Serratia marcescens ‐S3 inhibits Potato virus Y by activating ubiquitination of molecular chaperone proteins NbHsc70‐2 in Nicotiana benthamiana

Abstract Background: Major latex proteins (MLPs) belong to the MLP subfamily in Bet v 1 protein family and respond to both biotic and abiotic stresses, which play critical roles in plant disease resistance. As the type species of widely distributed and economically devastating Potyvirus, Potato virus Y (PVY) is one of the major constraints to important crop plants including tobacco ( Nicotiana benthamiana ) worldwide. Despite the great losses owing to PVY infection in tobacco, there is no previous study investigating the potential role of MLPs in developing resistance to viral infection. Results: In this study, for the first time we have identified and functionally analyzed the MLP-like protein 28 from N. benthamiana , denoted as NbMLP28 and investigated its role in conferring resistance to N. benthamiana against PVY infection. NbMLP28 was localized to the plasmalemma and nucleus, with the highest level in the root. NbMLP28 gene was hypothesized to be triggered by PVY infection and was highly expressed in jasmonic acid (JA) signaling pathway. Further validation was achieved through silencing of NbMLP28 through virus-induced gene silencing (VIGS) that rendered N. benthamiana plants more vulnerable to PVY infection, contrary to overexpression that enhanced resistance. Conclusions: Taken together, this is the first study describing the role of NbMLP28 in tobacco against PVY infection and provide a pivotal point towards obtaining pathogen-resistant tobacco varieties through constructing new candidate genes of MLP subfamily.

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Identification and functional characterization of NbMLP28, a novel MLP-like protein 28 enhancing Potato virus Y resistance in Nicotiana benthamiana

10.21203/rs.2.17980/v1 ◽

2019 ◽

Author(s):

liyun song ◽

Jie Wang ◽

Haiyan Jia ◽

Ali Kamran ◽

Yuanxia Qin ◽

...

Keyword(s):

Potato Virus ◽

Plant Disease Resistance ◽

Nicotiana Benthamiana ◽

Potato Virus Y ◽

Functional Characterization ◽

Virus Induced Gene Silencing ◽

Ja Signaling ◽

First Time

Abstract Background: Major latex proteins (MLPs) belong to the MLP subfamily in Bet v 1 protein family and respond to both biotic and abiotic stresses, which play critical roles in plant disease resistance. As the type species of widely distributed and economically devastating Potyvirus, Potato virus Y (PVY) is one of the major constraints to important crop plants including tobacco ( Nicotiana benthamiana ) worldwide. Despite the great losses owing to PVY infection in tobacco, there is no previous study investigating the potential role of MLPs in developing resistance to viral infection.Results: In this study, for the first time we have identified and functionally analyzed the MLP-like protein 28 from N. benthamiana , denoted as NbMLP28 and investigated its role in conferring resistance to N. benthamiana against PVY infection. NbMLP28 was localized to the plasmalemma and nucleus, with the highest level in the root. NbMLP28 gene was hypothesized to be triggered by PVY infection and was highly expressed in jasmonic acid (JA) signaling pathway. Further validation was achieved through silencing of NbMLP28 through virus-induced gene silencing (VIGS) that rendered N. benthamiana plants more vulnerable to PVY infection, contrary to overexpression that enhanced resistance.Conclusions: Taken together, this is the first study describing the role of NbMLP28 in tobacco against PVY infection and provide a pivotal point towards obtaining pathogen-resistant tobacco varieties through constructing new candidate genes of MLP subfamily.

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Potato Virus Y HCPro Suppression of Antiviral Silencing in Nicotiana benthamiana Plants Correlates with Its Ability To Bind In Vivo to 21- and 22-Nucleotide Small RNAs of Viral Sequence

Journal of Virology ◽

10.1128/jvi.00367-17 ◽

2017 ◽

Vol 91 (12) ◽

Cited By ~ 11

Author(s):

Francisco J. del Toro ◽

Livia Donaire ◽

Emmanuel Aguilar ◽

Bong-Nam Chung ◽

Francisco Tenllado ◽

...

Keyword(s):

Potato Virus ◽

Nicotiana Benthamiana ◽

Small Rnas ◽

Potato Virus Y ◽

Virus Vector ◽

Biologically Active ◽

Content Type ◽

Heterologous Virus ◽

Viral Sequences

ABSTRACT We have investigated short and small RNAs (sRNAs) that were bound to a biologically active hexahistidine-tagged Potato virus Y (PVY) HCPro suppressor of silencing, expressed from a heterologous virus vector in Nicotiana benthamiana plants, and purified under nondenaturing conditions. We found that RNAs in purified preparations were differentially enriched in 21-nucleotide (nt) and, to a much lesser extent, 22-nt sRNAs of viral sequences (viral sRNAs [vsRNAs]) compared to those found in a control plant protein background bound to nickel resin in the absence of HCPro or in a purified HCPro alanine substitution mutant (HCPro mutB) control that lacked suppressor-of-silencing activity. In both controls, sRNAs were composed almost entirely of molecules of plant sequence, indicating that the resin-bound protein background had no affinity for vsRNAs and also that HCPro mutB failed to bind to vsRNAs. Therefore, PVY HCPro suppressor activity correlated with its ability to bind to 21- and 22-nt vsRNAs. HCPro constituted at least 54% of the total protein content in purified preparations, and we were able to calculate its contribution to the 21- and the 22-nt pools of sRNAs present in the purified samples and its binding strength relative to the background. We also found that in the 21-nt vsRNAs of the HCPro preparation, 5′-terminal adenines were overrepresented relative to the controls, but this was not observed in vsRNAs of other sizes or of plant sequences. IMPORTANCE It was previously shown that HCPro can bind to long RNAs and small RNAs (sRNAs) in vitro and, in the case of Turnip mosaic virus HCPro, also in vivo in arabidopsis AGO2-deficient plants. Our data show that PVY HCPro binds in vivo to sRNAs during infection in wild-type Nicotiana benthamiana plants when expressed from a heterologous virus vector. Using a suppression-of-silencing-deficient HCPro mutant that can accumulate in this host when expressed from a virus vector, we also show that sRNA binding correlates with silencing suppression activity. We demonstrate that HCPro binds at least to sRNAs with viral sequences of 21 nucleotides (nt) and, to a much lesser extent, of 22 nt, which were are also differentially enriched in 5′-end adenines relative to the purified controls. Together, our results support the physical binding of HCPro to vsRNAs of 21 and 22 nt as a means to interfere with antiviral silencing.

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