIC and BOX. The total DNA of 75 isolates was extracted and DNA fragments were amplified in a thermal cycler program using mentioned primers. Therefore, DNA fragments from 400 bp to 3000 bp were amplified. Based on cluster analysis for two primers (ERIC and BOX), eight fingerprinting groups (ctonal lineages) and sixty haplotypes were identified. "A" clonal lineage was containing the highest number of isolates and became dominant clonal lineages with 35 isolates from rice and 3 isolates from S. italica, whereas the highest number of isolates obtained from D. sanguinalis belonged to "E" clonal lineage and was the second largest clonal lineage. Approximately all of the M. grisea species complex isolates from crabgrass and some of unknown weeds were separated from other isolates in 42% similarity. As a result, asexual fertility causes low diversity in populations of M. grisea species complex and speciation could be one of the reasons of differentiation between isolates from D. sanguinalis with other isolates. Overall, these data indicated a low level of genetic diversity in the Iranian M. grisea species complex population similar to that reported in other countries.

Published
2009

12. Virus diseases in the tobacco fields of Guilan and Western Azerbaijan provinces of Iran.

Author

Khateri H, Moarrefzadeh N, Mosahebi G, and Koohi-Habibi M

Subjects
Antibodies, Monoclonal, Disease Outbreaks, Enzyme-Linked Immunosorbent Assay methods, Ilarvirus isolation & purification, Ilarvirus pathogenicity, Incidence, Iran epidemiology, Mosaic Viruses isolation & purification, Mosaic Viruses pathogenicity, Nepovirus isolation & purification, Nepovirus pathogenicity, Plant Leaves virology, Plant Viruses pathogenicity, Potyvirus isolation & purification, Potyvirus pathogenicity, Plant Diseases virology, Plant Viruses isolation & purification, Nicotiana virology
Abstract

Tobacco (Nicotiana tabacum L.) is one of the important industrial plants in Iran. Viruses as an important group of plant pathogens cause many losses on the quality and quantity of tobacco crop. There was few information on the types of plant viruses infecting the tobacco fields of Guilan and almost no information for Western Azerbaijan province. During 2005-2007, leaf samples were taken from symptomatic plants in the growing areas of these two provinces. The observed symptoms on plants in the fields varied from mild mosaics to severe necrosis. The regions of sampling were including Rasht, Bazar-jomeh, Soumae-Sara, Talesh and Astara in Guilan and Ourmia, Sardasht and Ghara-Ziaeddin in Western Azerbaijan. The tobacco types and varieties from which the samples were taken included air-cured burley variety Burley 21 and to a lesser extent, oriental tobacco variety Basma Serres in W. Azerbaijan and flue-cured varieties Coker 347 and Virginia El in Guilan province. Samples were tested by DAS-ELISA method (Clark and Adams, 1977) using the polyclonal antibodies for a set of tobacco viruses. Some samples with positive reactions in DAS-ELISA were inoculated to indicator test plants such as Chenopodium amaranticolor, Datura metel, D. stramonium, Physalis floridana, Nicotiana rustica, N. glutinosa, and tobacco (varieties White burley and Samsun). The results of greenhouse experiments were consistent with serological tests. The following viruses which are listed in order of their overall abundance within the tested samples were detected: Tobacco streak virus (TSV), Tomato spotted wilt virus (TSWV), Tobacco etch virus (TEV), Tobacco ringspot virus (TRSV), Potato virus Y (PVY), Cucumber mosaic virus (CMV) and Tobacco mosaic virus (TMV). In all samples more than one virus infection was detected. The most severe mosaic type symptoms including the deformation and blistering on leaves were mainly seen in the infections by CMV and TMV. The most severe necrotic type symptoms including necrosis of midribs or veins and in some cases stem necrosis were generally associated with the infections by PVY and TSWV. Except TMV infection which was not detected in the Burley 21 variety in W. Azerbaijan, the above mentioned viruses were present in all sampling regions. The lack of TMV infection on Burley 21 is due to the presence of N gene, conferring resistance in this variety.

Published
2008

13. Nodule infection by bean yellow mosaic virus in Vicia faba and molecular characterization of it.

Author

Rohani B, Habibi MK, and Mosahebi G

Subjects
Base Sequence, DNA Primers, Enzyme-Linked Immunosorbent Assay methods, Gene Amplification, Iran, Plant Root Nodulation, Reverse Transcriptase Polymerase Chain Reaction methods, Species Specificity, Vicia faba classification, Mosaic Viruses genetics, Plant Diseases virology, Vicia faba virology
Abstract

Root nodules infection of different faba bean (Vicia faba L.) cultivars by bean yellow mosaic virus (BYMV) and the effect of the disease on the specific activity of the nodule are reported. The disease reduced the fresh weights of tops, roots, root nodules and induced premature nodule decay and/or nodule drop. Six local cultivars: Barekat, Iranshahri, Saraziri, Aljazayeri, Shakhbozi and Zohre of faba bean were selected and inoculated with BYMV under greenhouse conditions. ELISA test (DAS-ELISA) with specific BYMV antibody (DSMZ AS0471) demonstrated that nodules from faba bean plants which had been inoculated with BYMV contain the virus too. Susceptibility of different faba bean cultivars was analyzed by ELISA. The relative accumulations of BYMV in the nodules were evaluated by mean ELISA values (OD405) of BYMV. There was significantly difference in cultivars. Cultivars went more susceptible from Barekat to Iranshahri, Saraziri, Aljazayeri, Shakhbozi and Zohre. High susceptibility of Zohre was confirmed in a second experiment including visual evaluation and DAS ELISA. Analysis by IC-RT-PCR revealed the presence of the virus in all nodules and amplified a 970 bp fragment with specific designed primers (Forward primer (5'-CT(AC) CA(AG) ATG GAG AA(CT) CC(CT) GC 3') and Reverse primer (5'-CCA AAG TTC CAA TCA CCA CC 3').

Published
2008

14. Determination of seed-born percentages of bean common mosaic necrosis virus (BCMNV) in three genotypes of Phaseolus vulgaris.

Author

Peyambari M, Habibi MK, Mosahebi G, and Izadpanah K

Subjects
Genotype, Iran, Mosaic Viruses genetics, Mosaic Viruses isolation & purification, Phaseolus genetics, Phaseolus growth & development, Plant Leaves virology, Mosaic Viruses pathogenicity, Phaseolus virology, Seeds virology
Abstract

Bean common mosaic necrosis virus (BCMNV) is one of the most damaging viruses of bean that naturally transmitted by aphid in non persistent manner and through the seeds. BCMNV belongs to the genus Potyvirus and the family Potyviridae. During the growing season of 2004, bean leaf samples with viral symptoms were collected from Tehran province, Karaj region. DAS-ELISA by using BCMNV polyclonal antiserum (AS-0239, prepared in DSMZ, Germany) was conducted and samples with viral infection were distinguished. IC-RT-PCR was done to amplify the cp gene of isolates. The nucleotide sequence of one isolate was determined and analysis of this and other published sequences confirmed this isolate as BCMNV. The confirmed isolate was inoculated on three bean genotypes (butter bean ks-21478, kidney bean ks-31170, navy bean ks-41235) using 0.01 M Potassium phosphate buffer (pH = 7). After appearance of symptoms, the inoculated plants were tested by DAS-ELISA and IC-RT-PCR. In DAS-ELISA test, 68% infection of butter bean and kidney bean genotypes and only 7% infection of navy bean genotype were confirmed. In IC-RT-PCR by using specific primers (NL3), a 922 bp fragment was amplified in all genotypes, even symptomless plants and the ones which were negative in ELISA test. To determine the percentages of infected seed, harvested seeds were planted. Most of the seedlings in two-leaf stage died with black root symptoms. All seedlings were tested by DAS-ELISA and IC-RT-PCR. The results of these assays showed that the percentage of seed infected was 78%.

Published
2006

15. Occurrence of viruses infecting pea in Iran.

Author

Esfandiari N, Kohi-Habibi M, and Mosahebi G

Subjects
Alfalfa mosaic virus isolation & purification, Alfalfa mosaic virus ultrastructure, Capsicum virology, Iran, Mosaic Viruses isolation & purification, Mosaic Viruses ultrastructure, Plant Diseases statistics & numerical data, Plant Viruses genetics, Plant Viruses isolation & purification, Plant Viruses ultrastructure, Pisum sativum virology, Plant Diseases virology, Plant Leaves virology
Abstract

A survey was conducted to determine the incidence of Alfalfa mosaic virus (AMV), Bean yellow mosaic virus (BYMV), Broad bean wilt virus-1 (BBWV), Pea leafroll virus (PLRV), Pea enation mosaic virus (PEMV), Pea seed borne mosaic virus (PSbMV), Potato virus x(PVX), Tomato mosaic virus (ToMV), Tomato spotted wilt virus (TSWV) on pea (Pisum sativum) in Iran. A Total of 1276 random and 684 symptomatic pea samples were collected during the spring and summer of 2002-2004 in Tehran province of Iran, where pea is grown, and tested by enzyme-linked immunosorbent assay (ELISA) using specific polyclonal antibodies. Serological diagnoses were confirmed by electron microscopy and host range studies. Incidence of viruses in decreasing order was PVX (69%), ToMV (59%), PSbMV (36.6%), BBWV-1 (26.1%), BYMV (20.3%), AMV (17.77%), TSWV (12.6%), PEMV (10.9%), PLRV (6.78%). In this survey, natural occurrence of AMV, BBWV-1, PSbMV, TSWV, PVX and ToMV was reported for the first time on the pea in Iran.

Published
2006

16. High incidence of tobacco streak virus in the tobacco fields of Iran.

Author

Khateri H, Moarrefzadeh N, Koohi-Habibi M, Mosahebi G, Hosseini A, and Hamzeh N

Subjects
Incidence, Iran, Plant Leaves virology, Ilarvirus pathogenicity, Plant Diseases statistics & numerical data, Plant Diseases virology, Nicotiana virology
Abstract

Currently the northern provinces of Iran (Mazandaran, Golestan and Gilan) are the main tobacco growing regions in the country and this crop has an special importance in the national economy. Three tobacco types including flue-cured (mainly Coker 347 and some Virginia E1), burley (Burley 21) and oriental (Basma 178-2) are presently grown in these regions. Epidemics of viral diseases have occurred during the recent years in many tobacco fields in these areas. The quality of tobacco products which is much important, is adversely affected by plant pathogens specially viruses. In a survey on the viruses of tobacco, the fields in these regions were inspected and leaf samples from symptomatic plants were collected. Some plants had one or more of the symptoms such as dentate leaf margin, thicker leaf tissue and necrotic areas on the stem. The samples were tested for TSV infection by the DAS-ELISA method (Clark and Adams, 1977) using polyclonal antibody (AS-0615, DSMZ, Germany). TSV was detected in more than 79% of all tobacco samples from these three provinces. The TSV infection level among the tested samples was 86.8% in Gilan (Rasht, Bazar-Jomeh and Talesh), 82.3% in Mazandaran (Behshahr, Sari, Neka and Sourak) and 71.8% in Golestan (Gorgan, Aliabad and Minoodasht). No significant difference was seen among the infection levels for the mentioned commercial varieties and also some other tested varieties such as C176, K326 and MN944. It seems that there is no resistance sources against this virus within these varieties. Also the results of tests for TSV were similar in two consecutive years (2004 and 2005). It should be added that not all of the TSV infected plants showed the stated symptom types. Many of the TSV infected samples had mixed infections with one or more other viruses such as TSWV, CMV, PVY and TMV and there was almost no sample with a single TSV infection. This is the first report on the occurrence and distribution of TSV in the tobacco fields of Iran, too.

Published
2006

17. Evaluating the efficiency of a TPIA method for the detection of two tobacco viruses.

Author

Moarrefzadeh N, Khateri H, Koohi-Habibi M, Mosahebi G, and Hosseini A

Subjects
Enzyme-Linked Immunosorbent Assay methods, Immunoassay methods, Immunoglobulin G, Reproducibility of Results, Nepovirus pathogenicity, Plant Diseases virology, Nicotiana virology
Abstract

Field experiments are usually necessary for analyzing the efficiency of control methods, the resistance of varieties and many other virological studies. Such experiments generally include a large number of samples to be tested serologically. DAS-ELISA is a very accurate technique that has been widely used for identifying viral infections. For large numbers of plant samples, it takes a long time for the sample preparation, plate washing and other procedures. In this study, the efficiency of a simple and laborsaving TPIA (Tissue Print Immunoassay) method was evaluated for the identification of two important aphid-transmitted viruses (CMV and PVY) of tobacco fields in comparison with DAS-ELISA as the standard method. The leaf samples were collected from the fields of three commercial tobacco types (flue-cured, burley and oriental). Each sample was divided to two parts and each part was examined by one of the methods. DAS-ELISA was done based on the method described by Clark and Adams (1977). In TPIA, small parts of the leaf samples were rolled and then cut by a sterile sharp blade. The cut surface was gently printed on 1 cm2 blocks drawn on a nitrocellulose paper. Air dried paper was located first in 1% BSA for blocking the empty sites on paper, then in the buffer containing AP-conjugated polyclonal antibody for 3 h and finally in NBT-BCIP solution for color development. Between these stages, the paper was washed thoroughly (three times) by shaking in fresh washing buffer. The results of each sample were recorded and compared with those of DAS-ELISA. By considering DAS-ELISA as the reference method, the sensitivity of TPIA for the detection of PVY and CMV was 96.1% and 92.7%, respectively. The positive results by TPIA which were not detected positive by DAS-ELISA were regarded as false positive. These were 8 (out of 316 tested samples) for CMV and 6 (out of 204 samples) for PVY. Although the results of TPIA were not completely consistent with DAS-ELISA, it seems that this method can be used for some general studies. The most important advantages of this method were that it didn't need sample extraction and was done using only one antibody which was the conjugated antibody of each virus. This method gives more rapid results (within a day) in comparison with DAS-ELISA that needs more time.

Published
2006

18. New indicator plants for potato virus X.

Author

Esfandiari N, Habibi MK, and Mosahebi G

Subjects
Enzyme-Linked Immunosorbent Assay, Plant Leaves virology, Potyvirus immunology, Reverse Transcriptase Polymerase Chain Reaction, Plant Diseases virology, Potyvirus isolation & purification, Solanum tuberosum virology
Abstract

For over 2 years (2002-2004); a sever virus like disease on leaves in Pisum sativum was observed from Tehran in Iran. The identity of which was established by the following host reactions and serological and molecular assays. Collected samples were tested for the presence of the virus using the DAS-ELISA (direct double antibody sandwich-ELISA). Leaf sap of each test samples was diluted 1:10 in ELISA sample buffer. The samples reacted in ELISA with antibody against Potato virus (x)(PVX). The samples were passed through three single chlorotic local lesion transfers on Gompherena globosa, which showed chlorosis 5 to 7 days after mechanical inoculation. Finally one local was homogenized in phosphate buffer (0.05 M, pH 7.2) and rubbing the inoculums on carbourundum--dusted leaves of Nicotiana glutinosa. For host range studies extracts prepared from infected N. glutinosa leave were inoculated to the 35 species. The virus induces systemic mosaic symptoms on Petunia hybrida, Physalis floridana, Nicandera physaloides and Solanum nigrum. This has not been yet record as assay hosts for PVX. Total RNA extracted from symptomatic, plants and RNA extracted from purified virus preparations were tested using reverse transcription polymerase chain reaction (RT-PCR) with specific primers designed to amplify a fragment of the RNA-dependent RNA-polymerase gen. Back inoculation from different symptomatic plants, had been done to Pisum sativum and confirmed by DAS-ELISA. This is the first report of Petunia hybrida, Physalis floridana, Nicandera physaloides and Solanum nigrum as new indicator plants for PVX.

Published
2006

19. Identification of prevalent potyvirus on maize and johnsongrass in corn fields of Tehran province of Iran and a study on some of its properties.

Author

Mohammadi MR, Koohi-Habibi M, Mosahebi G, and Hajieghrari B

Subjects
Blotting, Western, Electrophoresis, Polyacrylamide Gel, Iran, Potyvirus genetics, Potyvirus isolation & purification, Potyvirus ultrastructure, Reverse Transcriptase Polymerase Chain Reaction, Plant Diseases virology, Potyvirus pathogenicity, Sorghum virology, Zea mays virology
Abstract

During a growing season in 2004, 231 leaf samples of virus infected and mosaic and dwarf mosaic symptoms showing maize (Zea mays L.) plants and 258 leaf samples of mosaic showing johnsongrass (Sorghum halepens L.) plants from various corn fields in Tehran province were collected. Serological tests of DAS-ELISA and DIBA were performed on samples using antisera of sugarcane mosaic virus (SCMV), maize dwarf mosaic virus (MDMV), sorghum mosaic virus (SrMV) and johnsongrasss mosaic virus (JGMV). In both tests performed on leaf samples extractions, all samples reacted strongly with SCMV antiserum and no reaction was seen with other 3 potyviruses antisera. 0.1 M potassium phosphate buffer (pH = 7) containing 2% polyvinyl pyrrolidon (PVP) was used for mechanical inoculation and all isolates were inoculated and propagated on sweet corn cv. Pars 403 and grain sorghum cv. Kimia. In serological tests on the inoculated plants samples also only SCMV was detected. Purification of virus was done using a modified "minipurification" method and the concentration of purified virus was 11.45 mg/ml and ratio of A260/280 = 1.2 was calculated for it. Electron microscopic study using ISEM and decoration method with SCMV antiserum revealed filamentous flexuous particles of SCMV. In SDS-polyachrylamide gel electrophoresis and Western blot test using SCMV antiserum that were performed on infected samples and purified viruses, the molecular weight of the virus coat protein was approximately 37-38 KDa and a difference among the CP weights of various SCMV isolates was not found. Reverse transcription-polymerase chain reaction (RT-PCR) was done using SCMV F3 and SCMV R3 primers and amplified fragments of approximately 900 bp in size were as in expected. The host range study with selected isolates of SCMV showed that the virus isolates were not transmitted by mechanical inoculation on Avena sativa, Panicum miliaceum, Setaria italica, Pennisetum americanum, Hordeum vulgare and Triticum aestivum. The isolates produced red-brown necrotic streaks on sudangrass (Sorghum sudanense) that lately changed in systemic necrosis. In host reaction studies on sorghum (Sorghum bicolor) cultivars, the virus isolates caused severe necrotic and killer reaction on sorghum cultivars Payam, Sepideh and Speed feed, but caused systemic mosaic and non-killer reaction on sorghum cultivars Kimia, KFS2, KFS3 and Jumbo. The present study showed that SCMV is the prevalent potyvirus and the main causal agent of mosaic and dwarf mosaic on maize plants in province. Since the virus is prevalent on johnsongrass plants in marginal areas of corn fields too, it seems that the origin of the virus on corn is from johnsongrass and the virus is a special strain of sugarcane mosaic virus that infects johnsongrass too.

Published
2006

20. Potato virus yisolated from pepper fields in Tehran Province.

Author

Mostafae S, Mosahebi G, and Habibi MK

Subjects
Geography, Iran, Plant Leaves virology, Potyvirus genetics, Potyvirus isolation & purification, Reverse Transcriptase Polymerase Chain Reaction, Capsicum microbiology, Plant Diseases virology, Potyvirus pathogenicity
Abstract

Potato Virus Y was known as the main cause of yellowing and vein necrosis of pepper in Tehran Province, using Double Antibody Sandwich Elisa (DAS-ELISA). Biological properties including host range of the isolate was determined after biological purification. Host range studies showed that pepper isolate of PVY caused vein clearing and mosaic symptoms on Datura metel and Capsicum annum, mosaic on Nicotiana tabacum cv. White Barley, N. tabacum cv. Samsun and N. rustica but didn't show any symptoms on Physalis floridana, Chenopodium amaranticolor, C. quinoa and Solanum tuberosum. Also the virus was physically purified from propagative hosts: Datura metel, Nicotiana tabacum cv. White Barley and Capsicum annum using Leiser & Richter (1978) method. The A260/280 absorbance ratio of the isolate was 1.16, 1.50 and 1.04 for purified preparations from D. metel, N. tabacum cv. White Barley and C. annum respectively. SDS-PAGE of the coat protein extracted from purified virus preparations gave bands at position of about 34 KD and Western Blotting (using PVY antiserum with 1/1000 dilution, obtained from DSMZ, Germany) confirmed its as the PVY coat protein. In order to prepare antiserum, five injections were given at 7-10 days intervals to rabbit. A week after the last injection the rabbit was bled and the antiserum collected. The primer pairs NIA/F and NIA/R (Glais et al., 2005) were used in IC-RT-PCR and the length of the amplified fragment was 752 bp. This is the first report of PVY incidence in pepper fields in Iran.

Published
2006

21. Comparison of biological and molecular characterization of Iranian lettuce mosaic virus isolates.

Author

Ormaz B, Winter S, Koohi-Habibi M, Mosahebi G, and Izadpanah K

Subjects
Capsid Proteins genetics, Capsid Proteins isolation & purification, Enzyme-Linked Immunosorbent Assay, Iran, Mosaic Viruses classification, Mosaic Viruses genetics, Phylogeny, Plant Leaves virology, Polymerase Chain Reaction, Lactuca virology, Mosaic Viruses isolation & purification, Plant Diseases virology
Abstract

Lettuce mosaic virus (LMV) is one of the most damaging viruses in lettuce and endive cultivating regions. In order to review the characteristics of different LMV isolates of Iran during 2004-2005 samples were collected from lettuce fields in Esfahan, Ghom, Khorasan, Khuzestan and Tehran provinces. All of the isolates were detected by LMV polyclonal antiserum (AS-0155, DSMZ Germany) in ELISA and TIPA tests. Biological purification was done for the LMV isolates and then they were maintained and propagated on Chenopodium quinoa. A range of plant species such as C. amaranticolor, C. album, Carthamus tinctorius, Gazania sp., Gomphrena globosa, Pisum sativum, Spinacia oleracea were inoculated with these isolates using potassium phosphate buffer (0/05M). Molecular weight of coat protein was determined by Polyacrylamid gel electrophoresis (PAGE). Immunocapture reverse transcription polymerase chain reaction (IC-RT-PCR) was performed using LMV polyclonal antiserum and specific primer pairs of LMV as described by Zerbini et al. (1995). The amplified fragments were included the whole CP and 3'UTR regions and the nucleotide sequences of them determined. All isolates induced chlorotic local lesions on C. amaranticolor and chlorotic local lesions with symptoms of systemic infection (vein clearing) on C. album. Tehran isolate in addition, caused local lesions on Gomphrena globosa with red border and white centre. This isolate infected Pisum sativum without any symptoms. Back inoculation on C. quinoa and DAS-ELISA confirmed the latent infection. None of these isolates infected Carthamus tinctorius, Gazania sp. and Spinacia oleracea. The molecular weight of coat protein was determined 30.33 kDa. Western-blot proved this band as the coat protein of the virus. IC-RT-PCR amplification of LMV isolates produced the expected size IC-RT-PCR product of 1300 bps. The comparison of nucleotide sequences showed that there were 98% identities.

Published
2006

22. Study on potato virus M (PVM) occurrence in potato fields in Iran.

Author

Mosahebi G, Koohi-Habibi M, and Okhovvat SM

Subjects
Incidence, Iran epidemiology, Mosaic Viruses pathogenicity, Plant Leaves virology, Species Specificity, Mosaic Viruses isolation & purification, Plant Diseases virology, Solanum tuberosum virology
Abstract

57 native potato tuber samples collected from different potato growing region of Iran, planted on single rows in Karaj College experimental station. Plant samples of each single row plus 9.25 Fresh foliage samples collected from fields under new introduced cultivars were tested for potato virus (PVM) infection during growing season. Also 78 weeds and field crops belonging to Solonacae and Leguminosae from or neighboring to potato field were tested. Results indicated that PVM was not found on any plant other than potatoes. PVM was detected on 16 samples of 57 old vars, Virus was not seen in any samples collected from fields under new varieties. Results show that PVM is limiting in this crop. PVM detecting is difficult using assay hosts. Best test plants were French bean var Red kidney, Showing pinpoint necrotic LL, also Datura metel and Nicotiana debneyi are useful for virus detection showing chlorotic local lesion. Also microprecipition and gel diffusion test can be used for virus detection but Elisa was the best method. PVM infected plant showed 11-19.5 percent yield decrease in 3 cultivars tested.

Published
2005

23. Purification of potato virus X and preparation of its antiserum.

Author

Damadi SM, Mosahebi GH, and Okhovvat M

Subjects
Enzyme-Linked Immunosorbent Assay methods, Immune Sera, Iran, Plant Leaves virology, Precipitin Tests methods, Plant Diseases virology, Potexvirus isolation & purification, Solanum tuberosum virology
Abstract

Potato virus X (PVX) isolated from the potato leaf and tuber samples which were collected from various fields in Damavand and Ardabil. The initial isolations of the virus were made from potato by mechanical inoculation on Gomphrena globosa L. and Chenopodium spp. that produce local lesion, and then it causes mosaic on Nicotiana spp. and Datura stramonium L. An isolate of the virus inoculated to Nicotiana glutinosa L. and it was maintained throughout the work. Sap from infected N. glutinosa was ineffective after dilution to 10-6, 10 minutes at 70 degrees and 10 weeks at room temperature. The virus was readily purified from infected leaves and the best protocol was Moreira & Jones 1980 than the other 2 methods of Fribourg 1975 and Shepard & Shalla 1972. Antisera were prepared against native, degraded proteins and micro precipitin test showed that both antisera had a 1/512 titer. Precipitin lines with D - Protein antiserum was better of the native protein antiserum in agar double diffusion test than treated with SDS. The isolate of the virus was not transmitted by none of 2 species of Cuscuta but transmitted from infected leaves to healthy plants with sap inoculation without using Carburandum. This isolate showed positive reaction with gamaglubulin in kate received from CIP centre.

Published
2005

24. Identification of PVY-N on potato and tobacco in Tehran and Mazandaran provinces.

Author

Hamzeh N, Koohi Habibi M, Mosahebi G, and Ghazanfari K

Subjects
Blotting, Western, Electrophoresis, Polyacrylamide Gel, Iran epidemiology, Molecular Weight, Reverse Transcriptase Polymerase Chain Reaction, Plant Diseases virology, Potyvirus isolation & purification, RNA, Viral analysis, Solanum tuberosum virology, Nicotiana virology
Abstract

During two growing seasons in years of 2003 and 2004 potato and tobacco of virus infected plants were collected from fields in Tehran (Damavand) and Mazandaran (Behshahr) provinces. Serological methods of TAS-ELISA and DIBA were performed by using PVY antiserum (DSMZ - Plant Virus Collection; Germany) but only PVY was detected. The strain of samples was determined by using MAb of potato virus Y (AS-0403/1; DSMZ; Germany). The molecular weight of the virus coat protein was approximately 34 kDa in SDS-PAGE and Western blotting. Total RNA was extracted for RT-PCR. Immunocapture RT-PCR and RT-PCR products were 974 bp by using specific primers of PVY. IC-RT-PCR has given the best results.

Published
2005

25. First report of occurrence of two viruses on pea field in Iran.

Author

Esfandiari N, Kohi Habibi M, Mosahebi GH, and Mozafari J

Subjects
Enzyme-Linked Immunosorbent Assay methods, Incidence, Iran epidemiology, Reverse Transcriptase Polymerase Chain Reaction, Mosaic Viruses isolation & purification, Pisum sativum virology, Plant Diseases virology, RNA, Viral analysis, Tospovirus isolation & purification
Abstract

An intensive survey was conducted to identify virus diseases affecting pea crops in Tehran province of Iran. A total of 270 pea samples were collected randomly from pea fields. samples were tested by Double Antibody Sandwich Enzyme Linked Immunosorbent Assay (DAS-ELISA) using polyclonal antisera prepared against PSBMV (AS-0129, DSMZ, Braunschweig, Germany) and TSWV (AS-0580, DSMZ, Braunschweig, Germany). Virus disease incidence in pea samples was followed by PSBMV (33%) TSWV (24.4%) and PSBMV+TSWV (17.77). The positive samples with PSBMV were extracted in 0.05M phosphate buffer pH 6.5-7 containing 2% pvp and inoculated on Pisum sativum, Vicia faba, Chenopodium quinoa, Chenopodium amaranticolor. That produced in Pisum sativum; leaflets roll downwards, shoots curl, internodes shorten and plants are rosetted. Early infections reduce flower and fruit formation or eliminate their development. Broad bean has symptoms accompanied by a certain margin rolling and leaflet distortion. In Chenopodium amaranticolor necrotic local lesions and Chenopodium quinoa chlorotic local lesions had produced. The positive samples with TSWV were extracted in 0.01 M phosphate buffer containing 1% Na2 SO3 and inoculated on Petunia hybrida, Pisum sativum. TSWV causes several symptoms in infected peas, including brown leaf petiole and stem coloration, leaflet spotting, vein necrosis. In petunia hybrida after approximately 5 days showed local necrotic lesion. Biological purification in TSWV with chlorotic local lesions in Petunia hybrida and in PSBMV; chlorotic local lesions in Chenopodium quinoa were done. In PSBMV, back inoculated on Pisum sativum and Vicia faba also tested with DAS-ELISA. RT-PCR confirmed the results. This is the first report of PSBMV and TSWV naturally infecting pea in Iran.

Published
2005

26. Occurrence and physico-serological properties of potato virus S (PVS) in Iran.

Author

Mosahebi G, Ahoon-Manesh A, Sharifi-Tehrani A, Mohammadi M, and Okhovvat SM

Subjects
Enzyme-Linked Immunosorbent Assay, Incidence, Iran epidemiology, Carlavirus isolation & purification, Plant Diseases virology, Solanum tuberosum virology
Abstract

1818 collected samples of potato plant showing virus infection symptoms from 85 fields were tested for PVS infection using DAS-ELISA. Average of infection to this virus varied from 0 to 100%. Least infection was belonging to fields with new introduced varieties. On the other hand native and old introduced cultivars showed heavy infection. In field condition, PVS infected plants didn't show very obvious symptoms, so some infected plants may be missed in field sample collecting. The physical properties of 3 isolates, Avaj, Stanboly and Agria No 15 were determined. TIP 55-60 degrees C, DEP 10(-3) and Liv measured 3-4 days. Ouchterlony agar double diffusion test using SDS was useful for virus detection and precipitation lines didn't show any spur between isolates, although isolates differs slightly in symptomatology. SDS-Page and Western blotting methods used successfully for virus detection and determining and measuring viral protein components.

Published
2005

27. Detection of Alfalfa mosaic virus (AMV) in pea field in Iran.

Author

Esfandiari N, Kohi Habibi M, Mosahebi GH, and Mozafari J

Subjects
Alfalfa mosaic virus immunology, Enzyme-Linked Immunosorbent Assay, Incidence, Iran epidemiology, Plant Diseases statistics & numerical data, Seasons, Alfalfa mosaic virus isolation & purification, Pisum sativum virology, Plant Diseases virology
Abstract

During the spring and summer, in 2003-2004, pea viruses were identified in twenty pea fields of Tehran. Some leaf samples were collected randomly from pea fields of Tehran. Samples were tested by Double Antibody Sandwich Enzyme Linked Immunosorbent Assay (DAS-ELISA) technique using polyclonal antiserum of Alfalfa mosaic virus (AMV), AS-0001, DSMZ, Braunschweig, Germany). The samples were extracted in 0.1 M Phosphate buffer pH 7 to 7.5 and inoculated on Chenopodium amaranticolor, Chenopodium quina, Phaseolus valgaris, Vicia faba, Vignia unguiculata. Pea cultivars were infected by AMV, causing mild mosaic, translucent veins and a diffuse green-yellow of tender parts and spots may also was involved necrosis of tissue. Infected plants grow slowly and malformed pods produce fewer ovules. In Chenopodium amranticolor, C. quina chlorotic and necrotic flecks, and Vicia faba systemic mosaic had produced. Phaselous vulgaris and Viginia unguiculata are good assay hosts for strains that produce local lesions after 3-5 days in these plants. Back inoculated on Pisum sativum and Vicia faba and tested with DAS-ELISA that had been confirmed the results. This is the first report of AMV on pea from Iran.

Published
2005

28. Occurrence, distribution and relative incidence of mosaic viruses infecting field--grown squash in Tehran province, Iran.

Author

Farhangi SH, Mosahebi G, Habibi MK, and Okhovvat SM

Subjects
Cucumovirus isolation & purification, Enzyme-Linked Immunosorbent Assay, Geography, Iran, Mosaic Viruses classification, Plant Diseases classification, Plant Leaves virology, Cucurbita virology, Mosaic Viruses isolation & purification, Plant Diseases virology
Abstract

Squash (Cucurbita pepo) belongs to Cucurbitaceae family. Every year Cucurbitaceae are planted world wide. They are one of the most important economic crops. Cucurbitaceae are threatened by viruses. Many viruses damage the plants of this family. Since nine viruses have been reported on squash from Iran. In this survey, during 2002--2003, to determine the distribution of Cucumber mosaic virus (CMV), Zucchini yellow mosaic virus (ZYMV) and Watermelon mosaic virus (WMV), 466 samples were collected from squash field in Tehran province. Infected plants showing symptoms such as: mosaic, yellowing, deformation, shoestring of leaves and fruit deformation and yield reduction. Distribution of CMV, ZYMV and WMV were determined by DAS-ELISA. Thepercentage of ZYMV, WMV and CMV were 35.6, 26.1 and 25.1% respectively. Triple infection (CMV+ZYMV+WMV) were found in 6.4% of samples. ZYMV were found the most frequently the viruses. This is the first report of WMV on squash in Tehran province.

Published
2004

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