Host Plant Resistance to Bemisia tabaci to Control Damage Caused in Tomato Plants by the Emerging Crinivirus Tomato Chlorosis Virus

Fortes, Isabel M.; Fernández-Muñoz, Rafael; Moriones, Enrique

doi:10.3389/fpls.2020.585510

Cited by 20 publications

(16 citation statements)

References 40 publications

(58 reference statements)

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“…With the development of high-throughput sequencing technology, it has become widely used in the studies of plant-virus interactions ( Ding et al, 2019 ; Şahin-Çevik et al, 2019 ; Fortes et al, 2020 ), and there have been a lot of plant-virus interactions in tomato plants, but most of them are concentrated on tomato yellow leaf curl virus (TYLCV) and related DNA viruses ( Chen et al, 2013 ; Lucioli et al, 2016 ; Sahu et al, 2020 ). Although much research has focused on the identification of related resistance genes, it has always been a challenge to determine resistance genes so that they can be introduced into tomato plants.…”

Section: Discussionmentioning

confidence: 99%

Integrated Analysis of microRNA and mRNA Transcriptome Reveals the Molecular Mechanism of Solanum lycopersicum Response to Bemisia tabaci and Tomato chlorosis virus

Hao

Huang

et al. 2021

Front. Microbiol.

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Tomato chlorosis virus (ToCV), is one of the most devastating cultivated tomato viruses, seriously threatened the growth of crops worldwide. As the vector of ToCV, the whitefly Bemisia tabaci Mediterranean (MED) is mainly responsible for the rapid spread of ToCV. The current understanding of tomato plant responses to this virus and B. tabaci is very limited. To understand the molecular mechanism of the interaction between tomato, ToCV and B. tabaci, we adopted a next-generation sequencing approach to decipher miRNAs and mRNAs that are differentially expressed under the infection of B. tabaci and ToCV in tomato plants. Our data revealed that 6199 mRNAs were significantly regulated, and the differentially expressed genes were most significantly associated with the plant-pathogen interaction, the MAPK signaling pathway, the glyoxylate, and the carbon fixation in photosynthetic organisms and photosynthesis related proteins. Concomitantly, 242 differentially expressed miRNAs were detected, including novel putative miRNAs. Sly-miR159, sly-miR9471b-3p, and sly-miR162 were the most expressed miRNAs in each sample compare to control group. Moreover, we compared the similarities and differences of gene expression in tomato plant caused by infection or co-infection of B. tabaci and ToCV. Taken together, the analysis reported in this article lays a solid foundation for further research on the interaction between tomato, ToCV and B. tabaci, and provide evidence for the identification of potential key genes that influences virus transmission in tomato plants.

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Section: Discussionmentioning

confidence: 99%

Integrated Analysis of microRNA and mRNA Transcriptome Reveals the Molecular Mechanism of Solanum lycopersicum Response to Bemisia tabaci and Tomato chlorosis virus

Hao

Huang

et al. 2021

Front. Microbiol.

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“…Trichomes are physical barriers to indirect plant defense mechanisms against insects with toxic and other harmful effects (War et al, 2012). This is in line with the study of Fortes, Fernández-Muñoz, & Moriones (2020), leaf glandular trichomes are useful to control the persistent transmitting of begomovirus Tomato Yellow Leaf Curling (TYLCV) which is infected by a vector Bemisia tabaci. Moreover, trichome consisted of acylsucroses that has a negative effect on B.tabaci.Correlation analysis (Table 2) revealed that the density of trichomes was negatively correlated with the percentage of Helopeltis damage (r = −0.368).…”

Section: Resultsmentioning

confidence: 64%

Evaluation of Resistant Tea (Camellia sinensis L.) Clones Against Helopeltis bradyi

et al. 2021

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Helopeltis bradyi is a significant pest that causes yield losses and reduces the quality of tea plantations by piercing and sucking the sap of tea leaves. This pest can be appropriately controlled by using resistant clones. The PGL series (clones) owned by Pagilaran plantation has high yield and quality. However, information their resistance level against H. bradyi is limited. This research was conducted at Pagilaran tea plantation at an altitude of 990 masl. Six PGL clone series (PGL 4, PGL 6, PGL 9, PGL 10, PGL 11, and PGL 15) and control clones (TRI 2025 and Gambung 7) were used as plant materials. Their morphological and biochemical characteristics were determined to evaluate their resistance level against H. bradyi. The results revealed that the score symptoms (under 10%) of PGL 4, PGL 9, PGL 10, PGL 11, and PGL 15 clones were the lowest, so these clones were categorized to be highly resistant. In addition, the total phenol content and trichome density of PGL 4, PGL 10, and PGL 15 clones were the highest. Among them, the PGL 4 clone had the thickest epidermis. These characteristics likely contributed to the morphological and biochemical defence mechanisms of tea plants against H. bradyi.

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“…Tanaman tomat dengan acylsugars tinggi menyebabkan oviposisi kutukebul yang lebih rendah dan jumlah nimfa yang lebih sedikit dibandingkan dengan genotipe dengan kandungan acylsugars yang rendah (Neiva et al 2018). Tomat yang tahan B. tabaci, memproduksi acylsugars secara efektif mampu mengendalikan penyebaran ToCV dibandingkan dengan galur yang hampir isogenik tanpa trikoma tipe IV dan sekresi acylsugars (Fortes et al 2020). Perilaku makan utama kutukebul saat inokulasi virus tergantung pada aktivitas stiletnya dalam sieve element (elemen tipis) (Maluta et al 2017).…”

Section: Pembahasanunclassified

Screening for Resistance of Tomato Lines Against Tomato chlorosis crinivirus

Wahyudin¹,

Damayanti²,

Mutaqin³

2022

J Fitopatol Indones

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Tomato chlorosis crinivirus (ToCV) diketahui berasosiasi dengan penyakit kuning pada tanaman tomat. Infeksi Crinivirus menunjukkan peningkatan di beberapa daerah di Jawa Barat saat ini. Tersedianya varietas tomat tahan akan menjadi cara efektif dalam pengelolaan penyakit virus, namun perlu upaya mencari sumber ketahanan tanaman terhadap infeksi virus. Penelitian bertujuan menentukan tingkat ketahanan 12 galur tomat terhadap infeksi ToCV. Tomat uji berumur 14 hari setelah pindah tanam diinokulasi dengan ToCV menggunakan 10 ekor kutukebul (Trialeurodes vaporariorum) viruliferus per tanaman. Pengamatan dilakukan terhadap peubah penyakit (periode inkubasi, insidensi dan keparahan penyakit, titer virus) dan peubah agronomi (tinggi tanaman, jumlah daun, jumlah dan bobot buah). Rata-rata periode inkubasi berkisar 9.4–13.5 hari, dan insidensi penyakit berkisar 90.9–100%. Gejala visual bervariasi dari klorosis ringan sampai sedang dan daun menggulung ke atas dengan skor keparahan penyakit berkisar 1.0–3.0. Titer virus diukur berdasarkan nilai absorbansi ELISA, yaitu berkisar 0.358–1.122. Secara umum, infeksi ToCV menghambat pertumbuhan tanaman dan menurunkan jumlah daun, menghambat bobot dan jumlah buah berturut-turut sebesar 6.0–37.8%, 8.6–39.5%, 2.7–33.7% dan 7.0–25.5%. Berdasarkan peubah penyakit, respons galur tomat dapat dikategorikan rentan (BISILB#1029A, BISILB#22, dan BISILB#724B), moderat tahan (BISILB#825B, BISILB#60D, BISIKC#402, BISIKC#96D, dan BISILB#40I), dan tahan (BISILB#1372ORA, BISILB#703A, BISILB#703B, dan BISILB#724A). Namun, sifat ketahanan galur tomat tersebut tidak berkorelasi dengan kemampuan produksi tanaman. Oleh karena itu, perlu dilakukan perbaikan sifat ketahanan pada empat galur tersebut agar lebih adaptif terhadap faktor lingkungan budi daya sehingga dapat dimanfaatkan sebagai tetua varietas tomat unggul tahan ToCV.

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Host Plant Resistance to Bemisia tabaci to Control Damage Caused in Tomato Plants by the Emerging Crinivirus Tomato Chlorosis Virus

Cited by 20 publications

References 40 publications

Integrated Analysis of microRNA and mRNA Transcriptome Reveals the Molecular Mechanism of Solanum lycopersicum Response to Bemisia tabaci and Tomato chlorosis virus

Integrated Analysis of microRNA and mRNA Transcriptome Reveals the Molecular Mechanism of Solanum lycopersicum Response to Bemisia tabaci and Tomato chlorosis virus

Evaluation of Resistant Tea (Camellia sinensis L.) Clones Against Helopeltis bradyi

Screening for Resistance of Tomato Lines Against Tomato chlorosis crinivirus

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