Population genetic analysis of potato virus X based on the CP gene sequence.

To investigate the genetic variation and molecular evolution of potato virus X (PVX), 87 coat protein (CP) gene sequences were retrieved from GenBank and analyzed. Of the PVX isolates studied, one recombinant isolate (X3) was detected from South America population of the virus. The other isolates belonged to two lineages, Eurasia and America, with the significant FST value (0.60). Non-synonymous nucleotide diversity to synonymous nucleotide diversity (ω = dN/dS) was less than 1 indicating that the CP gene has been under negative selection or neutral evolution. Further analysis showed that all of the codons in both lineages were under negative selection pressure. No significant genetic differentiation was found between Chinese, Indian, Iranian, Japanese, and the UK populations whereas South America population was distinctly differentiated from other populations. Different evolutionary constraints found for the two lineages suggest that possible mutations and genetic drift were important evolutionary forces driving the genetic diversification of PVX population.

Production and Characterization of Monoclonal Antibody against Recombinant Virus Coat Protein CP42.

There are many studies related to the production of a ELISA kit for diagnosing virus infections. However, production of most kits depends on purification of whole virus particles, which involves the use of costly equipment and reagents. The purpose of this study was to check out if the anti-CP42 antibodies could be used as a diagnostic assay for detection of Grapevine fanleaf Virus (GFLV). In this study, recombinant GFLV coat protein gene related to selected antigenic determinants was inserted into pET-28a bacterial expression vector and the construct (pET-28a CP42) was cloned into E. coli strain (DE3). Expressed protein was verified with western blotting assay by the use of commercially available anti-GFLV antibody. The recombinant protein was purified using nickel-nitrilotriacetic acid (Ni-NTA) resin. Balb/c mice were immunized with purified protein and splenocytes of hyperimmunized mice were fused with murine myeloma Sp2/0 cells. Positive hybridomas were selected by ELISA using CP42 as coating antigen. The results showed that monoclonal antibody (MAb) specific to CP42 has been successfully generated. Efficiency of produced antibody was analyzed by ELISA and western blotting assay using some confirmed grapevine samples. The infection was confirmed previously based on morphological features and ELISA assay, performed using commercial anti-GFLV antibody. The monoclonal antibody reacted with antigen in ELISA and immunoblot method. Our results demonstrated that anti recombinant CP42 monoclonal antibodies are able to diagnose whole virus in infected grapevine sample using ELISA test.

Heterologous Expression of Potato Virus Y Coat Protein, Isolate Pot187.

BACKGROUND: The advent of recombinant DNA technology has facilitated heterologous expression of proteins from various sources in different host systems including Escherichia coli. If a plant virus coat protein is expressed in the bacterium it can be used as the antigen for antibody preparation. Such a recombinant antigen preparation can be particularly useful where equipment such as ultracentrifuge is unavailable to purify virus particles to use as the antigen for conventional antibody preparation. OBJECTIVES: Heterologous protein expression and purification of the full length Potato virus Y (PVY) coat protein (CP) from isolate pot187 (an affiliate of strain N) to be used as an antigen was the aim of the study. MATERIALS AND METHODS: Reverse transcription Polymerase Chain Reaction (RT-PCR) was carried out to amplify an 801 bp fragment of the CP gene from PVY-infected potato leaves. The amplicon was cloned into pGEM-T Easy. The cloned fragment was restricted by BamHI + SacI and the purified fragment was cloned into the expression vector pET21a(+) which was restricted with the same enzymes. The generated plasmid was introduced into E. coli strain RosettaTM. The expression was induced with isopropyl-ß-D-thiogalactopyranoside (IPTG) and its protein content was subjected to SDSPAGE and western blotting. RESULTS: SDS-PAGE analysis of protein from the induced bacteria showed a ~35 KDa protein corresponding to PVY CP. Expression of the recombinant protein was confirmed by anti-His anitibody. CONCLUSIONS: The full-length cDNA of PVY-CP was amplified from the infected potato leaves. The cDNA was heterologously expressed in E. coli. The produced recombinant CP can be used as an antigen to generate polyclonal antibody.

Genomic characterization of Ambrosia asymptomatic virus 1 and evidence of other Tymovirales members in the Oklahoma tallgrass prairie revealed by sequence analysis.

The Plant Virus Biodiversity and Ecology project was undertaken to better understand the nature of plant-viral interactions and the occurrence of non-pathogenic viruses. Plants from the Tallgrass Prairie Preserve (TPP), Osage County, Oklahoma, were surveyed from 2005 to 2008 for the presence of viruses, resulting in the detection, using a virus-like particle enrichment method, of the genome a novel virus, Ambrosia asymptomatic virus 1 (AAV1), from Ambrosia psilostachya DC (western ragweed). Here, we present the genomic organization and genetic variability of AAV1. The virus has a single-stranded RNA genome of about 7408 nt, which has six open reading frames (ORFs). Phylogenetic analysis of the replicase and coat protein ORFs of the virus indicates strongly that the virus should be placed in the genus Mandarivirus. No evidence of recombination was detected. We also report the detection in the TPP of two known viruses and seven other putative viruses, members of the order Tymovirales.

Genetic analysis of Iranian population of Potato leafroll virus based on ORF0.

Potato leafroll virus (PLRV) is a destructive virus of potatoes and responsible for high yield losses wherever potatoes are grown. In this study, DNA fragments containing ORF0 from each of nine PLRV isolates was sequenced. Sequence analysis data using 36 isolates from 12 different countries including 14 Iranian isolates showed that the identities of ORF0 at both nucleotide and amino acid levels between the Iranian isolates were 96-100 % and these isolates were more similar to the European PLRV isolates than to the other isolates. Furthermore, phylogenetic and population genetic analysis were carried out on the basis of full-length ORF0 and overlapping and non-overlapping regions of ORF0 and ORF1 (ORF0/1) which revealed that PLRV isolates were not geographically resolved. Also, we identified negative selection with different ratios for each of the mentioned genomic regions suggesting effects of F-box motif and -1 frameshift on ORF0 non-overlapping region and ORF0/1 in the selection pressure, respectively. Five recombination events were detected in the Iranian, Australian, and European isolates suggesting an important role for this phenomenon in influencing genetic diversity within this virus population.

Population genetic analysis of grapevine fanleaf virus.

Population genetic analysis of grapevine fanleaf virus (GFLV) was done on the basis of the virus movement protein (MP) gene sequences from the isolates detected and identified in this study and those of all previously reported GFLV strains/isolates. These revealed that the GFLV populations of Iran and Slovenia were highly distinct, whereas those of France, Germany, Italy and the USA were composed of multiple lineages. All populations were significantly differentiated from each other. However, two GFLV isolates from Tunisia, the only recorded GFLVs from that country, were not statistically distinct from the French, German and Italian populations. The ratio of non-synonymous nucleotide diversity to synonymous nucleotide diversity (Pi(a)/Pi(s)) was less than 1, suggesting that the MP gene has been under purifying selection. The neutrality tests were indicative of a balancing selection that is operating within Iranian and USA GFLV isolates, but they show a purifying selection within the other populations. Eleven recombination events were detected in a total of 50 isolates from France, Germany, Iran, Italy, Slovenia and the USA. The results from the recombination analysis were in agreement with those of the phylogenetic analysis. This study suggests that diversity among GFLV geographical populations resulted from possible host adaptation, recombination and founder effects.

Plant growth promoting characterization of indigenous Azotobacteria isolated from soils in Iran.

It has been well known that the bacteria of the genus Azotobacter, in addition to the beneficial N(2)-fixing activity, are able to improve plant growth by a number of direct and indirect mechanisms. To identify this potential in indigenous azotobacteria, the efficiency of 17 isolates of Azotobacter from the rhizosphere of wheat and barley plants cultivated in salt- and/or drought-affected soils in Iran were evaluated for their ability to dissolve inorganic and organic phosphates, siderophore secretion, indole acetic acid (IAA) production; and protease, chitinase, and ACC deaminase (ACCD) activities. First, they were biochemically characterized and one isolate (strain) was identified by 16S rDNA sequencing. Eight isolates were designated as Azotobacter vinelandii and the remaining isolates were identified as A. chroococcum. All isolates hydrolyzed the organic and inorganic phosphate compounds and effectively produced IAA. Fifteen isolates produced siderophore, but only one isolate showed protease activity which is being reported for the first time in relation to Azotobacter. None of the 17 isolates was capable of producing ACCD or chitinase. However, polymerase chain reaction amplification of the ACCD coding genes, by the use of the gene-specific primers, indicated that not all contain the ACCD gene. The standard screening methods with slight modifications, especially in the case of ACCD assay, were applied. The results showed that the use of specific screening methods, modified according to bacterial nutritional requirements, are the efficient methods for precise evaluation of the plant growth promoting rhizobacteria activity.

Molecular Characterization of Phylogenetically Distinct Isolates of Grapevine fanleaf virus from Iran Based on 2A(HP) Gene.

Movement and coat protein genes from Grapevine fanleaf virus (GFLV) isolates have been characterized previously from Iran. In this study, an optimized reverse transcription polymerase chain reaction protocol was established to amplify RNA2 genomic segment corresponding to the hypothetical protein (2A(HP)). The sequence of 2A(HP) was compared with that of previously reported GFLV strains/isolates from other countries which showed 82-86% sequence identities. The 2A(HP) gene from Iran appeared to be standing distinct from other isolates of GFLV when genetic distance- or parsimony-based phylogeneitc analyses were carried out. The present study for the first time reports characterization of Iranian isolate of GFLV based on 2A(HP) gene.

Cloning and characterization of a plasmid encoded ACC deaminase from an indigenous Pseudomonas fluorescens FY32.

In addition to the characterized mechanisms responsible for many direct effects of plant growth promoting bacteria (PGPB) on plants, it has been suggested that a number of PGPB contain the enzyme ACC deaminase that catalyzes degradation of 1-aminocyclopropane-1-carboxylic acid (ACC), the immediate precursor of ethylene, into alpha-ketobutyrate and ammonia. As part of an effort to obtain an ACC deaminase encoding gene from a collection of soil samples, only one bacterial isolate, Pseudomonas fluorescens FY32 was capable of growing on ACC as a sole source of nitrogen. The ACC deaminase gene was amplified from the above isolate by polymerase chain reaction (PCR) giving an expected DNA fragment, 1017 bp. Sequence analysis of the fragment showed that it was highly homologous (94% and 98% identities at nucleotide and amino acid levels, respectively) to the previously characterized acdS gene from Pseudomonas sp. 6G5. Furthermore, fusion of the ACC deaminase ORF with lacZ gene resulted in the expression of active enzyme in Escherichia coli. In addition, further analyses revealed that the acdS gene was plasmid-encoded so that a large plasmid (pFY32) with almost 50 kb in size was identified from this bacterium. Furthermore, transfer of pFY32 into E. coli DH5alpha proved its ACC deaminase activity. This result was in accordance with previous reports suggesting horizontal transfer of the acdS gene. However, it needs more investigation to identify whether this pFY32 plasmid has undergone lateral gene transfer during the evolutionary process.