Hua-Yu Ma scite author profile

Tomato mottle mosaic virus (ToMMV) poses a threat to production and quality of tomato fruits. The Tm-22 gene confers resistance to some tobamoviruses by recognizing viral movement proteins. However, Tm-22-mediated resistance against ToMMV is not well known. Here, we found that ToMMV could infect wild-type but not Tm-22 transgenic Nicotiana benthamiana plants and could also infect tomato cultivar Moneymaker but not resistant cultivar Jili with homozygous Tm-22. Chimeric viral ToMMVToBRFV−MP with swapped ToMMV MP to MP of tomato brown rugose fruit virus could systemically infect Tm-22 transgenic N. benthamiana and tomato cultivars Jili plants. Further, transient expression of ToMMV MP in the leaves of Tm-22 transgenic N. benthamiana plants induced hypersensitive response-associated cell death, suggesting that the MP of ToMMV was the avirulent factor for the Tm-22 resistance gene. ToMMV could infect Tm-22-containing cultivar Jinpeng 1 but not Chaobei. Sequence analysis revealed that cultivars Chaobei and Jinpeng 1 were heterozygous, where Chaobei consists of Tm-22 and Tm-2 genes, while Jinpeng 1 consists of Tm-22 and tm-2 genes. Transient co-expression assays showed that both Tm-22 and Tm-2 but not tm-2 could recognize ToMMV MP and induce hypersensitivity response-associated cell death in N. benthamiana leaves, suggesting that homozygous tomato harboring Tm-22 and heterozygous tomato containing Tm-22 and Tm-2 may exhibit more durable resistance to ToMMV than heterozygous tomato carrying Tm-22 and tm-2. Further, Tm-22 transgenic N. benthamiana and tomato cultivar Jili plants with silenced Tm-22 gene were susceptible to ToMMV. Also, silencing type-I J-domain MIP1 gene compromised Tm-22-mediated resistance to ToMMV in Tm-22 transgenic N. benthamiana and tomato cultivar Jili. Moreover, we found that viral RNA could accumulate in the systemic leaves of Tm-22 transgenic N. benthamiana plants and tomato cultivar Jili at 35°C, but not at 20, 25, or 30°C. Altogether, our findings reveal that the Tm-22 confers resistance to ToMMV by recognizing MP, and the resistance is regulated by the allele combinations, accumulation levels of Tm-22, MIP1, and the temperature.

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Tomato mottle mosaic virus: Characterization, resistance gene effectiveness, and quintuplex RT-PCR detection system

Tettey

Yan

et al. 2022

Journal of Integrative Agriculture

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Hua-Yu Ma

First Report of Tomato brown rugose fruit virus Infecting Tomato in China

Identification of genetic determinants of tomato brown rugose fruit virus that enable infection of plants harbouring the Tm‐2² resistance gene

Biological and molecular characterization of tomato brown rugose fruit virus and development of quadruplex RT-PCR detection

The role of different innate and environmental factors in Tm-22-mediated resistance to tomato mottle mosaic virus

Tomato mottle mosaic virus: Characterization, resistance gene effectiveness, and quintuplex RT-PCR detection system

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Hua-Yu Ma

First Report of Tomato brown rugose fruit virus Infecting Tomato in China

Identification of genetic determinants of tomato brown rugose fruit virus that enable infection of plants harbouring the Tm‐22 resistance gene

Biological and molecular characterization of tomato brown rugose fruit virus and development of quadruplex RT-PCR detection

The role of different innate and environmental factors in Tm-22-mediated resistance to tomato mottle mosaic virus

Tomato mottle mosaic virus: Characterization, resistance gene effectiveness, and quintuplex RT-PCR detection system

Contact Info

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Identification of genetic determinants of tomato brown rugose fruit virus that enable infection of plants harbouring the Tm‐2² resistance gene