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Pubmed for Handhelds

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Journal Abstract Search

299 related items for PubMed ID: 26340723

  • 21. Tospoviruses in the Mediterranean area.
    Turina M, Tavella L, Ciuffo M.
    Adv Virus Res; 2012; 84():403-37. PubMed ID: 22682175
    [Abstract] [Full Text] [Related]

  • 22. Transcriptome changes associated with Tomato spotted wilt virus infection in various life stages of its thrips vector, Frankliniella fusca (Hinds).
    Shrestha A, Champagne DE, Culbreath AK, Rotenberg D, Whitfield AE, Srinivasan R.
    J Gen Virol; 2017 Aug; 98(8):2156-2170. PubMed ID: 28741996
    [Abstract] [Full Text] [Related]

  • 23. Comparison of Frankliniella fusca and Frankliniella occidentalis (Thysanoptera: Thripidae) as Vectors for a Peanut Strain of Tomato Spotted Wilt Orthotospovirus.
    Arthurs SP, Heinz KM, Mitchell FL.
    Environ Entomol; 2018 Jun 06; 47(3):623-628. PubMed ID: 29596611
    [Abstract] [Full Text] [Related]

  • 24. Infection with a plant virus modifies vector feeding behavior.
    Stafford CA, Walker GP, Ullman DE.
    Proc Natl Acad Sci U S A; 2011 Jun 07; 108(23):9350-5. PubMed ID: 21606372
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  • 27. Effect of Spinosad Resistance on Transmission of Tomato Spotted Wilt Virus by the Western Flower Thrips (Thysanoptera: Thripidae).
    Zhao W, Wan Y, Xie W, Xu B, Zhang Y, Wang S, Wei G, Zhou X, Wu Q.
    J Econ Entomol; 2016 Feb 07; 109(1):62-9. PubMed ID: 26377766
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  • 28. Virus-vectoring thrips regulate the excessive multiplication of tomato spotted wilt virus using their antiviral immune responses.
    Mandal E, Khan F, Kil EJ, Kim Y.
    J Gen Virol; 2024 May 07; 105(5):. PubMed ID: 38717918
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  • 29. Second generation peanut genotypes resistant to thrips-transmitted tomato spotted wilt virus exhibit tolerance rather than true resistance and differentially affect thrips fitness.
    Shrestha A, Srinivasan R, Sundaraj S, Culbreath AK, Riley DG.
    J Econ Entomol; 2013 Apr 07; 106(2):587-96. PubMed ID: 23786043
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  • 31. Host plant resistance against tomato spotted wilt virus in peanut (Arachis hypogaea) and its impact on susceptibility to the virus, virus population genetics, and vector feeding behavior and survival.
    Sundaraj S, Srinivasan R, Culbreath AK, Riley DG, Pappu HR.
    Phytopathology; 2014 Feb 07; 104(2):202-10. PubMed ID: 24025049
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  • 32. Efficient RT-PCR tool for tomato spotted wilt virus detection in its vectors Thrips tabaci and Frankliniella occidentalis.
    Šubr ZW, Király KD, Fail J, Almási A, Salánki K, Fedor P.
    Acta Virol; 2019 Feb 07; 63(3):341-343. PubMed ID: 31507203
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  • 33. Complexity and Local Specificity of the Virome Associated with Tospovirus-Transmitting Thrips Species.
    Chiapello M, Bosco L, Ciuffo M, Ottati S, Salem N, Rosa C, Tavella L, Turina M.
    J Virol; 2021 Oct 13; 95(21):e0059721. PubMed ID: 34232724
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  • 35. Variation in Tomato spotted wilt virus titer in Frankliniella occidentalis and its association with frequency of transmission.
    Rotenberg D, Krishna Kumar NK, Ullman DE, Montero-Astúa M, Willis DK, German TL, Whitfield AE.
    Phytopathology; 2009 Apr 13; 99(4):404-10. PubMed ID: 19271982
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  • 37. Obstructor, a Frankliniella occidentalis protein, promotes transmission of tomato spotted wilt orthotospovirus.
    Zheng X, Wan Y, Tao M, Yuan J, Zhang K, Wang J, Zhang Y, Liang P, Wu Q.
    Insect Sci; 2023 Jun 13; 30(3):741-757. PubMed ID: 36342042
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  • 39. Resistance to Tospoviruses in Vegetable Crops: Epidemiological and Molecular Aspects.
    Turina M, Kormelink R, Resende RO.
    Annu Rev Phytopathol; 2016 Aug 04; 54():347-71. PubMed ID: 27296139
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  • 40. Integration of transcriptomics and network analysis reveals co-expressed genes in Frankliniella occidentalis larval guts that respond to tomato spotted wilt virus infection.
    Han J, Rotenberg D.
    BMC Genomics; 2021 Nov 10; 22(1):810. PubMed ID: 34758725
    [Abstract] [Full Text] [Related]

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