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Journal Abstract Search

227 related items for PubMed ID: 34716592

  • 1. A sugarcane smut fungus effector simulates the host endogenous elicitor peptide to suppress plant immunity.
    Ling H, Fu X, Huang N, Zhong Z, Su W, Lin W, Cui H, Que Y.
    New Phytol; 2022 Jan; 233(2):919-933. PubMed ID: 34716592
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  • 2. Aminotransferase SsAro8 Regulates Tryptophan Metabolism Essential for Filamentous Growth of Sugarcane Smut Fungus Sporisorium scitamineum.
    Cui G, Huang C, Bi X, Wang Y, Yin K, Zhu L, Jiang Z, Chen B, Deng YZ.
    Microbiol Spectr; 2022 Aug 31; 10(4):e0057022. PubMed ID: 35862944
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  • 4. Small RNA sequencing reveals a role for sugarcane miRNAs and their targets in response to Sporisorium scitamineum infection.
    Su Y, Zhang Y, Huang N, Liu F, Su W, Xu L, Ahmad W, Wu Q, Guo J, Que Y.
    BMC Genomics; 2017 Apr 24; 18(1):325. PubMed ID: 28438123
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  • 5. A dynamic degradome landscape on miRNAs and their predicted targets in sugarcane caused by Sporisorium scitamineum stress.
    Su Y, Xiao X, Ling H, Huang N, Liu F, Su W, Zhang Y, Xu L, Muhammad K, Que Y.
    BMC Genomics; 2019 Jan 18; 20(1):57. PubMed ID: 30658590
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  • 6. Exploring Potential Surrogate Systems for Studying the Early Steps of the Sporisorium scitamineum Pathogenesis.
    Marrafon-Silva M, Maia T, Calderan-Rodrigues MJ, Strabello M, Oliveira L, Creste S, Melotto M, Monteiro-Vitorello CB.
    Phytopathology; 2024 Jun 18; 114(6):1295-1304. PubMed ID: 38148162
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  • 7. Engineered Sucrose Metabolism Improves the Smut Disease Suppression Potency of Pseudomonas sp. ST4.
    Lin NQ, Liang ZB, Wang HS, Wu XY, Zhang LH, Deng YZ.
    Appl Environ Microbiol; 2023 May 31; 89(5):e0220822. PubMed ID: 37093016
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  • 8. Genome sequencing of Sporisorium scitamineum provides insights into the pathogenic mechanisms of sugarcane smut.
    Que Y, Xu L, Wu Q, Liu Y, Ling H, Liu Y, Zhang Y, Guo J, Su Y, Chen J, Wang S, Zhang C.
    BMC Genomics; 2014 Nov 19; 15(1):996. PubMed ID: 25406499
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  • 12. Differential expression of SofDIR16 and SofCAD genes in smut resistant and susceptible sugarcane cultivars in response to Sporisorium scitamineum.
    Sánchez-Elordi E, Contreras R, de Armas R, Benito MC, Alarcón B, de Oliveira E, Del Mazo C, Díaz-Peña EM, Santiago R, Vicente C, Legaz ME.
    J Plant Physiol; 2018 Jul 19; 226():103-113. PubMed ID: 29753910
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  • 13. Sugarcane smut: shedding light on the development of the whip-shaped sorus.
    Marques JPR, Appezzato-da-Glória B, Piepenbring M, Massola NS, Monteiro-Vitorello CB, Vieira MLC.
    Ann Bot; 2017 Mar 01; 119(5):815-827. PubMed ID: 27568298
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  • 16. WGCNA Identifies a Comprehensive and Dynamic Gene Co-Expression Network That Associates with Smut Resistance in Sugarcane.
    Wu Q, Pan YB, Su Y, Zou W, Xu F, Sun T, Grisham MP, Yang S, Xu L, Que Y.
    Int J Mol Sci; 2022 Sep 15; 23(18):. PubMed ID: 36142681
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  • 17. Identification and evaluation of PCR reference genes for host and pathogen in sugarcane-Sporisorium scitamineum interaction system.
    Huang N, Ling H, Liu F, Su Y, Su W, Mao H, Zhang X, Wang L, Chen R, Que Y.
    BMC Genomics; 2018 Jun 19; 19(1):479. PubMed ID: 29914370
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  • 18. Screening of sugarcane germplasm against Sporisorium scitamineum and its effects on setts germination and tillering.
    Rajput MA, Iqbal O, Syed RN, Elsalahy HH, Rajput NA, Ahmad S, Khan R, Khanzada MA, Younas MU, Qasim M, Rizwana H, Almaary KS, Iqbal R, Lodhi AM.
    Sci Rep; 2024 Jun 25; 14(1):14653. PubMed ID: 38918529
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  • 19. A global view of transcriptome dynamics during Sporisorium scitamineum challenge in sugarcane by RNA-Seq.
    Que Y, Su Y, Guo J, Wu Q, Xu L.
    PLoS One; 2014 Jun 25; 9(8):e106476. PubMed ID: 25171065
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  • 20. Comparative proteomics reveals that central metabolism changes are associated with resistance against Sporisorium scitamineum in sugarcane.
    Su Y, Xu L, Wang Z, Peng Q, Yang Y, Chen Y, Que Y.
    BMC Genomics; 2016 Oct 12; 17(1):800. PubMed ID: 27733120
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