Your search keyword '"Cucumber mosaic virus"' showing total 6,593 results

1. Characterization of genetic resistance to cucumber mosaic virus (CMV) in spinach (Spinacia oleracea L.).

Author

Wu, Yue, Hirakawa, Hideki, Masuta, Chikara, and Onodera, Yasuyuki

Subjects

*CUCUMBER mosaic virus, *CYTOMEGALOVIRUS diseases, *GENETIC models, *DISEASE resistance of plants, *CULTIVARS, *SPINACH

Abstract

Objective: Cucumber mosaic virus (CMV) is a significant pathogen causing quality loss in spinach. Although host genetic resistance is the primary method of managing CMV infection in this crop, CMV resistance genes are not widely utilized in spinach breeding programs as the genetic and molecular mechanisms underlying resistance are not yet fully understood. CMV infections were therefore studied in different lines of spinach plants, and their progeny, to develop a model of the genetic basis of CMV resistance. Results: Visual observations and RT-PCR assays revealed that three monoecious lines (03-258, 03-263, and 03-336) were susceptible to CMV, while three traditional resistant cultivars and a near-isogenic line (NIL-M) exhibited resistance. A dioecious line (03–009) consisted of susceptible and resistant plants. Notably, resistant plants did not exhibit the lesions typical of the hypersensitive response. Genetic analysis of progeny from the cross NIL-M × 03-336 indicated that a single dominant allele (designated SRCm1, standing for Spinach Resistance to CMV 1) controlled CMV resistance; analysis of sib-cross progeny populations derived from line 03–009 supported this conclusion. These results offer a valuable model for CMV resistance in spinach and will enhance future breeding programs. [ABSTRACT FROM AUTHOR]

Published

2024

2. Current knowledge and breeding strategies for management of aphid-transmitted viruses of pepper (Capsicum spp.) in Africa.

Author

Zohoungbogbo, Herbaud P. F., Vihou, Fabrice, Achigan-Dako, Enoch G., and Barchenger, Derek W.

Subjects

HOT peppers, MIXED infections, PEST control, DISEASE resistance of plants, VIRUS diseases, CUCUMBER mosaic virus, PEPPERS, POTATO virus Y

Abstract

Aphid-transmitted viruses cause significant losses in pepper production worldwide, negatively affecting yield and quality. The emergence of new aphid-transmitted viruses or development of variants as well as the occurrence in mixed infections make management a challenge. Here, we overview the current status of the distribution, incidence and phylogeny of aphids and the viruses they transmit in pepper in Africa; outline the available genetic resources, including sources of resistance, resistance genes and molecular markers; and discuss the recent advances in understanding the genetic basis of resistance to the predominant African viruses infecting pepper. Pepper veinal mottle virus (PVMV; Potyvirus); Potato virus Y (PVY; Potyvirus), Chili veinal mottle virus (ChiVMV; Potyvirus), Cucumber mosaic virus (CMV; Cucumovirus) and Pepper veins yellow virus (PeVYV; Polerovirus) have been reported to be the most widespread and devastating aphid-transmitted viruses infecting pepper across Africa. Co-infection or mixed infection between aphid-transmitted viruses has been detected and the interrelationship between viruses that co-infect chili peppers is poorly understood. Establishing and evaluating existing and new diversity sets with more genetic diversity is an important component of developing host resistance and implementing integrated management strategies. However, more work needs to be done to characterize the aphid-transmitted viral strains across Africa and understand their phylogeny in order to develop more durable host resistance. In addition, a limited number of QTLs associated with resistance to the aphid-transmitted virus have been reported and QTL data are only available for PVY, ChiVMV and CMV mainly against European and Asian strains, although PVMV is likely the most important aphid-transmitted viral disease in Africa. There is a need to identify germplasm resources with resistance against various aphid-transmitted virus strains, and subsequent pyramiding of the resistance using marker-assisted selection could be an effective strategy. The recent advances in understanding the genetic basis of the resistance to the virus and the new breeding techniques that can be leveraged to accelerate breeding for aphid-transmitted virus in pepper are proposed as strategies to more efficiently develop resistant cultivars. The deployment of multi-genetic resistances in pepper is an effective and desirable method of managing viral-diseases in Africa and limit losses for farmers in a sustainable manner. [ABSTRACT FROM AUTHOR]

Published

2024

3. A resilient mutualistic interaction between cucumber mosaic virus and its natural host to adapt to an excess zinc environment and drought stress.

Author

Tabara, Midori, Uraguchi, Shimpei, Kiyono, Masako, Watanabe, Izumi, Takeda, Atsushi, Takahashi, Hideki, and Fukuhara, Toshiyuki

Subjects

*CUCUMBER mosaic virus, *HOST plants, *CYTOMEGALOVIRUS diseases, *WILD plants, *ZINC, *NICOTIANA benthamiana

Abstract

A perennial pseudometallophyte Arabidopsis halleri is frequently infected with cucumber mosaic virus (CMV) in its natural habitat. The purpose of this study was to characterize the effect of CMV infection on the environmental adaptation of its natural host A. halleri. The CMV(Ho) strain isolated from A. halleri was inoculated into clonal virus-free A. halleri plants, and a unique plant-virus system consisting of CMV(Ho) and its natural wild plant host was established. In a control environment with ambient zinc supplementation, CMV(Ho) infection retarded growth in the above-ground part of host plants but conferred strong drought tolerance. On the other hand, in an excess zinc environment, simulating a natural edaphic environment of A halleri, host plants hyperaccumulated zinc and CMV(Ho) infection did not cause any symptoms to host plants while conferring mild drought tolerance. We also demonstrated in Nicotiana benthamiana as another host that similar effects were induced by the combination of excess zinc and CMV(Ho) infection. Transcriptomic analysis indicated that the host plant recognized CMV(Ho) as a mutualistic symbiont rather than a parasitic pathogen. These results suggest a resilient mutualistic interaction between CMV(Ho) and its natural host A. halleri in its natural habitat. [ABSTRACT FROM AUTHOR]

Published

2024

4. A novel RAV transcription factor from pear interacts with viral RNA‐silencing suppressors to inhibit viral infection.

Author

Xie, Yin‐Shuai, Zeng, Qi, Huang, Wen‐Ting, Wang, Jin‐Ying, Li, Han‐Wei, Yu, Shang‐Zhen, Liu, Can, Zhang, Xue‐Qing, Feng, Chen‐Lu, Zhang, Wen‐Hao, Li, Tian‐Zhong, and Cheng, Yu‐Qin

Subjects

*TRANSCRIPTION factors, *PEARS, *VIRUS diseases, *PLANT viruses, *HOST plants, *CUCUMBER mosaic virus

Abstract

SUMMARY: In plants, RNA silencing constitutes a strong defense against viral infection, which viruses counteract with RNA‐silencing suppressors (RSSs). Understanding the interactions between viral RSSs and host factors is crucial for elucidating the molecular arms race between viruses and host plants. We report that the helicase motif (Hel) of the replicase encoded by apple stem grooving virus (ASGV)—the main virus affecting pear trees in China—is an RSS that can inhibit both local and systemic RNA silencing, possibly by binding double‐stranded (ds) siRNA. The transcription factor related to ABSCISIC ACID INSENSITIVE3/VIVIPAROUS1 from pear (PbRAV1) enters the cytoplasm and binds Hel through its C terminus, thereby attenuating its RSS activity by reducing its binding affinity to 21‐ and 24‐nt ds siRNA, and suppressing ASGV infection. PbRAV1 can also target p24, an RSS encoded by grapevine leafroll‐associated virus 2 (GLRaV‐2), with similar negative effects on p24's suppressive function and inhibition of GLRaV‐2 infection. Moreover, like the positive role of the PbRAV1 homolog from grapevine (VvRAV1) in p24's previously reported RSS activity, ASGV Hel can also hijack VvRAV1 and employ the protein to sequester 21‐nt ds siRNA, thereby enhancing its own RSS activity and promoting ASGV infection. Furthermore, PbRAV1 neither interacts with CP, an RSS encoded by grapevine inner necrosis virus, nor has any obvious effect on CP's RSS activity. Our results identify an RSS encoded by ASGV and demonstrate that PbRAV1, representing a novel type of RAV transcription factor, plays a defensive role against viral infection by targeting viral RSSs. Significance Statement: Our results demonstrate that the helicase motif (Hel) of the replicase encoded by apple stem grooving virus (ASGV) can suppress RNA silencing, and reveal that PbRAV1, a novel type of RAV transcription factor, targets two unrelated viral RSSs—ASGV Hel and GLRaV‐2 p24—to attenuate their RSS activity, thereby suppressing viral infection. [ABSTRACT FROM AUTHOR]

Published

2024

5. Resistance gene Ty-1 restricts TYLCV infection in tomato by increasing RNA silencing.

Author

Ma, Xiaofang, Zhou, Yijun, Wu, Liming, and Moffett, Peter

Subjects

*TOMATO yellow leaf curl virus, *NON-coding RNA, *RNA polymerases, *PLANT viruses, *NICOTIANA benthamiana, *CUCUMBER mosaic virus

Abstract

A major antiviral mechanism in plants is mediated by RNA silencing through the action of DICER-like (DCL) proteins, which cleave dsRNA into discrete small RNA fragments, and ARGONAUTE (AGO) proteins, which use the small RNAs to target single-stranded RNA. RNA silencing can also be amplified through the action of RNA-dependent RNA polymerases (RDRs), which use single stranded RNA to generate dsRNA that in turn is targeted by DCL proteins. As a counter-defense, plant viruses encode viral suppressors of RNA silencing (VSRs) that target different components in the RNA silencing pathway. The tomato Ty-1 gene confers resistance to the DNA virus tomato yellow leaf curl virus (TYLCV) and has been reported to encode an RDRγ protein. However, the molecular mechanisms by which Ty-1 controls TYLCV infection, including whether Ty-1 is involved in RNA silencing, are unknown. Here, by using a transient expression assay, we have confirmed that Ty-1 shows antiviral activity against TYLCV in Nicotiana benthamiana. Also, in transient expression-based silencing assays, Ty-1 augmented systemic transgene silencing in GFP transgenic N. benthamiana plants. Furthermore, co-expression of Ty-1 or other RDRγ proteins from N. benthamiana or Arabidopsis with various proteins resulted in lower protein expression. These results are consistent with a model wherein Ty-1-mediated resistance to TYLCV is due, at least in part, to an increase in RNA silencing activity. [ABSTRACT FROM AUTHOR]

Published

2024

6. Arabidopsis PDLP7 modulated plasmodesmata function is related to BG10-dependent glucosidase activity required for callose degradation.

Author

Chen, Xin, Li, Wan-Wan, Gao, Jin, Wu, Zhiguo, Du, Juan, Zhang, Xiaoming, and Zhu, Yu-Xian

Subjects

*ARABIDOPSIS proteins, *TURNIP mosaic virus, *PLASMODESMATA, *VIRUS diseases, *VIRAL transmission, *CUCUMBER mosaic virus

Abstract

[Display omitted] The microdomains of plasmodesmata, specialized cell-wall channels responsible for communications between neighboring cells, are composed of various plasmodesmata-located proteins (PDLPs) and lipids. Here, we found that, among all PDLP or homologous proteins in Arabidopsis thaliana genome, PDLP5 and PDLP7 possessed a C-terminal sphingolipid-binding motif, with the latter being the only member that was significantly upregulated upon turnip mosaic virus and cucumber mosaic virus infections. pdlp7 mutant plants exhibited significantly reduced callose deposition, larger plasmodesmata diameters, and faster viral transmission. These plants exhibited increased glucosidase activity but no change in callose synthase activity. PDLP7 interacted specifically with glucan endo -1,3-β-glucosidase 10 (BG10). Consistently, higher levels of callose deposition and slower virus transmission in bg10 mutants were observed. The interaction between PDLP7 and BG10 was found to depend on the presence of the Gnk2-homologous 1 (GnK2-1) domain at the N terminus of PDLP7 with Asp-35, Cys-42, Gln-44, and Leu-116 being essential. In vitro supplementation of callose was able to change the conformation of the GnK2-1 domain. Our data suggest that the GnK2-1 domain of PDLP7, in conjunction with callose and BG10, plays a key role in plasmodesmata opening and closure, which is necessary for intercellular movement of various molecules. [ABSTRACT FROM AUTHOR]

Published

2024

7. Antiviral RNA interference inhibits virus vertical transmission in plants.

Author

Liu, Si and Ding, Shou-Wei

Abstract

Known for over a century, seed transmission of plant viruses promotes trans-continental virus dissemination and provides the source of infection to trigger devastating disease epidemics in crops. However, it remains unknown whether there is a genetically defined immune pathway to suppress virus vertical transmission in plants. Here, we demonstrate potent immunosuppression of cucumber mosaic virus (CMV) seed transmission in its natural host Arabidopsis thaliana by antiviral RNA interference (RNAi) pathway. Immunofluorescence microscopy reveals predominant embryo infection at four stages of embryo development. We show that antiviral RNAi confers resistance to seed infection with different genetic requirements and drastically enhanced potency compared with the inhibition of systemic infection of whole plants. Moreover, we detect efficient seed transmission of a mutant CMV lacking its RNAi suppressor gene in mutant plants defective in antiviral RNAi, providing further support for the immunosuppression of seed transmission by antiviral RNAi. [Display omitted] • Antiviral RNAi inhibits seed transmission of cucumber mosaic virus (CMV) in natural host • Antiviral RNAi confers resistance to seed infection by CMV in A. thaliana • Immunofluorescence microscopy reveals predominant embryo invasion in developing seed • CMV 2b protein antagonizes RNAi-mediated immunosuppression of seed transmission Little is known about the genetic mechanism that regulates virus vertical transmission in plants. Liu and Ding reveal strong immunosuppression of seed transmission of two distinct positive-strand RNA viruses in their native hosts by an antiviral RNAi pathway that more potently suppresses infection of seeds than whole plants. [ABSTRACT FROM AUTHOR]

Published

2024

8. First Report of cucumber mosaic virus in Zinnia elegans in Indonesia.

Author

Zahra, Hayu Alifia, Defitra, Nabilla Kurnialaili, Probowati, Wiwit, Randa-Zelyüt, Filiz, and Santosa, Adyatma Irawan

Subjects

FARM produce, PEST control, FLOWERING of plants, BEGOMOVIRUSES, ANGIOSPERMS, CUCUMBER mosaic virus, CUCUMBERS

Abstract

Zinnia elegans of Family Asteraceae is a flowering plant grown widely in gardens in Indonesia. The plant is also often integrated into pest management of different agricultural commodities as its colourful flowers may attract beneficial insects including natural enemies. A total of eight viral symptomatic and four non-symptomatic Z. elegans samples were collected from four districts in Kulon Progo and Sleman Regencies of Special Region of Yogyakarta. They were molecularly tested using two universal primer pairs for begomoviruses, and two specific primer pairs for cucumber mosaic virus (CMV, Cucumovirus) detections. The eight symptomatic samples were all positive for CMV but negative for begomoviruses infections. The four non-symptomatic samples were tested negative to begomoviruses and CMV. Partial RNA2 and RNA3 segments of four CMV isolates were sequenced to demonstrate that they are members of subgroup IB. 4Ze-Ngaglik isolate was shown to be mechanically transmitted to healthy Z. elegans and cucumber cv. Baresta (Cucumis sativus). To the best of our knowledge, this report confirmed the first CMV occurrence in Z. elegans in Indonesia. [ABSTRACT FROM AUTHOR]

Published

2024

9. Protein P5 of pear chlorotic leaf spot‐associated virus is a pathogenic factor that suppresses RNA silencing and enhances virus movement.

Author

Ren, Qiuting, Zhang, Zhe, Zhang, Yongle, Zhang, Yue, Gao, Yujie, Zhang, Hongyi, Wang, Xianhong, Wang, Guoping, and Hong, Ni

Subjects

*POTATO virus X, *GREEN fluorescent protein, *PLANT RNA, *PEARS, *GENE expression, *CUCUMBER mosaic virus

Abstract

Pear chlorotic leaf spot‐associated virus (PCLSaV) is a newly described emaravirus that infects pear trees. The virus genome consists of at least five single‐stranded, negative‐sense RNAs. The P5 encoded by RNA5 is unique to PCLSaV. In this study, the RNA silencing suppression (RSS) activity of P5 and its subcellular localization were determined in Nicotiana benthamiana plants by Agrobacterium tumefaciens‐mediated expression assays and green fluorescent protein RNA silencing induction. Protein P5 partially suppressed local RNA silencing, strongly suppressed systemic RNA silencing and triggered reactive oxygen species accumulation. The P5 self‐interacted and showed subcellular locations in plasmodesmata, endoplasmic reticulum and nucleus. Furthermore, P5 rescued the cell‐to‐cell movement of a movement defective mutant PVXΔP25 of potato virus X (PVX) and enhanced the pathogenicity of PVX. The N‐terminal 1–89 amino acids of the P5 were responsible for the self‐interaction ability and RSS activity, for which the signal peptide at positions 1–19 was indispensable. This study demonstrated the function of an emaravirus protein as a pathogenic factor suppressing plant RNA silencing to enhance virus infection and as an enhancer of virus movement. [ABSTRACT FROM AUTHOR]

Published

2024

10. A MOLECULAR LEVEL STUDY ON ENDOPHYTIC FUNGAL DIVERSITY AND IDENTIFICATION IN AEGLE MARMELOS.

Author

Jadon, Shalini, Kumar, Devesh, and Chahar, Saroj Singh

Subjects

BAEL (Tree), ENDOPHYTIC fungi, HOST plants, FUNGAL colonies, PLANT cells & tissues, CUCUMBER mosaic virus

Abstract

The Aegle marmelos tree holds immense religious significance in India. Not only do indigenous communities use it, but so do the general populace. Traditional medicine makes use of the whole plant. In addition to its analgesic and antioxidant effects, the plant also possesses antiviral, antifungal, and antibacterial capabilities. The term "Epiphytes" describes the fungal colonies that many endophytic fungi establish on the outside of their host plants. However, there are species that nest in the interstitial and intracellular regions of their host plants; these are known as endophytic species. Endophytes, after interacting with the Bael plant as a host, confer stress tolerance and the capacity to produce bioactive chemicals. It is known that Aegle marmelos include several endophytes. In this study, we detailed the process of isolating ten fungal endophytes from various plant tissues, including bark, roots, fruits, stems and leaves. [ABSTRACT FROM AUTHOR]

Published

2024

11. Mutating the arginine residue within the FRNK motif of telosma mosaic virus (TelMV) HC‐Pro protein attenuates viral infection and confers effective protection against TelMV in passion fruit (Passiflora edulis).

Author

Wang, Linxi, Shi, Wei, Aziz, Asma, Wang, Xiaoqing, Liu, Haobin, Shen, Wentao, Cui, Hongguang, and Dai, Zhaoji

Subjects

PASSION fruit, MOSAIC viruses, VIRUS diseases, VIRAL proteins, CHEMICAL industry, NICOTIANA benthamiana, CUCUMBER mosaic virus

Abstract

BACKGROUND: Telosma mosaic virus (TelMV, Potyvirus, Potyviridae) is an emerging viral pathogen that threatens passion fruit plantations worldwide. However, an efficient strategy for controlling such a virus is not yet available. Cross protection is a phenomenon in which pre‐infection of a plant with one mild strain prevents or delays subsequent infection by the same or closely related virus. HC‐Pro is the potyviral encoded multifunctional protein involved in several steps of viral infection, including multiplication, movement, transmission and RNA silencing suppression. In this study, we tested whether it is possible to generate attenuated viral strains capable of conferring protection against severe TelMV infection by manipulating the HC‐Pro gene. RESULTS: By introducing point mutation into the conserved motif FRNK of HC‐Pro that is essential for RNA silencing suppression, we have successfully obtained three attenuated mutants of TelMV (R181K, R181D, and R181E, respectively). These attenuated TelMV mutants could systemically infect passion fruit plants without noticeable symptoms. Pre‐inoculation of one of these attenuated mutants confers efficient protection against subsequent infection by severe TelMV strain. Moreover, we demonstrated that the HC‐Pros harbored by the attenuated mutants exhibit reduced RNA silencing suppression activity in Nicotiana benthamiana leaves. CONCLUSION: The attenuated TelMV mutants developed in this study that are suitable for cross protection offer a practical, powerful tool to fight against TelMV for sustainable passion fruit production. © 2024 Society of Chemical Industry. [ABSTRACT FROM AUTHOR]

Published

2024

12. １ 例土鸡禽白血病病毒与马立克病病毒混合感染诊断与分析.

Author

胡晓苗, 殷冬冬, 沈学怀, 潘孝成, 戴 银, 赵瑞宏, 周学利, 侯宏艳, 尹 磊, and 刘亚云

Subjects

*CHICKEN as food, *POULTRY farms, *MIXED infections, *SEQUENCE alignment, *DNA viruses, *CUCUMBER mosaic virus

Abstract

[Objective] To identify samples of suspected tumor disease from a local chicken farm in Anhui Province. [Method] The chicken liver was collected and the virus DNA was extracted. The primers were designed according to the sequence of ALV and MDV that GenBank had registered. The ALV env and MDV meq gene were detected by PCR. The amplified sequence was sequenced and analyzed by evolutionary tree and nucleotide homology. [Result] Detected bands of ALV and MD, and sequence alignment results showed that ALV belongs to subgroup J, while MD is a strong wild virus strain. [Conclusion] This study provided reference data for understanding the mixed infection situation of ALV and MDV in the area. [ABSTRACT FROM AUTHOR]

Published

2024

13. Impact of KDM6B mosaic brain knockout on synaptic function and behavior.

Author

Brauer, Bastian, Ancatén-González, Carlos, Ahumada-Marchant, Constanza, Meza, Rodrigo C., Merino-Veliz, Nicolas, Nardocci, Gino, Varela-Nallar, Lorena, Arriagada, Gloria, Chávez, Andrés E., and Bustos, Fernando J.

Subjects

*AUTISM spectrum disorders, *NEUROPLASTICITY, *REGULATOR genes, *GENE expression, *METHYL aspartate receptors, *CUCUMBER mosaic virus

Abstract

Autism spectrum disorders (ASD) are complex neurodevelopmental conditions characterized by impairments in social communication, repetitive behaviors, and restricted interests. Epigenetic modifications serve as critical regulators of gene expression playing a crucial role in controlling brain function and behavior. Lysine (K)-specific demethylase 6B (KDM6B), a stress-inducible H3K27me3 demethylase, has emerged as one of the highest ASD risk genes, but the precise effects of KDM6B mutations on neuronal activity and behavioral function remain elusive. Here we show the impact of KDM6B mosaic brain knockout on the manifestation of different autistic-like phenotypes including repetitive behaviors, social interaction, and significant cognitive deficits. Moreover, KDM6B mosaic knockout display abnormalities in hippocampal excitatory synaptic transmission decreasing NMDA receptor mediated synaptic transmission and plasticity. Understanding the intricate interplay between epigenetic modifications and neuronal function may provide novel insights into the pathophysiology of ASD and potentially inform the development of targeted therapeutic interventions. [ABSTRACT FROM AUTHOR]

Published

2024

14. Genome-wide analysis of the soybean eEF gene family and its involvement in virus resistance.

Author

Hexiang Luan, Daiqiao Song, Kai Huang, Shuxin Li, Hao Xu, Kachroo, Pradeep, Kachroo, Aardra, and Longgang Zhao

Subjects

CUCUMBER mosaic virus, SOYBEAN mosaic virus, ELONGATION factors (Biochemistry), GENE expression, GENE families

Abstract

Eukaryotic elongation factors (eEFs) are protein factors that mediate the extension of peptide chain, among which eukaryotic elongation factor 1 alpha (eEF1A) is one of the most abundant protein synthesis factors. Previously we showed that the P3 protein of Soybean mosaic virus (SMV), one of the most destructive and successful viral pathogens of soybean, targets a component of the soybean translation elongation complex to facilitate its pathogenesis. Here, we conducted a systematic analyses of the soybean eEF (GmeEF) gene family in soybean and examinedits role in virus resistance. In this study, GmeEF family members were identified and characterized based on sequence analysis. The 42 members, which were unevenly distributed across the 15 chromosomes, were renamed according to their chromosomal locations. The GmeEF members were further divided into 12 subgroups based on conserved motif, gene structure, and phylogenetic analyses. Analysis of the promoter regions showed conspicuous presence of myelocytomatosis (MYC) and ethylene-responsive (ERE) cis-acting elements, which are typically involved in drought and phytohormone response, respectively, and thereby in plant stress response signaling. Transcriptome data showed that the expression of 15 GmeEF gene family members changed significantly in response to SMV infection. To further examine EF1A function in pathogen response, three different Arabidopsis mutants carrying T-DNA insertions in orthologous genes were analyzed for their response to Turnip crinkle virus (TCV) and Cucumber mosaic virus (CMV). Results showed that there was no difference in viral response between the mutants and the wild type plants. This study provides a systematic analysis of the GmeEF gene family through analysis of expression patterns and predicted protein features. Our results lay a foundation for understanding the role of eEF gene in soybean anti-viral response. [ABSTRACT FROM AUTHOR]

Published

2024

15. MONITORING OF VIRAL INFECTIONS IN VEGETABLE CROPS IN AGROECOSYSTEMS OF UKRAINE.

Author

TSVIGUN, V. O., LEVISHKO, A. S., GUMENIUK, I. I., and MAZUR, S. O.

Subjects

*TOBACCO mosaic virus, *POTATO virus X, *CUCUMBER mosaic virus, *PLANT viruses, *VIRAL antigens

Abstract

Information on the abundance and diversity of phytopathogenic viruses in Ukraine is very variable and limited. There is a high importance of a complex study of the species composition and ways of spreading crop viruses, as well as the development of epiphytotic forecasting systems, which will help to limit the ranges of these viruses and save crop yields. Consequently, the aim of our study was to explore the species composition and frequency of mono-and mixed virus infection of vegetable crops in Ukrainian agrocenoses and to identify the possible etiology of its occurrence. Methods. The samples were analyzed for the presence of viral antigens by enzyme-linked immunosorbent assay in sandwich and indirect modifications. For the detection of viral antigens in ELISA, test systems manufactured by Loewe were used. To identify the virus, the material was homogenized and purified, and then registered on a reader. Results. The frequency of vegetable crops damaged by diseases of viral etiology increased by 25-27% compared to the previous years of the study. Serological analysis showed that 59% of the studied samples of the Cucurbitaceae family and 54% of the Solanaceae family were affected by the main viral diseases most common in Ukraine. The seed way of transmission of vegetable viruses in Ukraine was demonstrated as one of the sources of viruses in agrocenoses. The presence of antigens to cucumber mosaic virus (CMV) in 14.3% of the studied seeds, zucchini yellow mosaic virus (ZYMV) - 11.2%, and tomato mosaic virus (ToMV) - 12.6% was shown. This allows us to suggest that sowing those seeds in the future will contribute to the spread of these viruses across Ukraine. Analysis of soil samples showed the presence of antigens of cucumber mosaic virus, tobacco mosaic virus, and potato virus X. The lowest level of antigens to CMV was detected in the soils of Vinnytsia region, to PVX - in the Kyiv and Cherkasy regions, and to TMV - in the Odesa region. Conclusions. Vegetable agrocenoses in Ukraine are more often affected by viruses belonging to the Tobamovirus, Cucumovirus, Potyvirus, and Tospovirus genera of the Bromoviridae, Potyviridae, and Bunyaviridae families. In addition to the increasing areas of viral monoinfection, there is an active spread of mixed infection, or «superinfection», in Ukrainian agrocenosis. Mixed infections are mainly formed during the growth and development of the tested vegetable crops. All of this leads to further signifi cant spread of not only mono-but also mixed virus infection of vegetable crops. [ABSTRACT FROM AUTHOR]

Published

2024

16. Characterization of genetic resistance to cucumber mosaic virus (CMV) in spinach (Spinacia oleracea L.)

Author

Yue Wu, Hideki Hirakawa, Chikara Masuta, and Yasuyuki Onodera

Subjects

Cucumber mosaic virus, Extreme resistance, Hypersensitive resistance, Spinach, Spinacia oleracea, Medicine, Biology (General), QH301-705.5, Science (General), Q1-390

Abstract

Abstract Objective Cucumber mosaic virus (CMV) is a significant pathogen causing quality loss in spinach. Although host genetic resistance is the primary method of managing CMV infection in this crop, CMV resistance genes are not widely utilized in spinach breeding programs as the genetic and molecular mechanisms underlying resistance are not yet fully understood. CMV infections were therefore studied in different lines of spinach plants, and their progeny, to develop a model of the genetic basis of CMV resistance. Results Visual observations and RT-PCR assays revealed that three monoecious lines (03-258, 03-263, and 03-336) were susceptible to CMV, while three traditional resistant cultivars and a near-isogenic line (NIL-M) exhibited resistance. A dioecious line (03–009) consisted of susceptible and resistant plants. Notably, resistant plants did not exhibit the lesions typical of the hypersensitive response. Genetic analysis of progeny from the cross NIL-M × 03-336 indicated that a single dominant allele (designated SRCm1, standing for Spinach Resistance to CMV 1) controlled CMV resistance; analysis of sib-cross progeny populations derived from line 03–009 supported this conclusion. These results offer a valuable model for CMV resistance in spinach and will enhance future breeding programs.

Published

2024

17. The P2 protein of wheat yellow mosaic virus acts as a viral suppressor of RNA silencing in Nicotiana benthamiana to facilitate virus infection.

Author

Chen, Dao, Zhang, Hui‐Ying, Hu, Shu‐Ming, He, Zheng, Wu, Yong Qi, Zhang, Zong‐Ying, Wang, Ying, and Han, Cheng‐Gui

Subjects

*VIRUS cloning, *NICOTIANA benthamiana, *MOSAIC viruses, *VIRAL proteins, *VIRUS diseases, *CUCUMBER mosaic virus

Abstract

Wheat yellow mosaic virus (WYMV) causes severe viral wheat disease in Asia. The WYMV P1 protein encoded by RNA2 has viral suppressor of RNA silencing (VSR) activity to facilitate virus infection, however, VSR activity has not been identified for P2 protein encoded by RNA2. In this study, P2 protein exhibited strong VSR activity in Nicotiana benthamiana at the four‐leaf stage, and point mutants P70A and G230A lost VSR activity. Protein P2 interacted with calmodulin (CaM) protein, a gene‐silencing associated protein, while point mutants P70A and G230A did not interact with it. Competitive bimolecular fluorescence complementation and competitive co‐immunoprecipitation experiments showed that P2 interfered with the interaction between CaM and calmodulin‐binding transcription activator 3 (CAMTA3), but the point mutants P70A and G230A could not. Mechanical inoculation of wheat with in vitro transcripts of WYMV infectious cDNA clone further confirmed that VSR‐deficient mutants P70A and G230A decreased WYMV infection in wheat plants compared with the wild type. In addition, RNA silencing, temperature, ubiquitination and autophagy had significant effects on accumulation of P2 protein in N. benthamiana leaves. In conclusion, WYMV P2 plays a VSR role in N. benthamiana and promotes virus infection by interfering with calmodulin‐related antiviral RNAi defense. Summary statement: Wheat yellow mosaic virus P2 protein exerts VSR activity in Nicotiana benthamiana by interfering with the CaM–CAMTA3 interaction to facilitate virus efficient systemic infection. [ABSTRACT FROM AUTHOR]

Published

2024

18. Acyl hydrazone derivatives with trifluoromethylpyridine as potential agrochemical for controlling plant diseases.

Author

Wang, Ya, Zhang, Renfeng, Guo, Xiaoqiu, Xu, Ying, Sun, Wei, Guo, Shengxin, and Wu, Jian

Subjects

VIRUS diseases of plants, TOBACCO mosaic virus, PLANT diseases, PATHOGENIC microorganisms, HYDRAZONE derivatives, CUCUMBER mosaic virus

Abstract

BACKGROUND: Crops are consistently under siege by a multitude of pathogens. These pathogenic microorganisms, including viruses and bacteria, result in substantial reductions in quality and yield globally by inducing detrimental crop diseases, thus posing a significant challenge to global food security. However, the biological activity sepectrum of commercially available pesticides is limited and the pesticide efficacy is poor, necessitating the urgent development of broad‐spectrum and efficient strategies for crop disease prevention and control. RESULTS: The bioassay results revealed that certain target compounds demonstrated outstanding in vivo antiviral efficacy against cucumber mosaic virus and tobacco mosaic virus. In particular, compound D6 showed remarkable antiviral activity against CMV, significantly higher than that of the control agent ningnanmycin. Mechanism of action studies have shown that compound D6 could enhance the activity of defense enzymes and upregulate the expression of genes related to disease resistance, thereby enhancing the antiviral effects in plants. In addition, these compounds displayed superior inhibitory activity against plant bacterial diseases. For Xoo, compound D10 showed an excellent inhibitory effect that was better than that of the control agent bismerthiazol. Scanning electron microscopy and fluorescence double‐staining experiments revealed that compound D10 effectively inhibited bacterial growth by disrupting the cell membrane. CONCLUSION: A series of trifluoromethyl hydrazone derivatives were designed and synthesized, and it was found that they have control effects on plant viruses and bacterial diseases. In addition, this study revealed the mechanism of action of the active compounds and demonstrated their potential as multifunctional crop protectants. © 2024 Society of Chemical Industry. [ABSTRACT FROM AUTHOR]

Published

2024

19. Reduction in vertical transmission rate of bean common mosaic virus in bee-pollinated common bean plants

Author

Netsai M. Mhlanga, Adrienne E. Pate, Warren Arinaitwe, John P. Carr, and Alex M. Murphy

Subjects

Phaseolus vulgaris, Vertical transmission, Bean common mosaic virus, Bean common mosaic necrosis virus, Cucumber mosaic virus, Pollen, Infectious and parasitic diseases, RC109-216

Abstract

Abstract Vertical transmission, the transfer of pathogens across generations, is a critical mechanism for the persistence of plant viruses. The transmission mechanisms are diverse, involving direct invasion through the suspensor and virus entry into developing gametes before achieving symplastic isolation. Despite the progress in understanding vertical virus transmission, the environmental factors influencing this process remain largely unexplored. We investigated the complex interplay between vertical transmission of plant viruses and pollination dynamics, focusing on common bean (Phaseolus vulgaris). The intricate relationship between plants and pollinators, especially bees, is essential for global ecosystems and crop productivity. We explored the impact of virus infection on seed transmission rates, with a particular emphasis on bean common mosaic virus (BCMV), bean common mosaic necrosis virus (BCMNV), and cucumber mosaic virus (CMV). Under controlled growth conditions, BCMNV exhibited the highest seed transmission rate, followed by BCMV and CMV. Notably, in the field, bee-pollinated BCMV-infected plants showed a reduced transmission rate compared to self-pollinated plants. This highlights the influence of pollinators on virus transmission dynamics. The findings demonstrate the virus-specific nature of seed transmission and underscore the importance of considering environmental factors, such as pollination, in understanding and managing plant virus spread.

Published

2024

20. Diverse RNA viruses discovered in multiple seagrass species.

Author

Rede, Jordan E., Breitbart, Mya, Lundquist, Carolyn, Nagasaki, Keizo, and Hewson, Ian

Subjects

*RNA replicase, *VIRAL ecology, *ZOSTERA, *PLANT ecology, *NUTRIENT uptake, *ZOSTERA marina, *CUCUMBER mosaic virus

Abstract

Seagrasses are marine angiosperms that form highly productive and diverse ecosystems. These ecosystems, however, are declining worldwide. Plant-associated microbes affect critical functions like nutrient uptake and pathogen resistance, which has led to an interest in the seagrass microbiome. However, despite their significant role in plant ecology, viruses have only recently garnered attention in seagrass species. In this study, we produced original data and mined publicly available transcriptomes to advance our understanding of RNA viral diversity in Zostera marina, Zostera muelleri, Zostera japonica, and Cymodocea nodosa. In Z. marina, we present evidence for additional Zostera marina amalgavirus 1 and 2 genotypes, and a complete genome for an alphaendornavirus previously evidenced by an RNA-dependent RNA polymerase gene fragment. In Z. muelleri, we present evidence for a second complete alphaendornavirus and near complete furovirus. Both are novel, and, to the best of our knowledge, this marks the first report of a furovirus infection naturally occurring outside of cereal grasses. In Z. japonica, we discovered genome fragments that belong to a novel strain of cucumber mosaic virus, a prolific pathogen that depends largely on aphid vectoring for host-to-host transmission. Lastly, in C. nodosa, we discovered two contigs that belong to a novel virus in the family Betaflexiviridae. These findings expand our knowledge of viral diversity in seagrasses and provide insight into seagrass viral ecology. [ABSTRACT FROM AUTHOR]

Published

2024

21. Mutations in the WG and GW motifs of the three RNA silencing suppressors of grapevine fanleaf virus alter their systemic suppression ability and affect virus infectivity.

Author

Jiyeong Choi, Browning, Scottie, Schmitt-Keichinger, Corinne, and Fuchs, Marc

Subjects

PROTEIN structure prediction, GENE expression, PROTEIN structure, NICOTIANA benthamiana, SMALL interfering RNA, CUCUMBER mosaic virus

Abstract

Viral suppressors of RNA silencing (VSRs) encoded by grapevine fanleaf virus (GFLV), one of the most economically consequential viruses of grapevine (Vitis spp.), were recently identified. GFLV VSRs include the RNA1-encoded protein 1A and the putative helicase protein 1BHel, as well as their fused form (1ABHel). Key characteristics underlying the suppression function of the GFLV VSRs are unknown. In this study, we explored the role of the conserved tryptophanglycine (WG) motif in protein 1A and glycine-tryptophan (GW) motif in protein 1BHel in their systemic RNA silencing suppression ability by co-infiltrating Nicotiana benthamiana 16c line plants with a GFP silencing construct and a wildtype or a mutant GFLV VSR. We analyzed and compared wildtype and mutant GFLV VSRs for their (i) efficiency at suppressing RNA silencing, (ii) ability to limit siRNA accumulation, (iii) modulation of the expression of six host genes involved in RNA silencing, (iv) impact on virus infectivity in planta, and (v) variations in predicted protein structures using molecular and biochemical assays, as well as bioinformatics tools such as AlphaFold2. Mutating W to alanine (A) in WG of proteins 1A and 1ABHel abolished their ability to induce systemic RNA silencing suppression, limit siRNA accumulation, and downregulate NbAGO2 expression by 1ABHel. This mutation in the GFLV genome resulted in a non-infectious virus. Mutating W to A in GW of proteins 1BHel and 1ABHel reduced their ability to suppress systemic RNA silencing and abolished the downregulation of NbDCL2, NbDCL4,, and NbRDR6 expression by 1BHel. This mutation in the GFLV genome delayed infection at the local level and inhibited systemic infection in planta. Double mutations of W to A in WG and GW of protein 1ABHel abolished its ability to induce RNA silencing suppression, limit siRNA accumulation, and downregulate NbDCL2 and NbRDR6 expression. Finally, in silico protein structure prediction indicated that a W to A substitution potentially modifies the structure and physicochemical properties of the three GFLV VSRs. Together, this study provided insights into the specific roles of WG/GW not only in GFLV VSR functions but also in GFLV biology. [ABSTRACT FROM AUTHOR]

Published

2024

22. DEAD‐box RNA helicase RH20 positively regulates RNAi‐based antiviral immunity in plants by associating with SGS3/RDR6 bodies.

Author

Wen, Zhiyan, Hu, Rujian, Pi, Qinglin, Zhang, Dingliang, Duan, Jiangning, Li, Zhen, Li, Qian, Zhao, Xiaoyun, Yang, Meng, Zhao, Xiaofei, Liu, Deshui, Su, Zhen, Li, Dawei, and Zhang, Yongliang

Subjects

*SMALL interfering RNA, *RNA interference, *RNA helicase, *PLANT proteins, *MOSAIC viruses, *CUCUMBER mosaic virus

Abstract

Summary RNA silencing plays a crucial role in defending against viral infections in diverse eukaryotic hosts. Despite extensive studies on core components of the antiviral RNAi pathway such as DCLs, AGOs and RDRs proteins, host factors involved in antiviral RNAi remain incompletely understood. In this study, we employed the proximity labelling approach to identify the host factors required for antiviral RNAi in Nicotiana benthamiana. Using the barley stripe mosaic virus (BSMV)‐encoded γb, a viral suppressor of RNA silencing (VSR), as the bait protein, we identified the DEAD‐box RNA helicase RH20, a broadly conserved protein in plants and animals with a homologous human protein known as DDX5. We demonstrated the interaction between RH20 and BSMV γb. Knockdown or knockout of RH20 attenuates the accumulation of viral small interfering RNAs, leading to increased susceptibility to BSMV, while overexpression of RH20 enhances resistance to BSMV, a process requiring the cytoplasmic localization and RNA‐binding activity of RH20. In addition to BSMV, RH20 also negatively regulates the infection of several other positive‐sense RNA viruses, suggesting the broad‐spectrum antiviral activity of RH20. Mechanistic analysis revealed the colocalization and interaction of RH20 with SGS3/RDR6, and disruption of either SGS3 or RDR6 undermines the antiviral function of RH20, suggesting RH20 as a new component of the SGS3/RDR6 bodies. As a counter‐defence, BSMV γb VSR subverts the RH20‐mediated antiviral defence by interfering with the RH20–SGS3 interaction. Our results uncover RH20 as a new positive regulator of antiviral RNAi and provide new potential targets for controlling plant viral diseases. [ABSTRACT FROM AUTHOR]

Published

2024

23. Cucumis sativus glycine rich protein interacts with cucumber mosaic virus 2b protein.

Author

Kapoor, Kamini, Kumar, Surender, Kumari, Reenu, Singh, Lakhmir, and Hallan, Vipin

Subjects

*CYTOMEGALOVIRUS diseases, *VIRAL proteins, *PROTEIN-protein interactions, *CUCUMBERS, *HOST plants, *CUCUMBER mosaic virus

Abstract

• CMV 2b protein interacts with Cs GRP. • Cs GRP belongs to class II of GRPs. • Cs GRP is localized in cell wall while CMV 2b in the cytoplasm and nucleus. • CsGRP gene is regulated during CMV infection. • Cs GRP play an important role against CMV infection. The development of plant stress tolerance is critical in agriculture and horticulture. During viral infection (biotic stress), various plant host factors engage in interactions with viral proteins leading to gene expression dynamics, differential complex formation, signaling, and metabolite production and subsequent tolerance/resistance or susceptibility. In this study, we found that during cucumber mosaic virus (CMV) infection in Cucumis sativus , glycine-rich protein (Cs GRP) is associated with the CMV 2b protein. Initially, interaction was identified by screening the cucumber cDNA library using yeast two-hybrid assay in which the 2b protein of the virus was used as bait protein. Subsequently, the interaction was further validated using in planta bimolecular fluorescence complementation (BiFC) and in vivo far western blotting (FWB) assays. In BiFC, the bimolecular complex of Cs GRP and 2b was observed as punctate spots in Nicotiana benthamiana epidermal cells. In the localization and colocalization studies, Cs GRP and the bimolecular complex of the Cs GRP-2b protein were found to be localized in the cell wall region. Phylogenetic analysis and domain architecture studies revealed that the interacting Cs GRP belongs to the class II of GRPs, and are characterized by signal peptide, glycine-rich, and cysteine-rich regions. After CMV infection, the expression of the CsGRP transcript was significantly upregulated at 7 and 14 days post virus inoculation (dpi). These findings shed light on the molecular connections that establish plant-virus interactions and highlight the potential role of Cs GRP in CMV-induced disease development. [ABSTRACT FROM AUTHOR]

Published

2024

24. Biological and Molecular Characterization of the Cucumber Mosaic Virus Infecting Purple Coneflowers in China.

Author

Zhang, Bin, Chen, Liping, Sun, Pingping, Li, Zhengnan, and Zhang, Lei

Subjects

*CUCUMBER mosaic virus, *PLANT viruses, *HERBACEOUS plants, *CYTOMEGALOVIRUS diseases, *TOBACCO, *NICOTIANA benthamiana

Abstract

Purple coneflower (Echinacea purpurea L.), which is a perennial herbaceous plant belonging to the Asteraceae family, is extensively cultivated because of its medicinal applications. However, in Hohhot, Inner Mongolia, China, purple coneflowers in the field exhibited symptoms such as mottle, mosaic, and crinkle. This study aimed to explore the biological and molecular characteristics of the cucumber mosaic virus (CMV) infecting the purple coneflowers in China. We observed isometric particles approximately 30 nm in diameter in the symptomatic leaf specimens. Infection with the CMV was confirmed via high-throughput sequencing and RT-PCR validation. Mechanical inoculation assays demonstrated that the CMV-SGJ isolate could infect both Nicotiana benthamiana and Nicotiana tabacum. Three viral genomic components were identified: RNA1 with 3321 nucleotides, RNA2 with 3048 nucleotides, and RNA3 with 2209 nucleotides. Phylogenetic analysis revealed that the CMV-SGJ isolate clustered into phylogenetic subgroup IA, exhibiting a nucleotide identity of 92.2–95% with subgroup IA CMV isolates in GenBank. This report is the first documentation of the complete genome of the CMV infecting purple flowers in China. [ABSTRACT FROM AUTHOR]

Published

2024

25. Clavibacter tessellarius causing bacterial mosaic of wheat establishes in the Old World.

Author

Nasiri, Mostafa, Faghihi, Mohammad Mehdi, Rahimian, Heshmat, and Osdaghi, Ebrahim

Subjects

*WHEAT, *CROPS, *ACTINOBACTERIA, *FOLIAGE plants, *PLANT protection, *MOSAIC viruses, *POTATOES, *CUCUMBER mosaic virus, *WINTER wheat

Abstract

The genus Clavibacter (family Microbacteriaceae) includes gram‐positive actinobacterial species infecting diverse agricultural crops such as alfalfa, maize, pepper, potato, tomato and wheat. Clavibacter tessellarius, causing bacterial mosaic of wheat, was reported for the first time in 1976 in Nebraska (United States). Since then, the pathogen was thought to be restricted to North America (Canada and the United States). While bacterial strains suspected to be C. tessellarius have occasionally been isolated from wheat samples outside North America, occurrence of the pathogen in the Old World has not yet been confirmed by the plant protection authorities. In spring 2020 (January to May) dozens of wheat fields with young plants showing leaf chlorosis and mild mosaic symptoms were surveyed and sampled in southern Iran. Among 192 surveyed wheat fields, gram‐positive, orange‐pigmented actinobacterial strains were isolated from samples of 53 fields. Altogether, 61 bacterial strains were identified as C. tessellarius based on the phenotypic features, PCR‐based molecular tests and pathogenicity assays. Multilocus sequence analysis of five housekeeping genes (atpD, dnaK, gyrB, ppk and rpoB) using 10 representative strains from diverse geographic areas in southern Iran confirmed the phylogenetic status of the strains within C. tessellarius. Our data indicate that the bacterial mosaic pathogen occurs in four southern Iranian provinces including Bushehr, Fars, Kerman and Khuzestan. Thus, occurrence of C. tessellarius outside North America is confirmed. Potential risks associated with the emergence of the pathogen in the Old World, and the need for strict quarantine measures in the area, is further discussed. [ABSTRACT FROM AUTHOR]

Published

2024

26. Biology, phylogenetic and evolutionary relations of Tradescantia mild mosaic virus isolates from Hungary.

Author

Ágoston, János, Almási, Asztéria, Pinczés, Dóra, Sáray, Réka, Salánki, Katalin, and Palkovics, László

Subjects

GROUP identity, FLOWERING of plants, AMINO acid sequence, VIRUS diseases, FLOWER shows, CUCUMBER mosaic virus

Abstract

In Western Transdanubia in 2018 and in Central-Hungary in 2022 spiderwort plants showed flower breaking symptoms and mild mosaic on the foliage, which indicated a potential virus infection. One gram of symptomatic leaf sample was collected at both locations. Potyvirus-specific ELISA tests demonstrated potyvirus infection. To identify the virus species, potyvirus-specific RT-PCR was carried out on the samples. In both samples specific PCR products were detected and cloned into pGEM®-T Easy vector. The nucleotide sequences of the inserts were determined by Sanger sequencing. BLASTn searches on the complete coat protein region of both isolates demonstrated more than 99.87% identity with Tradescantia mild mosaic virus (TraMMV; accession number OL584375). Koch postulates were fulfilled by sap inoculating seed grown spiderwort plants. Phylogenetic analyses of the TraMMV coat protein sequences revealed two distinct evolutionary lineages: a tropical subgroup with at least 97.84% identity within the group and temperate subgroup with at least 98.97% identity within the group. One major difference between the subgroups was in the triplet responsible for vector transmission. The isolates belonging to the tropical subgroup had DAG triplets, while the temperate subgroup had NAG triplets. The difference in the triplets could be caused by natural diversification, directional selection or disruptive selection. License: CC BY-NC-ND [ABSTRACT FROM AUTHOR]

Published

2024

27. Extinction of some strains and asymptotic profiles of coexistence endemic equilibria in a multi-strain epidemic model.

Author

Song, Pengfei and Salako, Rachidi B.

Subjects

*EPIDEMICS, *EQUILIBRIUM, *COMORBIDITY, *GLOBAL analysis (Mathematics), *CUCUMBER mosaic virus

Abstract

This work studies the asymptotic dynamics of classical solutions of a multi-strain diffusive epidemic model in spatially heterogeneous environments. Results on the nonexistence of coexistence endemic equilibria are established. Moreover, explicit conditions on the parameters range which guarantee the extinctions of some strains of the disease are examined. In particular, we establish that the competition-exclusion principle occurs when the population diffuses very fast and one strain uniquely maximizes the ratio of the spatial average of transmission rate over that of the recovery rate. However, several strains of the disease may coexist when either: (i) the population diffuses very slowly, (ii) or a subgroup diffuses very slowly and the other subgroup diffuses very fast. In these two scenarios, the asymptotic profiles of the coexistence endemic equilibria with respect to the diffusion rates of the population are presented. In particular, we observe a spatial segregation of the infected populations when they diffuse very slowly. [ABSTRACT FROM AUTHOR]

Published

2024

28. A single viral amino acid shapes the root system architecture of a plant host upon virus infection.

Author

Roy, Brandon G. and Fuchs, Marc

Subjects

*HOST plants, *RNA replicase, *AMINO acids, *VIRUS diseases, *PATTERN perception receptors, *CUCUMBER mosaic virus

Abstract

Background: Grapevine fanleaf virus (GFLV) is one of the most detrimental viral pathogens of grapevines worldwide but no information is available on its effect on the root system architecture (RSA) of plant hosts. We used two wildtype GFLV strains and their single amino acid mutants to assess RSA traits in infected Nicotiana benthamiana and evaluate transcriptomic changes in host root gene expression in replicated time course 3'RNA-Seq experiments. Mutations targeted the multi-functional GFLV-encoded protein 1EPol*/Sd, a putative RNA-dependent RNA polymerase and determinant of foliar symptoms in N. benthamiana plants. Results: Plant infection with wildtype GFLV strain GHu and mutant GFLV strain F13 1EPolG802K, both carrying a lysine in position 802 of protein 1EPol*/Sd, resulted in a significantly lower number of root tips (-30%), and a significantly increased average root diameter (+ 20%) at 17 days post inoculation (dpi) in comparison with roots of mock inoculated plants. In contrast, the RSA of plants infected with wildtype GFLV strain F13 and mutant GFLV strain GHu 1EPolK802G, both carrying a glycine in position 802 of protein 1EPol*/Sd, resembled that of mock inoculated plants. Modifications of RSA traits were not associated with GFLV titer. Root tissue transcriptome analysis at 17 dpi indicated dysregulation of pattern recognition receptors, plant hormones, RNA silencing, and genes related to the production of reactive oxygen species (ROS). For wildtype GFLV strain GHu, RSA modifications were correlated with an abundant accumulation of ROS in the pericycle of primary roots at 7 dpi and the duration of vein clearing symptom expression in apical leaves. Dysegulation of a hypersensitive response was an overarching gene ontology found through enrichment analyses of 3'RNA-Seq data. Conclusions: Our findings revealed the causative role of lysine in position 802 of protein 1EPol*/Sd in a novel RSA phenotype during viral infection and documented GFLV-N. benthamiana interactions at the root level based on (i) antiviral response, (ii) receptor mediated production of ROS, and (iii) hormone regulation. A correlation between above and below ground symptoms was reported for the first time in plants infected with wildtype GFLV strain GHu. Further work is warranted to test whether the modified RSA of a plant host might impact GFLV acquisition and transmission by the ectoparasitic dagger nematode Xiphinema index. [ABSTRACT FROM AUTHOR]

Published

2024

29. Co-infection of Four Novel Mycoviruses from Three Lineages Confers Hypovirulence on Phytopathogenic Fungus Ustilaginoidea virens.

Author

Fan, Yu, Zhao, Wenhua, Tang, Xiaolin, Yang, Mei, Yang, Yingqing, Zhang, Zixuan, Cheng, Baoping, Zhou, Erxun, and He, Zhenrui

Subjects

*FUNGAL viruses, *PHYTOPATHOGENIC fungi, *MIXED infections, *RICE diseases & pests, *MYCOSES, *CUCUMBER mosaic virus

Abstract

Rice false smut caused by Ustilaginoidea virens has become one of the most important diseases of rice. Mycoviruses are viruses that can infect fungi with the potential to control fungal diseases. However, little is known about the biocontrol role of hypoviruses in U. virens. In this study, we revealed that the hypovirulence-associated U. virens strain Uv325 was co-infected by four novel mycoviruses from three lineages, designated Ustilaginoidea virens RNA virus 16 (UvRV16), Ustilaginoidea virens botourmiavirus virus 8 (UvBV8), Ustilaginoidea virens botourmiavirus virus 9 (UvBV9), and Ustilaginoidea virens narnavirus virus 13 (UvNV13), respectively. The U. virens strain co-infected by four mycoviruses showed slower growth rates, reduced conidial yield, and attenuated pigmentation. We demonstrated that UvRV16 was not only the major factor responsible for the hypovirulent phenotype in U. vriens, but also able to prevent U. virens to accumulate more mycotoxin, thereby weakening the inhibitory effects on rice seed germination and seedling growth. Additionally, we indicated that UvRV16 can disrupt the antiviral response of U. virens by suppressing the transcriptional expression of multiple genes involved in autophagy and RNA silencing. In conclusion, our study provided new insights into the biological control of rice false smut. [ABSTRACT FROM AUTHOR]

Published

2024

30. Screening of pepper (Capsicum annuum L.) genotypes for response to pathogens and pests under conditions of conventional and organic field production.

Author

Vasileva, K., Yankova, V., Todorova, V., and Masheva, S.

Subjects

*TOMATO spotted wilt virus disease, *CUCUMBER mosaic virus, *VERTICILLIUM wilt diseases, *HELIOTHIS zea, *CAPSICUM annuum, *PEPPERS

Abstract

Monitoring of eight pepper genotypes is conducted at Maritsa Vegetable Crop Research Institute, Plovdiv, Bulgaria, during two successive years, under different diseases and pests'management systems. The surveys is carried out, using the standard field inspection methods to detect virus diseases (Tobacco mosaic virus -- TMV, Cucumber mosaic virus -- CMV and Tomato spotted wilt virus -- TSWV, stolbur (Phytoplasma solani), verticillium wilt (Verticillium dahlia Kleb.), brown leaf spots (Alternaria solani Ellis & Martin) the pests: cotton bollworm (Helicoverpa armigera Hubn.), aphids (Homoptera:Aphididae) and thrips (Thysanoptera:Thripidae). Among observed pathogens Alternaria solani Ellis & Martin and Phytoplasma solani were most important for all varieties and breeding lines in all studied production systems as their infestation were on average 27.37% and 31.79%, respectively. During the survey, no plants with symptoms of verticillium wilting were reported in all studied genotypesunder all growing systems. The mean score of virus attack was below 12%. The average rate of brown leaf spots ranged between 29.05% for breeding line K992 to 36.26% for line K995. The established highest Phytoplasma solani attack averaged from 24.10% for Stryama to 32.15% for Kapia UV. Single plants with thrips damage were observed during seedling production and immediately after transplanting in the field. At maturity stage, an infestation of cotton bollworm (Helicoverpa armigera Hubn.) was observed, while aphids' population was low with no colonies established. The lowest infestation rates by H. armigera were reported in pepper genotypes K992 (0.92%) and K995 (0.49%) grown under organic production conditions. [ABSTRACT FROM AUTHOR]

Published

2024

31. The impact of COVID‐19 on medication reviews in English primary care. An OpenSAFELY‐TPP analysis of 20 million adult electronic health records.

Author

Wood, Christopher, Speed, Victoria, Fisher, Louis, Curtis, Helen J., Schaffer, Andrea L., Walker, Alex J., Croker, Richard, Brown, Andrew D., Cunningham, Christine, Hulme, William J., Andrews, Colm D., Butler‐Cole, Ben F. C., Evans, David, Inglesby, Peter, Dillingham, Iain, Bacon, Sebastian C. J., Davy, Simon, Ward, Tom, Hickman, George, and Bridges, Lucy

Subjects

*MEDICATION reconciliation, *ELECTRONIC health records, *PRIMARY care, *COVID-19 pandemic, *COVID-19, *CUCUMBER mosaic virus

Abstract

Aims: The COVID‐19 pandemic caused significant disruption to routine activity in primary care. Medication reviews are an important primary care activity ensuring safety and appropriateness of prescribing. A disruption could have significant negative implications for patient care. Using routinely collected data, our aim was first to describe codes used to record medication review activity and then to report the impact of COVID‐19 on the rates of medication reviews. Methods: With the approval of NHS England, we conducted a cohort study of 20 million adult patient records in general practice, in‐situ using the OpenSAFELY platform. For each month, between April 2019 and March 2022, we report the percentage of patients with a medication review coded monthly and in the previous 12 months with breakdowns by regional, clinical and demographic subgroups and those prescribed high‐risk medications. Results: In April 2019, 32.3% of patients had a medication review coded in the previous 12 months. During the first COVID‐19 lockdown, monthly activity decreased (−21.1% April 2020), but the 12‐month rate was not substantially impacted (−10.5% March 2021). The rate of structured medication review in the last 12 months reached 2.9% by March 2022, with higher percentages in high‐risk groups (care home residents 34.1%, age 90+ years 13.1%, high‐risk medications 10.2%). The most used medication review code was Medication review done 314530002 (59.5%). Conclusions: There was a substantial reduction in the monthly rate of medication reviews during the pandemic but rates recovered by the end of the study period. Structured medication reviews were prioritized for high‐risk patients. [ABSTRACT FROM AUTHOR]

Published

2024

32. Antiviral activity and tobacco-induced resistance, mediated by essential oil nano-emulsions from Zataria multiflora and Satureja bakhtiarica.

Author

Biniaz, Yaser, Kavoosi, Gholamreza, and Afsharifar, Alireza

Subjects

*BIOPESTICIDES, *CUCUMBER mosaic virus, *ESSENTIAL oils, *TOBACCO mosaic virus, *SAVORY (Herb), *PLANT viruses, *TERPENES

Abstract

There has been a growing interest in extracting essential oils from aromatic plants as potential sources of biorational pesticides. In the present study, essential oil emulsions of Satureja bakhtiarica (SEO), Oliveria decumbens (OEO), Trachyspermum ammi (TEO) and Zataria multiflora (ZEO) were prepared. Their major chemical compositions were characterized and their antiviral effects were evaluated against two important plant viruses: Cucumber mosaic virus (CMV) and Tobacco mosaic virus (TMV). SEO and ZEO indicated higher antiviral activity in comparison with OEO and TEO (p < 0.05). In systemic bioassay, the pre-treatment test of ZEO and SEO showed a reduced level of TMV accumulation in TMV-infected tobacco, with rates of 26.75% and 23.97%, respectively. Also, the two essential oils had mechanisms by which plant resistance acted against plant viruses. These mechanisms involved the activities of several defense-related enzymes (PAL and POD) and genes (ICS1, NPR1, and PR-1a). These results indicate that the essential oils of Zataria multiflora and Satureja bakhtiarica have the potential to be used as sources of effective antiviral agents and eco-friendly pesticide. [ABSTRACT FROM AUTHOR]

Published

2024

33. Engineered Resistance to Tobamoviruses.

Author

Carr, John Peter

Subjects

*TOBACCO mosaic virus, *MOLECULAR biology, *DISEASE resistance of plants, *PLANT resistance to viruses, *DOUBLE-stranded RNA, *NICOTIANA benthamiana, *CUCUMBERS, *CUCUMBER mosaic virus

Abstract

Tobacco mosaic virus (TMV) was the first virus to be studied in detail and, for many years, TMV and other tobamoviruses, particularly tomato mosaic virus (ToMV) and tobamoviruses infecting pepper (Capsicum spp.), were serious crop pathogens. By the end of the twentieth and for the first decade of the twenty-first century, tobamoviruses were under some degree of control due to introgression of resistance genes into commercial tomato and pepper lines. However, tobamoviruses remained important models for molecular biology, biotechnology and bio-nanotechnology. Recently, tobamoviruses have again become serious crop pathogens due to the advent of tomato brown rugose fruit virus, which overcomes tomato resistance against TMV and ToMV, and the slow but apparently inexorable worldwide spread of cucumber green mottle mosaic virus, which threatens all cucurbit crops. This review discusses a range of mainly molecular biology-based approaches for protecting crops against tobamoviruses. These include cross-protection (using mild tobamovirus strains to 'immunize' plants against severe strains), expressing viral gene products in transgenic plants to inhibit the viral infection cycle, inducing RNA silencing against tobamoviruses by expressing virus-derived RNA sequences in planta or by direct application of double-stranded RNA molecules to non-engineered plants, gene editing of host susceptibility factors, and the transfer and optimization of natural resistance genes. [ABSTRACT FROM AUTHOR]

Published

2024

34. Genome-Wide Analysis of Soybean Mosaic Virus Reveals Diverse Mechanisms in Parasite-Derived Resistance.

Author

Yang, Na, Qiu, Yanglin, Shen, Yixin, Xu, Kai, and Yin, Jinlong

Subjects

*SOYBEAN mosaic virus, *GENE expression, *PLANT viruses, *AGRICULTURE, *VIRAL genes, *CUCUMBER mosaic virus

Abstract

Plant viruses cause severe losses in agricultural production. Parasite-derived resistance (PDR) offers a promising avenue for developing disease-resistant varieties independent of resistance genes. However, for potyviruses with great agricultural importance, such as soybean mosaic virus (SMV), systematic research on viral genes that can be used for PDR has not been conducted. In this study, we transiently expressed the untranslated region (UTR) or each protein-coding cistron of SMV in Nicotiana benthamiana to evaluate their potential role in conferring PDR. A viral suppressor of RNA silencing (VSR) was also applied to investigate the possible mechanisms of the PDR. The results showed that the transient overexpression of UTR and each cistron of SMV could inhibit SMV infection. The expression of VSR in N. benthamiana leaves could compromise UTR and most of the SMV cistron-mediated inhibition of SMV infection, indicating the involvement of RNA silencing in PDR. In comparison, the expression of VSR could not compromise the PDR conferred by coat protein (CP), P3N-PIPO, cylindrical inclusion (CI), and NIa-Pro, suggesting that these viral cistrons may play roles in PDR at the protein level. These results reveal diverse mechanisms in PDR conferred by different viral cistrons and provide potential gene candidates that can be used for transgenic approaches against SMV. [ABSTRACT FROM AUTHOR]

Published

2024

35. The Internal Extra Sequence Regions in Satellite RNA TA-Tb Are Important for Suppressing RNA Accumulations of Cucumber Mosaic Virus to Attenuate the Virulence of the Helper Virus.

Author

Cao, Xinran, Liu, Zhifei, Yu, Chengming, Andika, Ida Bagus, and Yuan, Xuefeng

Subjects

*VIRUS virulence, *GENE expression, *RNA viruses, *RNA, *NUCLEOTIDES

Abstract

Cucumber mosaic virus (CMV) infection is often associated with satellite RNA (satRNA), which can sometimes interfere with the replication and symptom expression of CMV. However, the mechanism underlying symptom attenuation has remained unclear. We previously discovered a larger type (than the usual type) of satellite RNA (satRNA TA-Tb) of CMV that reduced the symptom severity of CMV. Herein, we show that satRNA TA-Tb is associated with a reduction in CMV RNA accumulation, and particularly, a strong reduction of RNA4 accumulation at later stages of infection. Deletion analysis showed that the deletion of ten nucleotides of 5′ and 3′ termini, but not the internal sequence regions proximal to the 5′- and 3′-terminal regions, abolished satRNA TA-Tb replication. The alignment of satRNA TA-Tb with usual satRNA isolates showed four internal extra sequence regions (exR1–4) in satRNA TA-Tb. A satRNA TA-Tb mutant with deletion in the exR1 region retained the ability to attenuate CMV symptoms, whereas deletion of the exR2–4 regions abolished the attenuating effect of satRNA TA-Tb, but did not affect its replication. Overall, these results suggest that some short, internal extra sequence regions are dispensable for satRNA TA-Tb replication, but important for symptom attenuation function, supporting the possibility that the RNA structure of satRNA TA-Tb is important for its function in symptom attenuation. [ABSTRACT FROM AUTHOR]

Published

2024

36. Risk of Malignant Neoplasm in Patients with Primary Hyperparathyroidism: A Systematic Review and Meta-analysis.

Author

Charoenngam, Nipith, Rittiphairoj, Thanitsara, Wannaphut, Chalothorn, Pangkanon, Watsachon, and Saowapa, Sakditat

Subjects

*HYPERPARATHYROIDISM, *TUMORS, *THYROID cancer, *BREAST cancer, *DISEASE risk factors, *ODDS ratio, *CUCUMBER mosaic virus

Abstract

This study aimed to evaluate the prevalence and risk of malignant neoplasm in primary hyperparathyroidism (PHPT) patients. Potentially eligible studies were retrieved from PubMed and Embase databases from inception to November 2023 using search strategy consisting of terms for "Primary hyperparathyroidism" and "Malignant neoplasm". Eligible study must report prevalence of malignant neoplasm among patients with PHPT or compare the risk of malignant neoplasm between patients with PHPT and comparators. Point estimates with standard errors were extracted from each study and combined using the generic inverse variance method.A total of 11,926 articles were identified. After two rounds of systematic review, 50 studies were included. The meta-analysis revealed that pooled prevalence rates of overall cancer was 0.19 (95%CI: 0.13–0.25; I2 94%). The two most prevalent types of malignancy among patients with PHPT ware papillary thyroid cancer (pooled prevalence: 0.07; 95%CI: 0.06–0.08; I2 85%) and breast cancer (pooled prevalence: 0.05; 95%CI: 0.03–0.07; I2 87%). Subgroup analysis of studies focusing on patients undergoing parathyroidectomy reported a fourfold higher prevalence of papillary thyroid cancer than the remaining studies (0.08 versus 0.02). The meta-analysis of cohort studies found a significant association between PHPT and overall cancer with the pooled risk ratio of 1.28 (95%CI: 1.23–1.33; I2 66.9%).We found that the pooled prevalence of malignant neoplasm in PHPT was 19%, with papillary thyroid cancer and breast cancer being the most prevalent types. The meta-analysis of cohort studies showed that patient with PHPT carried an approximately 28% increased risk of malignancy. [ABSTRACT FROM AUTHOR]

Published

2024

37. A vicinal oxygen chelate protein facilitates viral infection by triggering the unfolded protein response in Nicotiana benthamiana.

Author

Guo, Zhihong, Jiang, Ning, Li, Menglin, Guo, Hongfang, Liu, Qi, Qin, Xinyu, Zhang, Zongying, Han, Chenggui, and Wang, Ying

Subjects

*NICOTIANA benthamiana, *UNFOLDED protein response, *VIRUS diseases, *VIRAL proteins, *CHELATES, *LEUCINE zippers, *CUCUMBER mosaic virus, *MOSAIC viruses

Abstract

Vicinal oxygen chelate (VOC) proteins are members of an enzyme superfamily with dioxygenase or non‐dioxygenase activities. However, the biological functions of VOC proteins in plants are poorly understood. Here, we show that a VOC in Nicotiana benthamiana (NbVOC1) facilitates viral infection. NbVOC1 was significantly induced by infection by beet necrotic yellow vein virus (BNYVV). Transient overexpression of NbVOC1 or its homolog from Beta vulgaris (BvVOC1) enhanced BNYVV infection in N. benthamiana, which required the nuclear localization of VOC1. Consistent with this result, overexpressing NbVOC1 facilitated BNYVV infection, whereas, knockdown and knockout of NbVOC1 inhibited BNYVV infection in transgenic N. benthamiana plants. NbVOC1 interacts with the basic leucine zipper transcription factors bZIP17/28, which enhances their self‐interaction and DNA binding to the promoters of unfolded protein response (UPR)‐related genes. We propose that bZIP17/28 directly binds to the NbVOC1 promoter and induces its transcription, forming a positive feedback loop to induce the UPR and facilitating BNYVV infection. Collectively, our results demonstrate that NbVOC1 positively regulates the UPR that enhances viral infection in plants. [ABSTRACT FROM AUTHOR]

Published

2024

38. Neuronal expression of herpes simplex virus-1 VP16 protein induces pseudorabies virus escape from silencing and reactivation.

Author

Hsu, Zhi-Shan, Engel, Esteban A., Enquist, Lynn W., and Koyuncu, Orkide O.

Subjects

*HUMAN herpesvirus 1, *GENE expression, *AUJESZKY'S disease virus, *CUCUMBER mosaic virus, *PERIPHERAL nervous system, *LATENT infection

Abstract

Alpha herpesvirus (α-HV) particles enter their hosts from mucosal surfaces and efficiently maintain fast transport in peripheral nervous system (PNS) axons to establish infections in the peripheral ganglia. The path from axons to distant neuronal nuclei is challenging to dissect due to the difficulty of monitoring early events in a dispersed neuron culture model. We have established well-controlled, reproducible, and reactivateable latent infections in compartmented rodent neurons by infecting physically isolated axons with a small number of viral particles. This system not only recapitulates the physiological infection route but also facilitates independent treatment of isolated cell bodies or axons. Consequently, this system enables study not only of the stimuli that promote reactivation but also the factors that regulate the initial switch from productive to latent infection. Adeno-associated virus (AAV)-mediated expression of herpes simplex-1 (HSV-1) VP16 alone in neuronal cell bodies enabled the escape from silencing of incoming pseudorabies virus (PRV) genomes. Furthermore, the expression of HSV VP16 alone reactivated a latent PRV infection in this system. Surprisingly, the expression of PRV VP16 protein supported neither PRV escape from silencing nor reactivation. We compared transcription transactivation activity of both VP16 proteins in primary neurons by RNA sequencing and found that these homolog viral proteins produce different gene expression profiles. AAV-transduced HSV VP16 specifically induced the expression of proto-oncogenes including c-Jun and Pim2. In addition, HSV VP16 induces phosphorylation of c-Jun in neurons, and when this activity is inhibited, escape of PRV silencing is dramatically reduced. IMPORTANCE During latency, alpha herpesvirus genomes are silenced yet retain the capacity to reactivate. Currently, host and viral protein interactions that determine the establishment of latency, induce escape from genome silencing or reactivation are not completely understood. By using a compartmented neuronal culture model of latency, we investigated the effect of the viral transcriptional activator, VP16 on pseudorabies virus (PRV) escape from genome silencing. This model recapitulates the physiological infection route and enables the study of the stimuli that regulate the initial switch from a latent to productive infection. We investigated the neuronal transcriptional activation profiles of two homolog VP16 proteins (encoded by HSV-1 or PRV) and found distinct gene activation signatures leading to diverse infection outcomes. This study contributes to understanding of how alpha herpesvirus proteins modulate neuronal gene expression leading to the initiation of a productive or a latent infection. [ABSTRACT FROM AUTHOR]

Published

2024

39. Occurrence, distribution, and genetic diversity of faba bean viruses in China.

Author

Zongdi Li, Jiachao Qin, Yuxiang Zhu, Mimi Zhou, Na Zhao, Enqiang Zhou, Xuejun Wang, Xin Chen, and Xiaoyan Cui

Subjects

FAVA bean, BARLEY yellow dwarf viruses, GENETIC variation, CUCUMBER mosaic virus, ASTRAGALUS (Plants), SOYBEAN mosaic virus

Abstract

With worldwide cultivation, the faba bean (Vicia faba L.) stands as one of the most vital cool-season legume crops, serving as a major component of food security. China leads global faba bean production in terms of both total planting area and yield, with major production hubs in Yunnan, Sichuan, Jiangsu, and Gansu provinces. The faba bean viruses have caused serious yield losses in these production areas, but previous researches have not comprehensively investigated this issue. In this study, we collected 287 faba bean samples over three consecutive years from eight provinces/municipalities of China. We employed small RNA sequencing, RT-PCR, DNA sequencing, and phylogenetic analysis to detect the presence of viruses and examine their incidence, distribution, and genetic diversity. We identified a total of nine distinct viruses: bean yellow mosaic virus (BYMV, Potyvirus), milk vetch dwarf virus (MDV, Nanovirus), vicia cryptic virus (VCV, Alphapartitivirus), bean common mosaic virus (BCMV, Potyvirus), beet western yellows virus (BWYV, Polerovirus), broad bean wilt virus (BBWV, Fabavirus), soybean mosaic virus (SMV, Potyvirus), pea seed-borne mosaic virus (PSbMV, Potyvirus), and cucumber mosaic virus (CMV, Cucumovirus). BYMV was the predominant virus found during our sampling, followed by MDV and VCV. This study marks the first reported detection of BCMV in Chinese faba bean fields. Except for several isolates from Gansu and Yunnan provinces, our sequence analysis revealed that the majority of BYMV isolates contain highly conserved nucleotide sequences of coat protein (CP). Amino acid sequence alignment indicates that there is a conserved NAG motif at the N-terminal region of BYMV CP, which is considered important for aphid transmission. Our findings not only highlight the presence and diversity of pathogenic viruses in Chinese faba bean production, but also provide target pathogens for future antiviral resource screening and a basis for antiviral breeding. [ABSTRACT FROM AUTHOR]

Published

2024

40. APHID TRANSMISSION IN SOYBEAN CROPS INFECTED BY TWO STRAINS OF MOSAIC VIRUSES IN GARHWAL REGIONS.

Author

Koranga, Nirmala, Jasrotia, Shivani, Bajpai, Atal Bihari, Rayal, Rajesh, Madan, Sanjay, and Bijlwan, Kamal

Subjects

APHIS glycines, SOYBEAN mosaic virus, CROPS, INSECT locomotion, VIRUS diseases, SOYBEAN, CUCUMBER mosaic virus, MOSAIC viruses

Abstract

Soybean, one of the vital crops has continuously been infected by several bacterial, fungal and viral diseases. Despite sundry mosaic viruses that infect soybeans found globally, only seventeen of them have been identified, some of which carry two or more strains. The hills and terai regions of Uttarakhand frequently have found Aphis craccivora Koch to be a common species found infesting leguminous crops. This aphid has been shown to be the most effective carrier of both moderate and severe strains of soybean mosaic virus (SMV) during early transmission. In the present study, we identified and observed how soybean seeds are infected by the transmission of Aphids. The relationship of A. craccivora with isolates was determined based on varying pre-acquisition fasting periods, acquisition feeding time, number of aphids, minimum infection feeding time required, post-acquisition fasting periods and persistence of viruses in the vector. Viruses infect even the most vulnerable plants only under conditions such as the availability of host at younger stages (seedlings), increased population of insect vectors, favourable environment for the movement of insect vectors and others. In order to determine the ideal sowing period and prevent the majority of the mosaic infection, the soybean crop was sown in this study on several dates before and after the customary sowing dates. [ABSTRACT FROM AUTHOR]

Published

2024

41. Molecular characterization of cucumber mosaic virus isolates infecting Sugar beet (Beta vulgaris) and other crops in three governorates of Egypt.

Author

Kamel, Esraa S., Abdel Aleem, Engy E., Fattouh, Faiza A., and Rabie, Mona

Subjects

CUCUMBER mosaic virus, BEETS, SOYBEAN, COMMON bean, AMINO acid sequence, SUGAR beets, SWEET potatoes, COWPEA

Abstract

SUGAR beet (Beta vulgaris) is one of the principal sources for sugar production in Egypt. Viral infections could seriously impact its cultivation and development. This study was performed to investigate genetic diversity of cucumber mosaic virus (CMV) isolates infecting sugar beet and other crops growing nearby such as pepper, cowpea, common bean and sweet potato. A total of nine CMV isolates were characterized at the molecular level, according to capsid protein gene sequence analysis (6 isolates from sugar beet and other three isolates from other crops). Four isolates showed highest identity to CMV subgroup IA. The other five isolates showed the highest levels of nucleotide identity to CMV group II. While group IA and 1B were known to occur in Egypt, to our knowledge, this is the first report of CMV group II from sugar beet and sweet potato in Egypt indicating recent introduction of new CMV genotypes. [ABSTRACT FROM AUTHOR]

Published

2024

42. Co-infection of tomato brown rugose fruit virus and cucumber mosaic virus in tomato in Iran.

Author

Esmaeilzadeh, Fereshteh and Koolivand, Davoud

Subjects

CUCUMBER mosaic virus, REVERSE transcriptase polymerase chain reaction, TOBACCO mosaic virus, MIXED infections, NUCLEOTIDE sequence, PHYTOPLASMAS

Abstract

During surveys conducted in several greenhouses in northwestern and southwestern Iran in the fall of 2021-2022, viral symptoms such as leaf mosaic, leaf deformation, and shoestring were observed in several tomato plants. Reverse transcription polymerase chain reaction (RT-PCR) was performed using specific primers to detect the tomato brown rugose fruit virus (ToBRFV). A 458 base pair fragment corresponding to a part of the coat protein gene was amplified in all symptomatic samples. Sequence blast analysis and multiple alignment of the sequenced isolate with those of the isolates obtained from GenBank revealed 99.76% nucleotide sequence identity with existing GenBank isolates. Phylogenetic analysis grouped ToBRFV isolates into three clades, the Iranian isolate (Jol-F-2022) fell into clade II. The possibility of mixed infection in the samples with important viruses was investigated using universal orthotospovirus primers, pepper mild mottle virus (PMMoV), tomato mosaic virus (ToMV), and cucumber mosaic virus (CMV)-specific primers. In five samples, CMV-specific primers amplified a 657-base pair fragment of the envelope protein gene, whereas no fragment was amplified with general primers for the orthotospovirus genus and specific primers for PMMoV, ToMV. Nucleotide blast (BLASTn) analysis revealed a nucleotide sequence identity around 95.13-98.85 between the Iranian CMV isolate and the corresponding sequences in the GenBank. Phylogenetic analysis based on the nucleotide sequences of the coat protein gene grouped the CMV isolates into three major groups, the Iranian isolate grouped with the Indian CMV isolates in the subgroup IB. Biological studies were performed by mechanical inoculation of an infected sample on Nicotiana rustica. The inoculated plants showed severe mosaic symptoms at 15 days post inoculation (dpi), and infection by both viruses was confirmed through RT-PCR using specific primers. This study presents the first report of mixed infection of tomato plants with ToBRFV and CMV in Iran. [ABSTRACT FROM AUTHOR]

Published

2024

43. Identification and subgrouping of cucumber mosaic virus isolate infecting New Guinea impatiens (Impatiens hawkeri Bull) in Serbia.

Author

ZEČEVIĆ, Katarina, STANKOVIĆ, Ivana, and KRSTIĆ, Branka

Subjects

TOMATO spotted wilt virus disease, CUCUMBER mosaic virus, TURNIP mosaic virus, TOBACCO mosaic virus, FLOWERING of plants, ALNUS glutinosa

Abstract

Copyright of Journal of Central European Agriculture is the property of Journal of Central European Agriculture and its content may not be copied or emailed to multiple sites or posted to a listserv without the copyright holder's express written permission. However, users may print, download, or email articles for individual use. This abstract may be abridged. No warranty is given about the accuracy of the copy. Users should refer to the original published version of the material for the full abstract. (Copyright applies to all Abstracts.)

Published

2024

44. Reduction in vertical transmission rate of bean common mosaic virus in bee-pollinated common bean plants.

Author

Mhlanga, Netsai M., Pate, Adrienne E., Arinaitwe, Warren, Carr, John P., and Murphy, Alex M.

Subjects

*MOSAIC viruses, *CUCUMBER mosaic virus, *PLANT viruses, *VIRUS diseases, *INFECTIOUS disease transmission, *COMMON bean

Abstract

Vertical transmission, the transfer of pathogens across generations, is a critical mechanism for the persistence of plant viruses. The transmission mechanisms are diverse, involving direct invasion through the suspensor and virus entry into developing gametes before achieving symplastic isolation. Despite the progress in understanding vertical virus transmission, the environmental factors influencing this process remain largely unexplored. We investigated the complex interplay between vertical transmission of plant viruses and pollination dynamics, focusing on common bean (Phaseolus vulgaris). The intricate relationship between plants and pollinators, especially bees, is essential for global ecosystems and crop productivity. We explored the impact of virus infection on seed transmission rates, with a particular emphasis on bean common mosaic virus (BCMV), bean common mosaic necrosis virus (BCMNV), and cucumber mosaic virus (CMV). Under controlled growth conditions, BCMNV exhibited the highest seed transmission rate, followed by BCMV and CMV. Notably, in the field, bee-pollinated BCMV-infected plants showed a reduced transmission rate compared to self-pollinated plants. This highlights the influence of pollinators on virus transmission dynamics. The findings demonstrate the virus-specific nature of seed transmission and underscore the importance of considering environmental factors, such as pollination, in understanding and managing plant virus spread. [ABSTRACT FROM AUTHOR]

Published

2024

45. Biosynthesis of cupric oxide nanoparticles: its antiviral activities against TMV by directly destroying virion and inducing plant resistance.

Author

Liu, Shuaikang, Tian, Weiqiang, Liu, Zhongwei, Wei, Xuefeng, Yuan, Kai, Du, Wei, Chen, Siang, Chen, Shuhan, Zhou, Dong, and Cai, Lin

Subjects

*NICOTIANA benthamiana, *BIOSYNTHESIS, *TOBACCO mosaic virus, *CUCUMBER mosaic virus, *AGRICULTURE, *POISONS, *FRUIT extracts

Abstract

Tobacco mosaic virus (TMV) is widely recognized as one of the most important plant viruses, causing significant agricultural losses in terms of both quality and yield worldwide each year. This study demonstrated the biosynthesis of copper oxide nanoparticles (CuONPs) using orange peel extract for effective control of TMV infection both in vitro and in vivo. After treatment with CuONPs (100 mg/L) for 2 h, TMV particles exhibited evident fragmentation in vitro, reducing infectivity on tobacco plants. Similarly, the application of CuONPs on Nicotiana benthamiana (N. benthamiana) positively impeded viral replication and accumulation in vivo. Interestingly, the expression of systemic resistance-related genes (PR1, PR2, ERF1, and JAZ3) in the host plant was up-regulated by CuONPs treatment, supporting that CuONPs activated plant immunity to inhibit TMV. Importantly, the application of CuONPs (100 mg/L) did not exhibit any toxic effects on tobacco and, instead, resulted in the promotion of chlorophyll content, as well as an increase in the fresh weight and dry weight of the plant when compared to the control treatment. Overall, we proposed that the appropriate concentration of CuONPs (100 mg/L) can directly break viral particles by passivating, boost plant immunity by stimulating systemic acquired resistance (SAR), and provide nutritional supplements to promote plant growth. [ABSTRACT FROM AUTHOR]

Published

2024

46. Population genetic structure and demographic history of short mackerel, <italic>Rastrelliger brachysoma</italic>, in the Gulf of Thailand.

Author

Jondeung, Amnuay and Boonjorn, Nuntachai

Subjects

*MACKERELS, *GENETIC variation, *HAPLOTYPES, *CUCUMBER mosaic virus, *POPULATION genetics, *GROUNDFISHES

Abstract

AbstractThe short mackerel Rastrelliger brachysoma (Bleeker 1851) is an important fish in the Gulf of Thailand (GoT). The biology of this species has been intensively studied, but its genetic diversity is little known. The genetic diversity, population genetic structure, and demographic history of this species in the GoT were studied using complete mt control region sequences. The CR sequences of 455 mackerel samples collected from 23 localities at four fishing grounds revealed 333 haplotypes with haplotype diversity (h) per population, ranging between 0.8933 and 1.000, with an average of 0.9781. In turn, the nucleotide diversity (µ) ranged between 0.0119 ± 0.0060 and 0.0333 ± 0.0174, with an average of 0.0220 ± 0.00059.A haplotype network analysis showed that all sequences segregated into two subgroups named, clade I and clade II. Two clades were separated by 26 mutational steps. Each clade formed star-like clusters with many haplotypes derived from a common haplotype. Moreover, an analysis of molecular variance (AMOVA) revealed no significant differences among the studied localities, suggesting the presence of a single population in the GoT. Pairwise differences between samples from different fishing regions also indicated no population structure. Both Tajima’s D and Fu’s FS statistics were highly significant for the two clades but nonsignificant for the entire population according to a mismatch distribution analysis. These results confirmed that both clades experienced demographic expansion. The estimated expansion times for clade I and clade II were 1,542.307 years (1.5423 ka BP) and 7,602.541 (7.6025 ka BP) years, respectively. [ABSTRACT FROM AUTHOR]

Published

2024

47. Zn2+-dependent association of cysteine-rich protein with virion orchestrates morphogenesis of rod-shaped viruses.

Author

Yue, Ning, Jiang, Zhihao, Pi, Qinglin, Yang, Meng, Gao, Zongyu, Wang, Xueting, Zhang, He, Wu, Fengtong, Jin, Xuejiao, Li, Menglin, Wang, Ying, Zhang, Yongliang, and Li, Dawei

Subjects

*VIRION, *LIFE cycles (Biology), *MORPHOGENESIS, *PLANT viruses, *PLANT RNA, *CUCUMBER mosaic virus

Abstract

The majority of rod-shaped and some filamentous plant viruses encode a cysteine-rich protein (CRP) that functions in viral virulence; however, the roles of these CRPs in viral infection remain largely unknown. Here, we used barley stripe mosaic virus (BSMV) as a model to investigate the essential role of its CRP in virus morphogenesis. The CRP protein γb directly interacts with BSMV coat protein (CP), the mutations either on the His-85 site in γb predicted to generate a potential CCCH motif or on the His-13 site in CP exposed to the surface of the virions abolish the zinc-binding activity and their interaction. Immunogold-labeling assays show that γb binds to the surface of rod-shaped BSMV virions in a Zn2+-dependent manner, which enhances the RNA binding activity of CP and facilitates virion assembly and stability, suggesting that the Zn2+-dependent physical association of γb with the virion is crucial for BSMV morphogenesis. Intriguingly, the tightly binding of diverse CRPs to their rod-shaped virions is a general feature employed by the members in the families Virgaviridae (excluding the genus Tobamovirus) and Benyviridae. Together, these results reveal a hitherto unknown role of CRPs in the assembly and stability of virus particles, and expand our understanding of the molecular mechanism underlying virus morphogenesis. Author summary: The symmetrical structures of plant RNA viruses are usually composed of numerous identical coat protein (CP) subunits encapsidated one molecule of viral genomic RNA. Interestingly, a large number of rod-shaped and filamentous plant viruses encode a cysteine-rich protein (CRP), which usually function as viral suppressors of RNA silencing and pathogenicity determinants during viral infection. However, their roles in viral life cycle remain poorly understood. Here, our study reveals the essential role of CRPs in virus morphogenesis. The cysteine-rich γb protein binds to the surface of rod-shaped barley stripe mosaic virus (BSMV) virion by interacting with CP in a Zn2+-dependent manner, thereby facilitating virion assembly and stability. Both His-85 site in γb predicted to generate a potential CCCH motif and His-13 site in CP exposed to the surface of the virions are key amino acids in γb-CP interaction and the zinc-binding activity. Attractively, the phenomenon of CRPs being tightly bound to their rod-shaped virions occurs in a broad range of distantly related viruses, implying a conserved role for the CRPs in orchestrating virus morphogenesis. [ABSTRACT FROM AUTHOR]

Published

2024

48. Avirulence of a spontaneous Francisella tularensis subsp. mediasiatica prmA mutant.

Author

Timofeev, Vitalii, Bakhteeva, Irina, Titareva, Galina, Mironova, Raisa, Evseeva, Vera, Kravchenko, Tatiana, Sizova, Angelika, Borzilov, Alexander, Pavlovich, Natalia, Mokrievich, Alexander, Dyatlov, Ivan, and Vergnaud, Gilles

Subjects

*FRANCISELLA tularensis, *MICE, *WHOLE genome sequencing, *NONSENSE mutation, *DELETION mutation, *GUINEA pigs, *CUCUMBER mosaic virus

Abstract

Francisella tularensis, the causative agent of tularemia, is divided into three subspecies. Two of these, subspecies holarctica and tularensis, are highly pathogenic to humans and consequently relatively well studied. The third subspecies, mediasiatica, is rarely isolated and remains poorly studied. It is distributed in the sparsely populated regions of Central Asia and Siberia. Curently this subspecies is not known to have been responsible for human infections in spite of its high virulence in laboratory animals. Subspecies mediasiatica is currently divided into three subgroups—MI, present in Central Asia, MII, present in southern Siberia, and MIII represented by a unique strain, 60(B)57, isolated in Uzbekistan in 1960. We describe here the unexpected observation that MIII strain 60(B)57 is avirulent and immunogenic. We observed that infection with this strain protected mice from challenge 21 days later with a virulent subsp. mediasiatica strain. With an increase of this interval, the protection for mice was significantly reduced. In contrast, guinea pigs were protected from challenge with strains of the subspecies holarctica and mediasiatica (but not subsp. tularensis) 90 days after infection with 60(B)57. We performed genome assembly based on whole genome sequencing data obtained using the Nanopore MinION for strain 60(B)57 and two subsp. mediasiatica strains representing the Central Asian MI and Siberian MII phylogenetic subgroups. The prmA gene is truncated due to a nonsense mutation in strain 60(B)57. The deletion of gene prmA has previously been shown to induce a loss of virulence in Francisella novicida the closest model organism suggesting that the observed mutation might the cause of the avirulence of strain 60(B)57. [ABSTRACT FROM AUTHOR]

Published

2024

49. Viperin-like proteins interfere with RNA viruses in plants.

Author

Kamel, Radwa, Aman, Rashid, and Mahfouz, Magdy M.

Subjects

RNA viruses, POTATO virus X, TOBACCO mosaic virus, PLANT RNA, TURNIP mosaic virus, CUCUMBER mosaic virus

Abstract

Plant viruses cause substantial losses in crop yield and quality; therefore, devising new, robust strategies to counter viral infections has important implications for agriculture. Virus inhibitory protein endoplasmic reticulum-associated interferoninducible (Viperin) proteins are conserved antiviral proteins. Here, we identified a set of Viperin and Viperin-like proteins from multiple species and tested whether they could interfere with RNA viruses in planta. Our data from transient and stable overexpression of these proteins in Nicotiana benthamiana reveal varying levels of interference against the RNA viruses tobacco mosaic virus (TMV), turnip mosaic virus (TuMV), and potato virus x (PVX). Harnessing the potential of these proteins represents a novel avenue in plant antiviral approaches, offering a broader and more effective spectrum for application in plant biotechnology and agriculture. Identifying these proteins opens new avenues for engineering a broad range of resistance to protect crop plants against viral pathogens. [ABSTRACT FROM AUTHOR]

Published

2024

50. Compensatory Modulation of Seed Storage Protein Synthesis and Alteration of Starch Accumulation by Selective Editing of 13 kDa Prolamin Genes by CRISPR-Cas9 in Rice.

Author

Pham, Hue Anh, Cho, Kyoungwon, Tran, Anh Duc, Chandra, Deepanwita, So, Jinpyo, Nguyen, Hanh Thi Thuy, Sang, Hyunkyu, Lee, Jong-Yeol, and Han, Oksoo

Subjects

*SEED proteins, *PROTEIN synthesis, *ARABIDOPSIS, *TRANSCRIPTION factors, *MOLECULAR size, *CRISPRS, *SEED storage, *CUCUMBER mosaic virus

Abstract

Rice prolamins are categorized into three groups by molecular size (10, 13, or 16 kDa), while the 13 kDa prolamins are assigned to four subgroups (Pro13a-I, Pro13a-II, Pro13b-I, and Pro13b-II) based on cysteine residue content. Since lowering prolamin content in rice is essential to minimize indigestion and allergy risks, we generated four knockout lines using CRISPR-Cas9, which selectively reduced the expression of a specific subgroup of the 13 kDa prolamins. These four mutant rice lines also showed the compensatory expression of glutelins and non-targeted prolamins and were accompanied by low grain weight, altered starch content, and atypically-shaped starch granules and protein bodies. Transcriptome analysis identified 746 differentially expressed genes associated with 13 kDa prolamins during development. Correlation analysis revealed negative associations between genes in Pro13a-I and those in Pro13a-II and Pro13b-I/II subgroups. Furthermore, alterations in the transcription levels of 9 ER stress and 17 transcription factor genes were also observed in mutant rice lines with suppressed expression of 13 kDa prolamin. Our results provide profound insight into the functional role of 13 kDa rice prolamins in the regulatory mechanisms underlying rice seed development, suggesting their promising potential application to improve nutritional and immunological value. [ABSTRACT FROM AUTHOR]

Published

2024