Mechanistic differences in eukaryotic initiation factor requirements for eIF4GI-driven cap-independent translation of structured mRNAs. [PDF]
J Biol ChemSaha B, Haizel SA, Goss DJ.
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Vertical and horizontal transmission of plant viruses: two extremes of a continuum? [PDF]
Npj VirusesGarcía-Ordóñez L, Pagán I.
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Preference of Pentalonia nigronervosa for infected banana plants tends to reverse after Banana bunchy top virus acquisition. [PDF]
Sci RepMurhububa IS +3 more
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Tarımsal üretim çeşitli abiyotik, biyotik stresler ve bunların kombinasyonları tarafından sürekli tehdit altındadır (Eren, 2023). Biyotik stresler arasında toplam ürün kayıplarının yaklaşık %40'ının viral enfeksiyondan kaynaklandığı tahmin edilmektedir. Tarımsal bitkileri enfekte eden virüslerin çoğunluğu (en az 450 farklı tür) RNA virüsleridir (Pandey
DEMİREL, Serap +2 more
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Identification of QTLs for BYDV tolerance in bread wheat
Euphytica, 2002We searched for QTLs involved in tolerance to barley yellow dwarf (BYD), a serious viral disease of small grain cereals in two wheat populations, Opata × Synthetic (ITMI)and Frontana × INIA66 (F × I), for which marker data had previously been generated.
Ligia Ayala +5 more
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Use of Molecular Markers in Selecting for Resistance to BYDV
2001True resistance to barley yellow dwarf virus (BYDV), as indicated by a reduction in virus multiplication within the plant, has not been reported in wheat, but exists in wheat relatives such as Thinopyrum intermedium. Ongoing research at CIMMYT aims at incorporating that resistance into high yielding bread wheat using TC14 lines (Banks et al., 1995 ...
M. Henry +3 more
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Reduced BYDV–PAV transmission by the grain aphid in a Triticum monococcum line
European Journal of Plant Pathology, 2008The luteovirus Barley yellow dwarf virus–PAV (BYDV–PAV) and its vector, the aphid Sitobion avenae are two major sources of yield losses in cereal crops. We report in this paper the effects of a Triticum monococcum line (TM44), resistant by antibiosis to S. avenae, on the different steps of transmission of one BYDV–PAV isolate by the aphids.
Tanguy, Sylvie +1 more
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Research progress in BYDV resistance genes derived from wheat and its wild relatives
Journal of Genetics and Genomics, 2009Barley yellow dwarf virus (BYDV) may cause a serious disease affecting wheat worldwide. True resistance to BYDV is not naturally found in wheat. BYDV resistance genes are found in more than 10 wild relative species belonging to the genera of Thinopyrum, Agropyron, Elymus, Leymus, Roegneria, and Psathyrostachy.
Zengyan, Zhang +2 more
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Reactions in Maize Infected with Swedish Isolates of Barley Yellow Dwarf (BYDV)
Journal of Phytopathology, 1983AbstractNine cultivars of maize (Zea mays L.) were tested for susceptibility to BYDV under three temperature ranges in the greenhouse. Three Swedish isolates of BYDV were used, two specifically transmitted by Rhopalosiphum padi (L.) (39/78) and by Sitobion avenae (Fabr.) (27/77), respectively, and the third by both species (70). The virus isolates were
M. Eweida, Karin Tomenius, P. Oxelfelt
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Transgenic oat for improved BYDV resistance
2004Among the cereal crops cultivated in Finland oat (Avena saliva L.) ranks second, after barley. Finland is one of the major oat producers in the world and a considerable part of the harvest is exported. The Finnish oat cultivars are generally well adapted to the humid and cool growth conditions in Finland.
Nuutila, Anna Maria +2 more
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