Grapevine virus A
Grapevine virus A is a moderately common genetic virus that affects Vitis vinifera and American Vitis grapevine species throughout the world and can be fatal if not treated. Grapevine virus A is in the family Betaflexiviridae and genus Vitivirus. The common name for this virus is grapevine closterovirus. Common symptoms in infected grapevines include stem pitting. Although there is a treatment available to cure infected grapevines, it is not one hundred percent effective, so preventative measures are the best solution to the virus. Every inhabited continent on the globe has had breakouts of grapevine closterovirus due to the complex genetic makeup of the virus. Grapevine virus A has a single-stranded RNA genome, which is similar to that of Grapevine virus B. There are multiple strains of the virus that vary both molecularly and biologically which account for the slightly different symptoms exhibited by infected plants.
Symptoms
Grapevines infected with Grapevine virus A may not show symptoms for up to two years. There are several common symptoms of GVA, and both fall under the Rugose wood category, which is an umbrella term for the many diseases that can cause problems in the bark of grapevines.Stem-pitting
Stem-pitting causes the outer layer of the stems of the grapevine to peel off so the inner, more vulnerable part of the stem is exposed to the atmosphere. Stem-pitting can also cause poor or slowed down growth and can decrease the yield of grapes by up to 50%. Stem-pitting gets its name from the presence of small pits visible on the inside of the stems once the bark peels off.Kober Stem Grooving
Kober stem grooving is specific to grapevines, and no other plants can be infected with it. Kober stem grooving gets its name because the variety of grapevine that has visible effects of Kober stem grooving is the Kober 5BB. Kober stem grooving causes grooves to form on the thin stems of the grapevine which can cause stunted growth and makes it easier for bugs to eat at the insides of the grapevine. The LN33 and Vitis rupestris varieties of grapes do not show symptoms of Kober stem grooving, but can still be infected with it. However, these varieties will show signs of the other symptoms.Diagnosis
If a grapevine is experiencing any of these symptoms, there are a few common methods grape farmers use to detect if Grapevine virus A is present in grapes, described hereafter.Immunosorbent Electron Microscopy
Immunosorbent electron microscopy is the most commonly used detection method. ISEM is a process where tissue is extracted from the plant and placed onto an electron microscope grid that is covered in antiserum. If the grapevine is infected with GVA, antibody particles will form around the extracted tissue. ISEM is very reliable, and there are usually no false negatives or false positives.Double Antibody Sandwich-Enzyme-Linked Immunosorbent Assay
Another common way used to detect GVA is double antibody sandwich-enzyme-linked immunosorbent assay with polyclonal antisera and monoclonal antibodies. Polyclonal antisera is serum that contains antibodies secreted by B cell lineages. Monoclonal antibodies are man-made proteins produced by cloning a singular cell. This method is able to detect the isotopes in grapevines that have the virus. A sample of the infected grapevine is taken and placed on a microscope grid that has polyclonal antisera and monoclonal antibodies. A computer records the isotopes in the sample, and then the isotopes are compared with the isotopes of a healthy grape plant.Indirect ELISA and the Western Blotting Technique
Indirect ELISA and the western blotting technique are also used, but these techniques are not commonly used. During indirect ELISA two antibodies are used. The primary antibody is combined with a sample of the infected grapevine and it is then combined with a secondary antibody. These two antibodies react and the reaction is then analyzed for signs of GVA. This method is not as reliable as the other methods because when the secondary antibody is added it is not always clear if the two antibodies are reacting because the grapevine is infected or if there is some other reason. Similar to indirect ELISA, the western blotting technique also uses two antibodies. The western blotting technique is used to identify if the suspected grapevine plant has the specific proteins present only in infected grapevines. To use this technique, first a small piece of tissue is taken off the grapevine. Cold phosphate buffered saline is then rubbed onto the tissue. Cold phosphate buffered saline is a solution that prevents the cell walls from rupturing or getting damaged. Next, a cell scraper is used to separate the cells, and the cells are analyzed to see if they contain the protein commonly present in grapevines infected with GVA. Nucleic acid hybridizationTransmission
Grapevine virus A is transmitted through propagation and grafting. Since Grapevine virus A is a genetic virus, the only way it can spread is if DNA from infected grape plants gets mixed in with the DNA of healthy grapevines. Since this can only be done by breeding and grafting, GVA can not be transferred by touch. This means if an infected plant is close to a healthy plant, the leaves touching will not transmit the virus. Another way the disease is transmitted is through mealybug and scale insects. Some common species of mealybugs found on grapevines are the long tailed mealybug and the obscure mealybug. When a mealybug feeds on an infected grapevine for at least fifteen minutes, they can spread the disease by feeding on healthy grapevines. The disease remains in their system for 48 hours or until they molt.Prevention
Preventing the virus from spreading is the best way to ensure virus free plants. Grapevine virus A is transmitted through propagation and grafting. Since Grapevine virus A is a genetic virus, the only way it can spread is if DNA from infected grape plants gets mixed in with the DNA of healthy grapevines. Since this can only be done by breeding and grafting, GVA can not be transferred by touch. This means if an infected plant is close to a healthy plant, the leaves touching will not transmit the virus. Another way the disease is transmitted is through mealybug and scale insects. Some common species of mealybugs found on grapevines are the long tailed mealybug and the obscure mealybug. When a mealybug feeds on an infected grapevine for at least fifteen minutes, they can spread the disease by feeding on healthy grapevines. The disease remains in their system for 48 hours or until they molt. Vector control is the most commonly used way to prevent the spread of GVA. Vector control uses methods to eradicate the pests that transmit GVA. One form of vector control is to use pesticides to kill the mealybugs and scale insects that transmit the disease. However, this way is not preferred because the continual use of pesticides will help the pests build up a to pesticides, and the pesticides will no longer work. It is also important not to spread the disease to countries that do not have GVA infecting their grapevines already. In order to do this, grapevine plants that are being transferred internationally should be certified virus-free stocks. So far, scientists have not been able to genetically modify a grapevine that is immune to GVA. However, they are still working to see if this is possible.Treatment
There is no treatment available that kills Grapevine virus 100% of the time. However, the cryopreservation of vitro-grown shoot tips is a method that has been recently developed and is effective 97% of the time. Cryopreservation uses liquid nitrogen to freeze the shoot tips of the grapevines, and this process is highly effective at eradicating GVA. Originally when developing this method scientists thought that shoot tips needed to be dehydrated before being frozen in order to treat GVA. However, after analyzing what percent of plants still were infected after the dehydration stage, it was found that the only method getting rid of GVA was the freezing method. Unfortunately, if the meristem of the grapevine is too small, the freezing process can kill the grapevine. If the meristem of the grapevine is less than 0.1mm, the freezing process kills the plant. If the meristem is 0.2 to 0.4mm, the grapevine is able to completely regenerate after being frozen, but Grapevine virus A is not eliminated. If the meristem is 0.5-2.0mm, the freezing process is highly effective in getting rid of GVA and the plant completely recovers from being frozen. Currently, this is the only widely used process of eradicating GVA, but scientists are looking to find more methods to cure grapevines of Grapevine virus A.Countries Most Heavily Impacted By Grapevine virus A
- United States of America
- Brazil
- Chile
- France
- Italy
- Portugal
- Spain
- South Africa
- South Australia
- Victoria
Nucleotide Sequence and Genome Organization