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2. Development of multiplex RT‐PCR assay for simultaneous detection of four viruses infecting apple (Malus domestica).

Author

Nabi, S.U., Madhu, G.S., Rao, G.P., and Baranwal, V.K.

Subjects
*MIXED infections, *REVERSE transcriptase polymerase chain reaction, *APPLE growing, *LEAF spots, *MOSAIC viruses, *VIRUSES, *APPLES
Abstract

The major viruses infecting apple cultivars throughout the world including India are apple mosaic virus (ApMV), apple stem pitting virus (ASPV), apple stem grooving virus (ASGV), apple chlorotic leaf spot virus (ACLSV), and recently, a new virus, apple necrotic mosaic virus (ApNMV), was reported from mosaic‐infected apple cultivars in India. The aim of this study was to detect the ApNMV virus along with the other three viruses (ApMV, ASPV and ASGV) simultaneously by multiplex RT‐PCR. Four primer‐pair‐produced amplicons of 670, 550, 350 and 210 bp corresponding to ApNMV, ApMV, ASPV and ASGV, respectively, were found to be specific for these viruses when tested individually. The annealing temperature (55°C), primer concentration (0·8 µl) and other components of the master mix were standardized for the development of one‐step m‐RT‐PCR assay. The m‐RT‐PCR protocol developed was further validated with 30 samples from seven symptomatic or asymptomatic apple cultivars, which revealed the presence of more than one virus in these cultivars. Most of the viruses were found to be present either alone or in mixed infection; however, ASPV was more common in tested cultivars. An easy, cost‐effective and rapid multiplex RT‐RCR protocol was developed to detect the four viruses, which infect apple plants either in individually or together in the field. This assay will help in the surveying and indexing of apple germplasm and the distribution of all four viruses in the apple growing regions of India. [ABSTRACT FROM AUTHOR]

Published
2022
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3. Nitrate‐inducible MdBT2 acts as a restriction factor to limit apple necrotic mosaic virus genome replication in Malus domestica.

Author

Zhang, Zhenlu, Xie, Yin‐Huan, Sun, Ping, Zhang, Fu‐Jun, Zheng, Peng‐Fei, Wang, Xiao‐Fei, You, Chun‐Xiang, and Hao, Yu‐Jin

Subjects
*MOSAIC viruses, *PROTEOLYSIS, *VIRAL replication, *VIRAL proteins, *MOSAIC diseases, *HOST plants, *APPLES
Abstract

Apple necrotic mosaic virus (ApNMV) is highly associated with the occurrence of apple mosaic disease in China. However, ApNMV–host interactions and defence mechanisms of host plants against this virus are poorly studied. Here, we report that nitrate treatment restrains ApNMV genomic RNA accumulation by destabilizing viral replication protein 1a through the MdBT2‐mediated ubiquitin‐proteasome pathway. MdBT2, a nitrate‐responsive BTB/TAZ domain‐containing protein, was identified in a yeast two‐hybrid screen of an apple cDNA library using viral protein 1a as bait, and 1a was further confirmed to interact with MdBT2 both in vivo and in vitro. It was further verified that MdBT2 promoted the ubiquitination and degradation of viral protein 1a through the ubiquitin‐proteasome pathway in an MdCUL3A‐independent manner. Viral genomic RNA accumulation was reduced in MdBT2‐overexpressing transgenic apple leaves but enhanced in MdBT2‐antisense leaves compared to the wild type. Moreover, MdBT2 was found to interfere with the interaction between viral replication proteins 1a and 2apol by competitively interacting with 1a. Taken together, our results demonstrate that nitrate‐inducible MdBT2 functions as a limiting factor in ApNMV viral RNA accumulation by promoting the ubiquitination and degradation of viral protein 1a and interfering with interactions between viral replication proteins. [ABSTRACT FROM AUTHOR]

Published
2022
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4. Incidence and Molecular Identification of Apple Necrotic Mosaic Virus (ApNMV) in Southwest China

Author

Wensen Shi, Rundong Yao, Runze Sunwu, Kui Huang, Zhibin Liu, Xufeng Li, Yi Yang, and Jianmei Wang

Subjects
ApNMV, apple mosaic disease, mosaic symptom, coat protein, Botany, QK1-989
Abstract

Apple mosaic disease has a great influence on apple production. In this study, an investigation into the incidence of apple mosaic disease in southwest China was performed, and the pathogen associated with the disease was detected. The results show that 2869 apple trees with mosaic disease were found in the Sichuan, Yunnan, and Guizhou Provinces, with an average incidence of 9.6%. Although apple mosaic virus (ApMV) is widespread in apples worldwide, the diseased samples were negative when tested for ApMV. However, a novel ilarvirus (apple necrotic mosaic virus, ApNMV) was identified in mosaic apple leaves which tested negative for ApMV. RT-PCR analysis indicated that ApNMV was detected in 322 out of 357 samples with mosaic symptoms. Phylogenetic analysis of coat protein (CP) sequences of ApNMV isolates suggested that, compared with ApMV, ApNMV was closer to prunus necrotic ringspot virus (PNRSV). The CP sequences of the isolates showed the diversity of ApNMV, which may enable the virus to adapt to the changeable environments. In addition, the pathology of mosaic disease was observed by microscope, and the result showed that the arrangement of the tissue and the shape of the cell, including the organelle, were seriously destroyed or drastically changed.

Published
2020
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5. The coat protein of the ilarvirus prunus necrotic ringspot virus mediates long-distance movement.

Author

He C, Xing F, Zhao X, Li S, Zhan B, Liu Z, Xu T, Gao D, Dong Z, Wang H, and Zhang Z

Subjects
RNA, Viral metabolism, China, Ilarvirus genetics, Ilarvirus metabolism, Prunus genetics
Abstract

The coat protein (CP) of plant viruses generally has multiple functions involving infection, replication, movement and pathogenicity. Functions of the CP of prunus necrotic ringspot virus (PNRSV), the causal agent of several threatening diseases of Prunus fruit trees, are poorly studied. Previously, we identified a novel virus in apple, apple necrotic mosaic virus (ApNMV), which is phylogenetically related to PNRSV and probably associated with apple mosaic disease in China. Full-length cDNA clones of PNRSV and ApNMV were constructed, and both are infectious in cucumber ( Cucumis sativus L.), an experimental host. PNRSV exhibited higher systemic infection efficiency with more severe symptoms than ApNMV. Reassortment analysis of genomic RNA segments 1-3 found that RNA3 of PNRSV could enhance the long-distance movement of an ApNMV chimaera in cucumber, indicating the association of RNA3 of PNRSV with viral long-distance movement. Deletion mutagenesis of the PNRSV CP showed that the basic motif from amino acids 38 to 47 was crucial for the CP to maintain the systemic movement of PNRSV. Moreover, we found that arginine residues 41, 43 and 47 codetermine viral long-distance movement. The findings demonstrate that the CP of PNRSV is required for long-distance movement in cucumber, which expands the functions of ilarvirus CPs in systemic infection. For the first time, we identified involvement of Ilarvirus CP protein during long-distance movement.

Published
2023
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6. Incidence and Molecular Identification of Apple Necrotic Mosaic Virus (ApNMV) in Southwest China

Author

Jianmei Wang, Runze Sunwu, Xufeng Li, Kui Huang, Zhibin Liu, Rundong Yao, Wensen Shi, and Yi Yang

Subjects
0106 biological sciences, 0301 basic medicine, mosaic symptom, Plant Science, apple mosaic disease, 01 natural sciences, complex mixtures, Article, Virus, 03 medical and health sciences, lcsh:Botany, Pathogen, Ecology, Evolution, Behavior and Systematics, Ilarvirus, Apple necrotic mosaic virus, Apple mosaic virus, Ecology, biology, Phylogenetic tree, Incidence (epidemiology), fungi, ApNMV, biochemical phenomena, metabolism, and nutrition, biology.organism_classification, equipment and supplies, Virology, lcsh:QK1-989, 030104 developmental biology, coat protein, Prunus necrotic ringspot virus, bacteria, 010606 plant biology & botany
Abstract

Apple mosaic disease has a great influence on apple production. In this study, an investigation into the incidence of apple mosaic disease in southwest China was performed, and the pathogen associated with the disease was detected. The results show that 2869 apple trees with mosaic disease were found in the Sichuan, Yunnan, and Guizhou Provinces, with an average incidence of 9.6%. Although apple mosaic virus (ApMV) is widespread in apples worldwide, the diseased samples were negative when tested for ApMV. However, a novel ilarvirus (apple necrotic mosaic virus, ApNMV) was identified in mosaic apple leaves which tested negative for ApMV. RT-PCR analysis indicated that ApNMV was detected in 322 out of 357 samples with mosaic symptoms. Phylogenetic analysis of coat protein (CP) sequences of ApNMV isolates suggested that, compared with ApMV, ApNMV was closer to prunus necrotic ringspot virus (PNRSV). The CP sequences of the isolates showed the diversity of ApNMV, which may enable the virus to adapt to the changeable environments. In addition, the pathology of mosaic disease was observed by microscope, and the result showed that the arrangement of the tissue and the shape of the cell, including the organelle, were seriously destroyed or drastically changed.

Published
2020

7. Incidence and Molecular Identification of Apple Necrotic Mosaic Virus (ApNMV) in Southwest China.

Author

Shi, Wensen, Yao, Rundong, Sunwu, Runze, Huang, Kui, Liu, Zhibin, Li, Xufeng, Yang, Yi, and Wang, Jianmei

Subjects
MOSAIC diseases, CELL morphology, PATHOLOGY, MOSAIC viruses, PROTEIN analysis, TREE diseases & pests, APPLE varieties
Abstract

Apple mosaic disease has a great influence on apple production. In this study, an investigation into the incidence of apple mosaic disease in southwest China was performed, and the pathogen associated with the disease was detected. The results show that 2869 apple trees with mosaic disease were found in the Sichuan, Yunnan, and Guizhou Provinces, with an average incidence of 9.6%. Although apple mosaic virus (ApMV) is widespread in apples worldwide, the diseased samples were negative when tested for ApMV. However, a novel ilarvirus (apple necrotic mosaic virus, ApNMV) was identified in mosaic apple leaves which tested negative for ApMV. RT-PCR analysis indicated that ApNMV was detected in 322 out of 357 samples with mosaic symptoms. Phylogenetic analysis of coat protein (CP) sequences of ApNMV isolates suggested that, compared with ApMV, ApNMV was closer to prunus necrotic ringspot virus (PNRSV). The CP sequences of the isolates showed the diversity of ApNMV, which may enable the virus to adapt to the changeable environments. In addition, the pathology of mosaic disease was observed by microscope, and the result showed that the arrangement of the tissue and the shape of the cell, including the organelle, were seriously destroyed or drastically changed. [ABSTRACT FROM AUTHOR]

Published
2020
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