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Enza Zaden identifies a gene providing high levels of resistance against Tomato Brown Rugose Fruit Virus (ToBRFV)qrcode

Oct. 2, 2020

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Oct. 2, 2020

Enza Zaden BV
Netherlands  Netherlands
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HR to ToBRFV, a devastating tomato virus


Enza Zaden found a solution for tomato growers to beat the devastating Tomato Brown Rugose Fruit Virus (ToBRFV). Enza Zaden's tomato breeding team has identified the gene that provides high resistance to the worldwide rapidly spreading virus. A major breakthrough!


A lot at stake for tomato growers


Sergio de la Fuente van Bentem, plant pathology researcher at Enza Zaden: “We know there’s a lot at stake for our customers. That’s why our company has worked very hard to find a solution. Now that we have discovered the answer, we keep on working hard to develop tomato varieties that are highly ToBRFV resistant. We expect to have these ready in the coming years.”


 

First in the world


Enza Zaden's researchers believe this gene is like no other currently known in the field, and offers “high resistance” to ToBRFV, also called tobamo after its genus.


With this innovation, the introduction of ToBRFV resistance will potentially secure production for the tomato industry, from large multinationals through to smallholder farmers who all cultivate what is currently the most traded vegetable internationally.


Tobamo’s rapid spread


Since it was first discovered in Israel in 2014, the Tomato Brown Rugose Fruit Virus (ToBRFV) has spread to parts of Europe, America, Asia and Africa, while the march continues through its easy spread via mechanical transmission.


ToBRFV has an incubation period of two to three weeks before symptoms occur, making it an uphill battle to contain a localised spread once it begins.


A needle in a haystack: finding the gene for HR ToBRFV


Kees Konst, Crop Research Director Tomato, explains when the team at Enza Zaden first heard about ToBRFV from its sales representatives in the Middle East in 2014, their knowledge of other tobamo viruses such as tomato mosaic virus (ToMV) and tobacco mosaic virus (TMV) gave an indication of what was to come.


“We analysed it and knowing it’s a tobamo, so it spreads mechanically, we realised it would travel all over the world,” he says.


De la Fuente van Bentem notes the industry already had a solution to ToMV and TMV – a single resistance gene that has been used for decades to stop these two viruses.


“This new tobamo virus is not hindered by that resistance, so clearly the industry had to come up with a new solution,” he states.


The plant pathologist explains Enza Zaden’s approach was to screen for new resistance genes in its wild tomato germplasm – a huge seed collection of wild tomato relatives that are crossable with normal cultivated tomatoes. “It’s like looking for a needle in a haystack, but we have identified a gene providing high resistance against ToBRFV”.


Why is a high resistance level so critical?


With an Intermediate Resistance (IR) level, the virus propagation is delayed but can still enter tomato plants – plants that will eventually show symptoms.


With this High Resistant (HR) level, the tomato plants tested at Enza Zaden research stations did not show any ToBRFV symptoms. De la Fuente van Bentem concludes even growers in regions currently free of ToBRFV will likely be paying attention to this innovation, as the virus has already spread faster than anticipated.

 

Enza Zaden will protect the identification of the gene providing high resistance and the tomato varieties they will create with relevant intellectual property rights.


Source: Enza Zaden

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