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Journal Abstract Search

427 related items for PubMed ID: 24170127

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  • 3. Tissue-Specific Ubiquitination by IPA1 INTERACTING PROTEIN1 Modulates IPA1 Protein Levels to Regulate Plant Architecture in Rice.
    Wang J, Yu H, Xiong G, Lu Z, Jiao Y, Meng X, Liu G, Chen X, Wang Y, Li J.
    Plant Cell; 2017 Apr; 29(4):697-707. PubMed ID: 28298520
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  • 4. The Rice Circadian Clock Regulates Tiller Growth and Panicle Development Through Strigolactone Signaling and Sugar Sensing.
    Wang F, Han T, Song Q, Ye W, Song X, Chu J, Li J, Chen ZJ.
    Plant Cell; 2020 Oct; 32(10):3124-3138. PubMed ID: 32796126
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  • 5. A natural tandem array alleviates epigenetic repression of IPA1 and leads to superior yielding rice.
    Zhang L, Yu H, Ma B, Liu G, Wang J, Wang J, Gao R, Li J, Liu J, Xu J, Zhang Y, Li Q, Huang X, Xu J, Li J, Qian Q, Han B, He Z, Li J.
    Nat Commun; 2017 Mar 20; 8():14789. PubMed ID: 28317902
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  • 6. Tillering and panicle branching genes in rice.
    Liang WH, Shang F, Lin QT, Lou C, Zhang J.
    Gene; 2014 Mar 01; 537(1):1-5. PubMed ID: 24345551
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  • 7. Loose Plant Architecture1, an INDETERMINATE DOMAIN protein involved in shoot gravitropism, regulates plant architecture in rice.
    Wu X, Tang D, Li M, Wang K, Cheng Z.
    Plant Physiol; 2013 Jan 01; 161(1):317-29. PubMed ID: 23124325
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  • 8. A single transcription factor promotes both yield and immunity in rice.
    Wang J, Zhou L, Shi H, Chern M, Yu H, Yi H, He M, Yin J, Zhu X, Li Y, Li W, Liu J, Wang J, Chen X, Qing H, Wang Y, Liu G, Wang W, Li P, Wu X, Zhu L, Zhou JM, Ronald PC, Li S, Li J, Chen X.
    Science; 2018 Sep 07; 361(6406):1026-1028. PubMed ID: 30190406
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  • 11. Pleiotropic function of the SQUAMOSA PROMOTER-BINDING PROTEIN-LIKE gene TaSPL14 in wheat plant architecture.
    Cao J, Liu K, Song W, Zhang J, Yao Y, Xin M, Hu Z, Peng H, Ni Z, Sun Q, Du J.
    Planta; 2021 Jan 22; 253(2):44. PubMed ID: 33481116
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  • 12. Fine-tuning of IPA1 transactivation activity by E3 ligase IPI7-mediated non-proteolytic K29-ubiquitination during Magnaporthe oryzae infection.
    Shi H, Yin J, Zhao Z, Yu H, Yi H, Xu L, Tong H, He M, Zhu X, Lu X, Xiong Q, Li W, Tang Y, Hou Q, Song L, Wang L, Chen X, Sun C, Li T, Fan J, Li Y, Qin P, Wang WM, Li S, Chen X, Li J, Wang J.
    Nat Commun; 2024 Sep 01; 15(1):7608. PubMed ID: 39218986
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  • 13. Regulation of OsSPL14 by OsmiR156 defines ideal plant architecture in rice.
    Jiao Y, Wang Y, Xue D, Wang J, Yan M, Liu G, Dong G, Zeng D, Lu Z, Zhu X, Qian Q, Li J.
    Nat Genet; 2010 Jun 01; 42(6):541-4. PubMed ID: 20495565
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  • 14. IPA1 improves drought tolerance by activating SNAC1 in rice.
    Chen F, Zhang H, Li H, Lian L, Wei Y, Lin Y, Wang L, He W, Cai Q, Xie H, Zhang H, Zhang J.
    BMC Plant Biol; 2023 Jan 25; 23(1):55. PubMed ID: 36698063
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  • 15. Genome-wide analyses of direct target genes of four rice NAC-domain transcription factors involved in drought tolerance.
    Chung PJ, Jung H, Choi YD, Kim JK.
    BMC Genomics; 2018 Jan 12; 19(1):40. PubMed ID: 29329517
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  • 16. MiR529a controls plant height, tiller number, panicle architecture and grain size by regulating SPL target genes in rice (Oryza sativa L.).
    Yan Y, Wei M, Li Y, Tao H, Wu H, Chen Z, Li C, Xu JH.
    Plant Sci; 2021 Jan 12; 302():110728. PubMed ID: 33288029
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  • 18. Overexpression of miR164b-resistant OsNAC2 improves plant architecture and grain yield in rice.
    Jiang D, Chen W, Dong J, Li J, Yang F, Wu Z, Zhou H, Wang W, Zhuang C.
    J Exp Bot; 2018 Mar 24; 69(7):1533-1543. PubMed ID: 29365136
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  • 20. Gradual increase of miR156 regulates temporal expression changes of numerous genes during leaf development in rice.
    Xie K, Shen J, Hou X, Yao J, Li X, Xiao J, Xiong L.
    Plant Physiol; 2012 Mar 24; 158(3):1382-94. PubMed ID: 22271747
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