Relevant bibliographies by topics / Barley yellow dwarf viruses Control

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Academic literature on the topic 'Barley yellow dwarf viruses Control'

Author: Grafiati
Published: 4 June 2021
Last updated: 29 January 2023

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Journal articles on the topic "Barley yellow dwarf viruses Control"

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Burrows, M. E., M. C. Caillaud, D. M. Smith, E. C. Benson, F. E. Gildow, and S. M. Gray. "Genetic Regulation of Polerovirus and Luteovirus Transmission in the Aphid Schizaphis graminum." Phytopathology® 96, no. 8 (August 2006): 828–37. http://dx.doi.org/10.1094/phyto-96-0828.

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Sexual forms of two genotypes of the aphid Schizaphis graminum, one a vector, the other a nonvector of two viruses that cause barley yellow dwarf disease (Barley yellow dwarf virus [BYDV]-SGV, luteovirus and Cereal yellow dwarf virus-RPV, polerovirus), were mated to generate F1 and F2 populations. Segregation of the transmission phenotype for both viruses in the F1 and F2 populations indicated that the transmission phenotype is under genetic control and that the parents are heterozygous for genes involved in transmission. The ability to transmit both viruses was correlated within the F1 and F2
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2

Burrows, Mary, Carla Thomas, Neil McRoberts, Richard M. Bostock, Len Coop, and James Stack. "Coordination of Diagnostic Efforts in the Great Plains: Wheat Virus Survey and Modeling of Disease Onset." Plant Disease 100, no. 6 (June 2016): 1037–45. http://dx.doi.org/10.1094/pdis-04-15-0467-fe.

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Following the discovery of two new wheat virus diseases in the United States, the Great Plains region (Colorado, Kansas, Montana, Nebraska, North Dakota, Oklahoma, South Dakota, Texas, and Wyoming) of the National Plant Diagnostic Network (NPDN) initiated a project to measure the prevalence of five wheat diseases using indirect ELISA. Wheat streak mosaic virus (WSMV), Wheat mosaic virus (WMoV), and Triticum mosaic virus (TriMV) were found in all nine states. WSMV was the most prevalent, averaging 23 to 47% of samples each year. TriMV and WMoV were detected with WSMV (in up to 76% of the sample
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Li, Lin, Shuangchao Wang, Xiufen Yang, Frederic Francis, and Dewen Qiu. "Protein Elicitor PeaT1 Efficiently Controlled Barley Yellow Dwarf Virus in Wheat." Agriculture 9, no. 9 (September 6, 2019): 193. http://dx.doi.org/10.3390/agriculture9090193.

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Barley yellow dwarf virus (BYDV), transmitted by the wheat aphid, generates serious wheat yellow dwarf disease and causes great losses in agriculture. Induced resistance has attracted great attention over recent years as a biological method to control plant pathogens and herbivores. Protein elicitor PeaT1 induces defense response in plants against fungi, viruses, and aphids. In this study, wheat seeds and seedlings were soaked and sprayed with 30 μg/mL PeaT1, respectively. Then seedlings were inoculated with BYDV by viruliferous Schizaphis graminum to detect the control efficiency of PeaT1-ind
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Nancarrow, Narelle, Mohammad Aftab, Angela Freeman, Brendan Rodoni, Grant Hollaway, and Piotr Trębicki. "Prevalence and Incidence of Yellow Dwarf Viruses Across a Climatic Gradient: A Four-Year Field Study in Southeastern Australia." Plant Disease 102, no. 12 (December 2018): 2465–72. http://dx.doi.org/10.1094/pdis-01-18-0116-re.

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Yellow dwarf viruses (YDVs) form a complex of economically important pathogens that affect cereal production worldwide, reducing yield and quality. The prevalence and incidence of YDVs including barley yellow dwarf viruses (BYDV-PAV and BYDV-MAV) and cereal yellow dwarf virus (CYDV-RPV) in cereal fields in Victoria, Australia were measured. As temperature decreases and rainfall increases from north to south in Victoria, fields in three geographical regions were evaluated to determine potential differences in virus prevalence and incidence across the weather gradient. Cereal samples randomly co
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Tapio, Eeva, Katri Bremer, and Jari P. T. Valkonen. "Viruses and their significance in agricultural and horticultural crops in Finland." Agricultural and Food Science 6, no. 4 (December 1, 1997): 323–36. http://dx.doi.org/10.23986/afsci.72795.

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This paper reviews the plant viruses and virus vectors that have been detected in agricultural and horticultural crop plants and some weeds in Finland. The historical and current importance of virus diseases and the methods used for controlling them in cereals, potato, berry plants, fruit trees, ornamental plants and vegetables are discussed. Plant viruses have been intensely studied in Finland over 40 years. Up to date, 44 plant virus species have been detected, and many tentatively identified viruses are also reported. Control of many virus diseases has been significantly improved. This has
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Kiruwa, Fatma Hussein, Samuel Mutiga, Joyce Njuguna, Eunice Machuka, Senait Senay, Tileye Feyissa, Patrick Alois Ndakidemi, and Francesca Stomeo. "Status and Epidemiology of Maize Lethal Necrotic Disease in Northern Tanzania." Pathogens 9, no. 1 (December 18, 2019): 4. http://dx.doi.org/10.3390/pathogens9010004.

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Sustainable control of plant diseases requires a good understanding of the epidemiological aspects such as the biology of the causal pathogens. In the current study, we used RT-PCR and Next Generation Sequencing (NGS) to contribute to the characterization of maize lethal necrotic (MLN) viruses and to identify other possible viruses that could represent a future threat in maize production in Tanzania. RT-PCR screening for Maize Chlorotic Mottle Virus (MCMV) detected the virus in the majority (97%) of the samples (n = 223). Analysis of a subset (n = 48) of the samples using NGS-Illumina Miseq de
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Redila, Carla Dizon, Ved Prakash, and Shahideh Nouri. "Metagenomics Analysis of the Wheat Virome Identifies Novel Plant and Fungal-Associated Viral Sequences." Viruses 13, no. 12 (December 7, 2021): 2457. http://dx.doi.org/10.3390/v13122457.

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Wheat viruses including wheat streak mosaic virus, Triticum mosaic virus, and barley yellow dwarf virus cost substantial losses in crop yields every year. Although there have been extensive studies conducted on these known wheat viruses, currently, there is limited knowledge about all components of the wheat (Triticum aestivum L.) virome. Here, we determined the composition of the wheat virome through total RNA deep sequencing of field-collected leaf samples. Sequences were de novo assembled after removing the host reads, and BLASTx searches were conducted. In addition to the documented wheat
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Song, Sang Ik, and W. Allen Miller. "cis and trans Requirements for Rolling Circle Replication of a Satellite RNA." Journal of Virology 78, no. 6 (March 15, 2004): 3072–82. http://dx.doi.org/10.1128/jvi.78.6.3072-3082.2004.

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ABSTRACT Satellite RNAs usurp the replication machinery of their helper viruses, even though they bear little or no sequence similarity to the helper virus RNA. In Cereal yellow dwarf polerovirus serotype RPV (CYDV-RPV), the 322-nucleotide satellite RNA (satRPV RNA) accumulates to high levels in the presence of the CYDV-RPV helper virus. Rolling circle replication generates multimeric satRPV RNAs that self-cleave via a double-hammerhead ribozyme structure. Alternative folding inhibits formation of a hammerhead in monomeric satRPV RNA. Here we determine helper virus requirements and the effects
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Guy, P. L. "Viruses of New Zealand pasture grasses and legumes: a review." Crop and Pasture Science 65, no. 9 (2014): 841. http://dx.doi.org/10.1071/cp14017.

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This article reviews knowledge of 23 plant viruses infecting pasture grasses and legumes in New Zealand. The incidence, ecology and impact of each virus and prospects for control using natural or artificial resistance genes or by vector control is discussed. The most prevalent viruses are Alfalfa mosaic virus and White clover mosaic virus in pasture legumes and Cocksfoot mottle virus, Ryegrass mosaic virus and Barley yellow dwarf virus in pasture grasses. Lucerne Australian latent virus is restricted to the North Island and Red clover necrotic mosaic virus is largely restricted to the South Is
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Miller, W. Allen, Ruizhong Shen, William Staplin, and Pulkit Kanodia. "Noncoding RNAs of Plant Viruses and Viroids: Sponges of Host Translation and RNA Interference Machinery." Molecular Plant-Microbe Interactions® 29, no. 3 (March 2016): 156–64. http://dx.doi.org/10.1094/mpmi-10-15-0226-fi.

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Noncoding sequences in plant viral genomes are well-known to control viral replication and gene expression in cis. However, plant viral and viroid noncoding (nc)RNA sequences can also regulate gene expression acting in trans, often acting like ‘sponges’ that bind and sequester host cellular machinery to favor viral infection. Noncoding sequences of small subgenomic (sg)RNAs of Barley yellow dwarf virus (BYDV) and Red clover necrotic mosaic virus (RCNMV) contain a cap-independent translation element that binds translation initiation factor eIF4G. We provide new evidence that a sgRNA of BYDV can
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Dissertations / Theses on the topic "Barley yellow dwarf viruses Control"

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King, Brendon James. "Towards cloning Yd2 : a barley resistance gene to barley yellow dwarf virus." Title page, contents and summary only, 2001. http://web4.library.adelaide.edu.au/theses/09PH/09phk523.pdf.

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Matcham, Elizabeth Jane. "Integrated control of cereal aphids/barley yellow dwarf virus." Thesis, University of Plymouth, 1986. http://hdl.handle.net/10026.1/2337.

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The cereal aphids Rhopalosiphum padi (L.) and Sitobion a venae (F.) cause spread of Barley Yellow Dwarf Virus in autumn sown crops over the winter. Control is achieved by correctly timed insecticide applications, commonly synthetic pyrethroids. Polyphagous predators contribute to the natural control of these aphids. A field investigation into the effects of deltamethrin on polyphagous predators,using barriered plots, showed that natural control may be reduced due to the reduction in numbers of predators over the winter. Also, spring populations, which limit the growth of summer populations of
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Paltridge, Nicholas G. "The development of molecular markers for barley Yd2, the barley yellow dwarf virus resistance gene /." Title page, contents and summary only, 1998. http://web4.library.adelaide.edu.au/theses/09APSP/09apspp183.pdf.

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Shams-Bakhsh, Masoud. "Studies on the structure and gene expression of barley yellow dwarf virus." Title page, contents and abstract only, 1997. http://web4.library.adelaide.edu.au/theses/09PH/09phs5275.pdf.

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Bibliography: leaves 118-132. This thesis examines the structure and gene expression of barley yellow dwarf viruses (BYDVs)-PAV in order to gain a better understanding of the interaction between the virus and the Yd2 resistance gene. The protein products of open reading frame (ORF)3, ORF4 and ORF5 are expressed in bacterial cells, in order to characterise the BYDV-PAV virion-associated proteins. The effect of the Yd2 resistance gene on the expression of the BYDV-PAV viral proteins in infected cells is also studied.
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Collins, Nicholas C. "The genetics of barley yellow dwarf virus resistance in barley and rice." Title page, table of contents and summary only, 1996. http://hdl.handle.net/2440/46063.

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Barley yellow dwarf virus (BYDV), an aphid transmitted luteovirus, is the most widespread and economically damaging virus of cereal crops. The work in this thesis aims to characterise the basis of the naturally occurring resistance to BYDV in cereals in three ways: Firstly, by facilitating the isolation of the Yd2 gene for BYDV resistance from barley by a map-based approach. Secondly, by determining if a BYDV resistance gene in rice is orthologous to Yd2. Thirdly, by establishing if other BYDV resistance genes in non- Ethiopian barleys are allelic to Yd2. It is hoped that the information gener
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Hadi, Buyung Asmara Ratna Flanders Kathy L. Bowen Kira L. "Aphid vectors and grass hosts of barley yellow dwarf virus and cereal yellow dwarf virus in Alabama and western Florida." Auburn, Ala., 2009. http://hdl.handle.net/10415/2018.

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Zwiener, Christopher. "Impact of aphids species and barley yellow dwarf virus on soft red winter wheat." Diss., Columbia, Mo. : University of Missouri-Columbia, 2005. http://hdl.handle.net/10355/4322.

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Thesis (M.S.)--University of Missouri-Columbia, 2005.<br>The entire dissertation/thesis text is included in the research.pdf file; the official abstract appears in the short.pdf file (which also appears in the research.pdf); a non-technical general description, or public abstract, appears in the public.pdf file. Title from title screen of research.pdf file viewed on (month day, year) Includes bibliographical references.
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Lamptey, Joseph Nee Lante. "Impact and epidemiology of barley yellow dwarf viruses on potential biomass crops in the UK." Thesis, University of Reading, 1996. http://ethos.bl.uk/OrderDetails.do?uin=uk.bl.ethos.308052.

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Persson, Tomas. "Modelling effects of Barley yellow dwarf virus on growth and yield of oats /." Uppsala : Dept. of Crop Production Ecology, Swedish University of Agricultural Sciences, 2006. http://epsilon.slu.se/200616.pdf.

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Haugen, Samuel Arthur McGrath. "Assessing Cereal Aphid Diversity and Barley Yellow Dwarf Risk In Hard Red Spring Wheat and Durum." Thesis, North Dakota State University, 2018. https://hdl.handle.net/10365/28791.

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Barley yellow dwarf (BYD), caused by Barley yellow dwarf virus and Cereal yellow dwarf virus, and is a yield limiting disease of small grains. A research study was initiated in 2015 to identify the implications of BYD on small grain crops of North Dakota. A survey of 187 small grain fields was conducted in 2015 and 2016 to assess cereal aphid diversity; cereal aphids identified included, Rhopalosiphum padi, Schizaphis graminum, and Sitobion avenae. A second survey observed and documented field absence or occurrence of cereal aphids and their incidence. Results indicated prevalence and incidenc
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Books on the topic "Barley yellow dwarf viruses Control"

1

Mo.) ARS Barley Yellow Dwarf Virus Workshop (1995 Saint Louis. Report, ARS Barley Yellow Dwarf Virus Workshop: St. Louis, Missouri, May 10-11, 1995. St. Louis, Mo.?: Agricultural Research Service, 1995.

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2

J, D'Arcy Cleora, and Burnett P. A, eds. Barley yellow dwarf: 40 years of progress. St. Paul, Minn: APS Press, 1995.

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3

Li, Guoxuan. The characterization and cloning of the RNA of a vector-nonspecific isolate of barley yellow dwarf virus commonly found in wheat in Washington State. 1990.

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Barley yellow dwarf disease: Recent advances and future strategies : proceedings of an international symposium held at El Batán, Texcoco, Mexico, 1-5 September 2002. Mexico, D.F: CIMMYT, 2002.

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A, Burnett P., International Maize and Wheat Improvement Center., and Italy. Ministero degli affari esteri. Dipartimento per la cooperazione allo sviluppo., eds. World perspectives on barley yellow dwarf: Proceedings of the international workshop, July 6-11, 1987, Udine Italy. Mexico, D.F., Mexico: CIMMYT, 1990.

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Book chapters on the topic "Barley yellow dwarf viruses Control"

1

Lau, Douglas, Talita Bernardon Mar, Carlos Diego Ribeiro dos Santos, Eduardo Engel, and Paulo Roberto do Valle da Silva Pereira. "Advances in understanding the biology and epidemiology of barley yellow dwarf virus (BYDV)." In Achieving durable disease resistance in cereals, 709–46. Burleigh Dodds Science Publishing, 2021. http://dx.doi.org/10.19103/as.2021.0092.34.

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A tri-trophic network of domesticated grasses (host), various aphids (vector) and barley yellow dwarf virus (pathogen) species has been spread by humans from Eurasia to the rest of the world. Understanding how climate, natural and agricultural landscapes challenge pathogens, vectors, and their natural enemies and shape their dynamics is the key to managing this pathosystem. This chapter provides an overview of this complex system and its evolution. The chapter includes a case study of biological control of aphids causing wheat BYDV in Brazil. The current challenge is to create tools that integrate knowledge of this complex pathosystem and facilitate monitoring and decision making for rational management to reduce the burden of disease.
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Abdulaziz Othman Alkubaisi, Noorah, and Nagwa Mohammed Amin Aref. "The Intervention of Gold Nanoparticles (AuNPs) Interactions Lead to the Disappearing of Virus Particles." In Atlas of Ultrastructure Interaction Proteome Between Barley Yellow Dwarf Virus and Gold Nanoparticles. IntechOpen, 2021. http://dx.doi.org/10.5772/intechopen.97443.

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In the context of plant-pathogen interaction, the application of nanoparticle technology and efficient transportation of substances, such as systemic AuNPs to the specific coupling of AuNPs and virus, provide novel solutions for the treatment of plants against the virus. The included data proved that AuNPs provide an efficient means to control virus infection in a fashion way with reducing collateral damage. The AuNPs assure fatal damage to the VLPs with low concentration using different AuNPs sizes. Synergistic therapeutic effects could lead to virus resistance.
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Domier, L. L. "Barley Yellow Dwarf Viruses." In Encyclopedia of Virology, 279–86. Elsevier, 2008. http://dx.doi.org/10.1016/b978-012374410-4.00637-3.

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Domier, Leslie L. "Barley Yellow Dwarf Viruses (Luteoviridae)." In Reference Module in Life Sciences. Elsevier, 2020. http://dx.doi.org/10.1016/b978-0-12-809633-8.21236-3.

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