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Journal Abstract Search

121 related items for PubMed ID: 38581188

  • 21. Recent progress in the characterization of molecular determinants in the Xanthomonas axonopodis pv. manihotis-cassava interaction.
    Verdier V, Restrepo S, Mosquera G, Jorge V, Lopez C.
    Plant Mol Biol; 2004 Nov; 56(4):573-84. PubMed ID: 15630621
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  • 23. TALE1 from Xanthomonas axonopodis pv. manihotis acts as a transcriptional activator in plant cells and is important for pathogenicity in cassava plants.
    Castiblanco LF, Gil J, Rojas A, Osorio D, Gutiérrez S, Muñoz-Bodnar A, Perez-Quintero AL, Koebnik R, Szurek B, López C, Restrepo S, Verdier V, Bernal AJ.
    Mol Plant Pathol; 2013 Jan; 14(1):84-95. PubMed ID: 22947214
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  • 26. Heat shock transcription factor 3 regulates plant immune response through modulation of salicylic acid accumulation and signalling in cassava.
    Wei Y, Liu G, Chang Y, He C, Shi H.
    Mol Plant Pathol; 2018 Oct; 19(10):2209-2220. PubMed ID: 29660238
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  • 27. Molecular functional analysis of auxin/indole-3-acetic acid proteins (Aux/IAAs) in plant disease resistance in cassava.
    Fan S, Chang Y, Liu G, Shang S, Tian L, Shi H.
    Physiol Plant; 2020 Jan; 168(1):88-97. PubMed ID: 30950065
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  • 29. AFLP assessment of genetic variability in cassava accessions (Manihot esculenta) resistant and susceptible to the cassava bacterial blight (CBB).
    Sanchez G, Restrepo S, Duque MC, Fregene M, Bonierbale M, Verdier V.
    Genome; 1999 Apr; 42(2):163-72. PubMed ID: 10231955
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  • 30. RXam2, a NLR from cassava (Manihot esculenta) contributes partially to the quantitative resistance to Xanthomonas phaseoli pv. manihotis.
    Díaz-Tatis PA, Ochoa JC, Rico EM, Rodríguez C, Medina A, Szurek B, Chavarriaga P, López CE.
    Plant Mol Biol; 2022 Jun; 109(3):313-324. PubMed ID: 34757519
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  • 31. The role of type III effectors from Xanthomonas axonopodis pv. manihotis in virulence and suppression of plant immunity.
    Medina CA, Reyes PA, Trujillo CA, Gonzalez JL, Bejarano DA, Montenegro NA, Jacobs JM, Joe A, Restrepo S, Alfano JR, Bernal A.
    Mol Plant Pathol; 2018 Mar; 19(3):593-606. PubMed ID: 28218447
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  • 33. A bacterial kinase phosphorylates OSK1 to suppress stomatal immunity in rice.
    Wang S, Li S, Wang J, Li Q, Xin XF, Zhou S, Wang Y, Li D, Xu J, Luo ZQ, He SY, Sun W.
    Nat Commun; 2021 Sep 16; 12(1):5479. PubMed ID: 34531388
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  • 37. Corrigendum to CPK1-HSP90 phosphorylation and effector XopC2-HSP90 interaction underpin the antagonism during cassava defense-pathogen infection.
    New Phytol; 2024 Aug 16; 243(4):1626. PubMed ID: 38890807
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  • 38. Improving cassava bacterial blight resistance by editing the epigenome.
    Veley KM, Elliott K, Jensen G, Zhong Z, Feng S, Yoder M, Gilbert KB, Berry JC, Lin ZD, Ghoshal B, Gallego-Bartolomé J, Norton J, Motomura-Wages S, Carrington JC, Jacobsen SE, Bart RS.
    Nat Commun; 2023 Jan 05; 14(1):85. PubMed ID: 36604425
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  • 39. Gene tagging via CRISPR-mediated homology-directed repair in cassava.
    Veley KM, Okwuonu I, Jensen G, Yoder M, Taylor NJ, Meyers BC, Bart RS.
    G3 (Bethesda); 2021 Apr 15; 11(4):. PubMed ID: 33855431
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  • 40. Identification of ta-siRNAs and cis-nat-siRNAs in cassava and their roles in response to cassava bacterial blight.
    Quintero A, Pérez-Quintero AL, López C.
    Genomics Proteomics Bioinformatics; 2013 Jun 15; 11(3):172-81. PubMed ID: 23665476
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