Single Nucleotide Polymorphisms in a Gene for Translation Initiation Factor (eIF4G) of Rice (<i>Oryza sativa</i>) Associated with Resistance to <i>Rice tungro spherical virus</i>

Lee, Jonghee; Muhsin, Muhammad; Atienza, Genelou; Kwak, Do‐Yeon; Kim, Suk‐Man; Leon, Teresa B. De; Ángeles, Enrique; Coloquio, E.; Kondoh, Hiroaki; Satoh, Kouji; Cabunagan, R. C.; Cabauatan, P. Q.; Kikuchi, Shoshi; Leung, Hei; Choi, Il-Ryong

doi:10.1094/mpmi-23-1-0029

Cited by 96 publications

(83 citation statements)

References 32 publications

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“…En efecto, a la fecha todos los genes recesivos involucrados en las interacciones planta-potyvirus, grupo al que pertenecen BCMV y BCMNV, se han caracterizado como factores del inicio de la traducción, principalmente eIF4E, eIF4G o sus isoformas (Wang et al, 2011). Estos incluyen 14 genes de resistencia recesivos, de los cuales 12 son eIF4E o su isoforma y dos eIF4G o su isoforma (Albar et al, 2006;Lee et al, 2010). Por lo tanto, la familia de proteínas eIF4E y eIF4G son particularmente importantes, pues son esenciales tanto para la susceptibilidad como la resistencia a las infecciones por algunos virus de ARN (Potyvirus, Cucumovirus, Carmovirus y Bymovirus) en plantas como Arabidopsis, Capsicum spp., Lactuca spp., Lycopersicon spp., Cucumis melo, y Hordeum vulgare (Robaglia y Caranta, 2006).…”

Section: Identidad De Los Genes Recesivos De Resistencia a Potyvirus:unclassified

“…Indeed, to date all recessive genes involved in plant-potyvirus interactions, group to which BCMV and BCMNV belong, it have been characterized as factors in the initiation of translation, mainly eIF4E, eIF4G or its isoforms (Wang et al, 2011). These include 14 recessive resistance genes, of which 12 are eIF4E or its isoform and two eIF4G or its soform (Albar et al, 2006;Lee et al, 2010). Therefore, the protein family eIF4E and eIF4G are particularly important because they are essential for both susceptibility and resistance to infection by some RNA virus (Potyvirus, Cucumovirus, Carmovirus and bymovirus) in plants such as Arabidopsis, Capsicum spp., Lactuca spp., Lycopersicon spp., Cucumis melo, and Hordeum vulgare (Robaglia and Caranta, 2006).…”

Section: Identidad De Los Genes Recesivos De Resistencia a Potyvirus:mentioning

confidence: 99%

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Retos y oportunidades en la selección asistida de frijol resistente a BCMV y BCMNV en México. II. Oportunidades para la selección asistida

Anaya-López

Espejel

Montero-Tavera

et al. 2017

Remexca

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ResumenConsiderando información reciente, el objetivo fue revisar el conocimiento de los mecanismos de resistencia a BCMV y BCMNV, describir el uso de marcadores de ADN para la selección asistida de variedades de frijol resistentes a ambos virus y señalar la necesidad de diseñar y generar marcadores moleculares más eficientes. La forma más económica y eficiente para prevenir los daños causados por ambos virus es sembrar variedades resistentes obtenidas mediante la piramidación de genes, en la que se combine una resistencia de amplio espectro contra los patogrupos de BCMV y BCMNV. Desde hace más de 30 años se conoce la función del gen dominante I, que confiere resistencia a cepas no necróticas, y de los genes recesivos bc, que incluyen bc-u, bc-1, bc-1 2 , bc-2, bc-2 2 , y bc-3, que confieren resistencia específica a algunos patogrupos de BCMV y BCMNV. Sin embargo, a excepción del gen bc-3 que corresponde al gen PveIF4E, se desconoce la identidad de todos ellos. En relación al gen bc3 se han identificado al menos tres alelos, bc3 1 , bc3 2 y bc3 3 , de los cuales solo el alelo bc3 2 , en combinación con el gen I, confiere inmunidad a la cepa NL3 de BCMNV. Hasta el presente, los dos marcadores moleculares más utilizados para monitorear resistencia a BCMV: ROC11 y SW13 no han sido consistentes a través de germoplasma diverso. Por esta razón es necesario desarrollar AbstractConsidering recent information, the objective was to review the knowledge on the mechanisms of resistance to BCMV and BCMNV, describe the use of DNA markers for assisted selection of bean varieties resistant to both viruses and point out the need to design and generate more efficient molecular markers. The most economical and efficient way to prevent damage caused by both viruses is to plant resistant varieties obtained by gene pyramiding, in which a broad-spectrum resistance against pathogroups of BCMV and BCMNV are combined. For over 30 years the role of the dominant I gene are known, which confers resistance to non-necrotic strains, and bc recessive genes, including c-u, bc-1, bc-1 2 , bc-2, bc-2 2 , and bc-3, which confer resistance to some specific pathogroups of BCMV and BCMNV. However, except for bc-3 gene which corresponds to PveIF4E gene, their identity is unknown. Regarding to bc3 gene has been identified at least three alleles, bc3 IntroducciónEl BCMV y BCMNV son dos especies del género Potyvirus estrechamente relacionados con el frijol que producen las enfermedades conocidas como mosaico común y raíz negra. Se han identificado y caracterizado al menos 19 cepas diferentes de BCMV y cuatro de BCMNV: TN-1, NL-3, NL-5 y NL-8 (Larsen et al., 2005), todas pueden transmitirse mecánicamente, y aunque se ha reportado la transmisión de esto virus a través del polen, este mecanismo es de poca relevancia pues el frijol es un planta autógama. Por el contrario, la alta incidencia de infección del embrión por estos potyvirus, hace de la semilla el medio de diseminación más importante, ya que su transmisibilidad por semilla puede ser de hasta 80% de...

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Section: Identidad De Los Genes Recesivos De Resistencia a Potyvirus:unclassified

Section: Identidad De Los Genes Recesivos De Resistencia a Potyvirus:mentioning

confidence: 99%

Retos y oportunidades en la selección asistida de frijol resistente a BCMV y BCMNV en México. II. Oportunidades para la selección asistida

Anaya-López

Espejel

Montero-Tavera

et al. 2017

Remexca

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“…Overexpression of eIF1A improved tolerance to salt stress (Rausell et al, 2003), while overexpression of eIF5A increased resistance to osmotic, nutrient, oxidative, and high temperature stresses (Ma et al, 2010;Xu et al, 2011;Wang et al, 2012). eIF4G plays significant roles against tungro spherical virus ( Lee et al, 2010), and eIF4E is involved in resistance against plum pox virus (Wang et al, 2013), potato virus Y (Duan et al, 2012), and maize rough dwarf disease (Shi et al, 2013). Thus, specific manipulation of initiation factors may afford an approach to improve plant survival under stress or pathogen attack.…”

Section: Introductionmentioning

confidence: 99%

Mutations in eIF5B Confer Thermosensitive and Pleiotropic Phenotypes via Translation Defects in Arabidopsis thaliana

et al. 2017

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The conserved eukaryotic translation initiation factor 5B, eIF5B, is a GTPase that acts late in translation initiation. We found that an Arabidopsis thaliana mutant sensitive to hot temperatures 3 (hot3-1), which behaves as the wild type in the absence of stress but is unable to acclimate to high temperature, carries a missense mutation in the eIF5B1 gene (At1g76810), producing a temperature sensitive protein. A more severe, T-DNA insertion allele (hot3-2) causes pleiotropic developmental phenotypes. Surprisingly, Arabidopsis has three other eIF5B genes that do not substitute for eIF5B1; two of these appear to be in the process of pseudogenization. Polysome profiling and RNA-seq analysis of hot3-1 plants show delayed recovery of polysomes after heat stress and reduced translational efficiency (TE) of a subset of stress protective proteins, demonstrating the critical role of translational control early in heat acclimation. Plants carrying the severe hot3-2 allele show decreased TE of auxinregulated, ribosome-related, and electron transport genes, even under optimal growth conditions. The hot3-2 data suggest that disrupting specific eIF5B interactions on the ribosome can, directly or indirectly, differentially affect translation. Thus, modulating eIF5B interactions could be another mechanism of gene-specific translational control.

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“…Rice blast disease caused by the ascomycete fungus, Magnaporthe oryzae (Couch and Kohn 2002), is also one of the leading causes of great yield loss of rice worldwide and is the most devastating fungal disease on cultivated rice as well as other species of the Poaceae (Zeigler et al 1994;Talbot and Foster 2001;Talbot 2003;Niño et al 2015). Rice tungro disease (RTD) is caused by two viruses, Rice tungro spherical virus (RTSV) and Rice tungro bacilliform virus (RTBV), and is one of the most serious diseases of rice in South and Southeast Asia (Lee et al 2010). Rice damaged by RTD show symptoms, such as small growth and yellow-orange discoloration of leaves (Hibino 1983).…”

Section: Introductionmentioning

confidence: 99%

Application and utilization of marker assisted selection for biotic stress resistance in hybrid rice (Oryza sativaL.)

et al. 2016

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This is an Open-Access article distributed under the terms of the Creative Commons Attribution Non-Commercial License (http://creativecommons.org/licenses/by-nc/4.0) which permits unrestricted non-commercial use, distribution, and reproduction in any medium, provided the original work is properly cited.Abstract Development of disease resistant plant is one of the important objectives in rice breeding programs because biotic stresses can adversely affect rice growth and yield losses. This study was conducted to identify lines with multiple-resistance genes to biotic stress among 173 hybrid rice breeding lines and germplasms using DNA-based markers.Our results showed that one hybrid rice line [IR98161-2-1-1-k1-3 (IR86409-3-1-1-1-1-1/IRBB66)] possessed 5 bacterial blight resistance genes (Xa4, xa5, Xa7, Xa13 and Xa21) while two hybrid rice lines [IR98161-2-1-1-k1-2 (IR86409-3-1-1-1-1-1/IRBB66) and 7292s

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Single Nucleotide Polymorphisms in a Gene for Translation Initiation Factor (eIF4G) of Rice (Oryza sativa) Associated with Resistance to Rice tungro spherical virus

Cited by 96 publications

References 32 publications

Retos y oportunidades en la selección asistida de frijol resistente a BCMV y BCMNV en México. II. Oportunidades para la selección asistida

Retos y oportunidades en la selección asistida de frijol resistente a BCMV y BCMNV en México. II. Oportunidades para la selección asistida

Mutations in eIF5B Confer Thermosensitive and Pleiotropic Phenotypes via Translation Defects in Arabidopsis thaliana

Application and utilization of marker assisted selection for biotic stress resistance in hybrid rice (Oryza sativaL.)

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