Host‐virus interaction between tobacco mild green mosaic virus strain <scp>U2</scp> and tropical soda apple resulting in systemic hypersensitive necrosis and the host range, survival, spread, and molecular characterization of the virus-Reference-Cited by-同舟云学术

Host‐virus interaction between tobacco mild green mosaic virus strain U2 and tropical soda apple resulting in systemic hypersensitive necrosis and the host range, survival, spread, and molecular characterization of the virus

Published:2023-11-28 Issue:1 Volume:80 Page:176-191
ISSN:1526-498X
Container-title:Pest Management Science
language:en
Short-container-title:Pest Management Science

Author:

Charudattan Raghavan¹²^ORCID,Hiebert Ernest¹³,Pettersen Matthew S.⁴,Horrell Jonathan R.⁴,Elliott Mark S.⁵,DeValerio James T.⁵,Maia Gabriella S.⁶,de Oliveira Thais Balbao Clemente Bueno⁷

Affiliation:

1. Emeritus Professors, Plant Pathology Department University of Florida Gainesville Florida USA

2. President & CEO, BioProdex, Inc. Gainesville Florida USA

3. Former Vice President, BioProdex, Inc. Gainesville Florida USA

4. Former Graduate Assistants, Plant Pathology Department University of Florida Gainesville Florida USA

5. Former Senior Biologists, Plant Pathology Department University of Florida Gainesville Florida USA

6. Former Laboratory Assistant, Plant Pathology Department University of Florida Gainesville Florida USA

7. Former Undergraduate Student Intern, Plant Pathology Department University of Florida Gainesville Florida USA

Abstract

AbstractBACKGROUNDTobacco mild green mosaic virus strain U2 (TMGMV‐U2) is a registered active ingredient in a bioherbicide to control tropical soda apple (TSA), Solanum viarum, an invasive weed. As required for registration, we developed empirical data on the host‐virus interaction and the virus's host range, survival, spread, and genomic sequence.RESULTSTMGMV‐U2 killed TSA plants by causing systemic hypersensitive necrosis (SHN). It elicited local lesions in inoculated leaves which was followed by the plant's wilting and death. It moved from inoculated terminal leaves through the vasculature to roots and then to newly developed leaves. Phloem death was implicated in wilting and plant death. The SHN response was attenuated in plants grown at constant 32 °C. TMGMV‐U2 titer in TSA was low compared to a systemically susceptible tobacco. The virus remained infective for up to 6 months in infected dead TSA tissues and in soil in which infected plants had grown. Susceptible tobacco and pepper plants grown in soil that previously had infected dead TSA or in soil amended with the virus remained asymptomatic and virus‐free. A susceptible pepper crop grown in a field block following two consecutive crops of TMGMV‐U2‐infected susceptible tobacco grew disease‐free and virus‐free and without yield loss. Purified TMGMV‐U2 was infective for 1 year when stored at −20 °C or 5 °C and for 1 month at room temperature. No virus spread was found in the field. Genomic analyses confirmed the registered isolate to be a U2 strain and free of satellite TMV. The TMGMV‐U2‐susceptible species preponderantly belonged to the Solanaceae. A few hosts that were killed belonged to this family. Several new hosts to TMGMV‐U2 were found. These data enabled registration of TMGMV‐U2.CONCLUSIONTMGMV‐U2 can be used safely as a bioherbicide without risks to nontarget plants and the environment. © 2023 Society of Chemical Industry.

Funder

University of Florida

Publisher

Wiley

Subject

Insect Science,Agronomy and Crop Science,General Medicine

Link

https://onlinelibrary.wiley.com/doi/pdf/10.1002/ps.7802

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