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Defence against deadly ToCSV tomato virus explored


Nepalnews
ANI
2023 Aug 29, 9:25, Johannesburg (South Africa),

For the first time, scientists at the University of Johannesburg (UJ) have examined the molecular genetics of tomato plants' defence mechanisms against a destructive "young" Southern African virus.

The well-known tomato yellow leaf curl virus (TYLCV) is known to be resistant to individuals who carry the Ty-1 gene. When tomato plants carrying the Ty-1 gene are infected with the virtually unheard-of tomato curly stunt virus (ToCSV), UJ researchers looked into what happens. They discovered a connection between Ty-1 gene activity, viral DNA methylation, and ToCSV tolerance in plants. The research is published in Frontiers in Plant Science.

To find out more about how that happens, they used lab techniques called bisulfite conversion and PCR amplification, coupled with a next-generation whole genome virus sequencing approach.

Young virus travelling: Many pathogens attack tomato plants, which produce the third biggest vegetable crop in the world, after potatoes and cassava.

Tomato curly stunt virus originated in South Africa about 30 years ago and is spread by whitefly. The virus can destroy an entire tomato crop, especially if enough plants are infected at a young stage. It has been found in neighbouring country Mozambique also.

The young tomato curly stunt virus (ToCSV) is similar to the established tomato yellow leaf curl virus (TYLCV) at the DNA level.

But relatively little is known about any ‘tools’ the tomato plants can use to defend themselves against ToCSV, says Dr Farhahna Allie, lead author on the study. Dr Allie is a researcher in the UJ Department of Biochemistry.

Trojan horse trick inside plants: Viruses have been attacking plants since the dawn of time. But they still have to trick the plants, to replicate themselves and causing disease, says Dr Gerrit Koorsen, co-author on the study.

“Geminiviruses like ToCSV do not have the capacity to make copies of themselves, and then to spread elsewhere. They are completely reliant on the plant for that. The virus has to trick the plant into ‘thinking’ that the plant is making more of its own DNA.

“So the virus is like a Trojan Horse inside the plant. The plant is replicating viral DNA ‘without knowing it’, ‘taking care of the infection’ and spreading the disease caused by the virus,” he says.

Attacking DNA inside the virus: In the ongoing battle between plants and viruses, plants ‘have discovered’ that it is very effective to focus their counter-attack on the DNA inside viruses.

For the study, the researchers used a variety of tomato that is susceptible to ToCSV, and another variety that can tolerate it.

The susceptible variety has a number of defences in its toolbox against other pathogens, but it cannot overcome ToCSV, says Allie. ToCSV can fully infect this variety.

Studying the way in which plants respond to a new virus like ToCSV is crucial to identifying ways of breeding resistant crops.

Resistance gene Ty-1: “The tolerant tomato variety has a similar genetic background to the susceptible variety, but it is better at switching on the Ty-1 resistance gene, which the susceptible variety struggles to do,” says Allie.

“The Ty-1 gene is known to be the major resistance gene in tomatoes against tomato yellow leaf curl virus (TYLCV). The ‘young’ virus ToCSV is similar to the TYLCV in terms of its genome, and Ty-1 may therefore well be responsible for tolerance or resistance against ToCSV too.

“As a first step to explore the link between resistance and tolerance and the Ty-1 gene, we wanted to see whether the tolerant plant uses the DNA methylation ‘tool’ to combat tomato curly stunt disease,” she says.

Switching off viral DNA: “Imagine the DNA of one tomato curly stunt virus as a tiny rubber band,” says Koorsen. “When the whitefly feeds on the plant, the fly transfers thousands of these DNA rubber bands into the cells of the plant.

“Let’s compare a cell of a plant that is susceptible to ToCSV, with a cell of a tomato plant that can tolerate ToCSV to some extent. In the tolerant plant cell the Ty-1 gene is very active.

“Given the data we analysed in this study, we think Ty-1 activity may be linked to the ability of plants to tag specific areas on the viral DNA ‘rubber band’, and ‘switch them off’, so the virus cannot make more if itself inside the plant cell,” says Koorsen.

The ‘tags’ are methyl groups. Each methyl group is one carbon and three hydrogen atoms. The tags attach to C-G, C-H-H and C-H-G letter sequences on the viral DNA. The ‘tagging’ process is called methylation, a known defence mechanism in plants.

Over time, in a tolerant plant cell, one then sees more and more tags on critical parts of the viruses’ DNA, and the virus either stops replicating or replicates slowly. This is called epigenetic silencing caused by methylation.

Meanwhile, in the susceptible plant cell, the Ty-1 resistance gene is less active. So the thousands of infecting viruses from the whitefly can replicate inside the plant cell. Over time, there are more and more viruses in the plant, and the plant becomes completely infected.

Speeding up defences: “We now have one part of the ‘tomato defence toolbox’. I’m excited to explore what other defence tools the tomato plants have and how the tools come together,” says Allie.

Because the battle between viruses and plants is never-ending, tomato curly stunt virus will eventually mutate, tomato plants will fight back, and emerging computational techniques will create new options in plant breeding, says Koorsen.

So far, the defences of one variety of tomatoes have been compared with that of another variety using standard statistical analyses, he adds.

Koorsen looks forward to exploring Machine Learning (ML) and emerging AI methods to compare tomato varieties also.

“I’m excited for how we can use those to gain more insight into plant defences, using the gigabytes of biological data generated in studies like this,” he says. 

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