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Journal Abstract Search

209 related items for PubMed ID: 26296963

  • 1. Nitrogen-Fixing Nodules Are an Important Source of Reduced Sulfur, Which Triggers Global Changes in Sulfur Metabolism in Lotus japonicus.
    Kalloniati C, Krompas P, Karalias G, Udvardi MK, Rennenberg H, Herschbach C, Flemetakis E.
    Plant Cell; 2015 Sep; 27(9):2384-400. PubMed ID: 26296963
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  • 4. The SNARE protein SYP71 expressed in vascular tissues is involved in symbiotic nitrogen fixation in Lotus japonicus nodules.
    Hakoyama T, Oi R, Hazuma K, Suga E, Adachi Y, Kobayashi M, Akai R, Sato S, Fukai E, Tabata S, Shibata S, Wu GJ, Hase Y, Tanaka A, Kawaguchi M, Kouchi H, Umehara Y, Suganuma N.
    Plant Physiol; 2012 Oct; 160(2):897-905. PubMed ID: 22858633
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  • 5. Spontaneous symbiotic reprogramming of plant roots triggered by receptor-like kinases.
    Ried MK, Antolín-Llovera M, Parniske M.
    Elife; 2014 Nov 25; 3():. PubMed ID: 25422918
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  • 6. Quantitative phosphoproteomic analyses provide evidence for extensive phosphorylation of regulatory proteins in the rhizobia-legume symbiosis.
    Zhang Z, Ke D, Hu M, Zhang C, Deng L, Li Y, Li J, Zhao H, Cheng L, Wang L, Yuan H.
    Plant Mol Biol; 2019 Jun 25; 100(3):265-283. PubMed ID: 30989446
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  • 8. Systemic long-distance sulfur transport and its role in symbiotic root nodule protein turnover.
    Siegl A, Afjehi-Sadat L, Wienkoop S.
    J Plant Physiol; 2024 Jun 25; 297():154260. PubMed ID: 38701679
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  • 10. A shared gene drives lateral root development and root nodule symbiosis pathways in Lotus.
    Soyano T, Shimoda Y, Kawaguchi M, Hayashi M.
    Science; 2019 Nov 22; 366(6468):1021-1023. PubMed ID: 31754003
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  • 11. Nitric Oxide Detoxification by Mesorhizobium loti Affects Root Nodule Symbiosis with Lotus japonicus.
    Fukudome M, Shimokawa Y, Hashimoto S, Maesako Y, Uchi-Fukudome N, Niihara K, Osuki KI, Uchiumi T.
    Microbes Environ; 2021 Nov 22; 36(3):. PubMed ID: 34470944
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  • 12. Inside out: root cortex-localized LHK1 cytokinin receptor limits epidermal infection of Lotus japonicus roots by Mesorhizobium loti.
    Miri M, Janakirama P, Huebert T, Ross L, McDowell T, Orosz K, Markmann K, Szczyglowski K.
    New Phytol; 2019 May 22; 222(3):1523-1537. PubMed ID: 30636324
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  • 13. An Alkane Sulfonate Monooxygenase Is Required for Symbiotic Nitrogen Fixation by Bradyrhizobium diazoefficiens (syn. Bradyrhizobium japonicum) USDA110T.
    Speck JJ, James EK, Sugawara M, Sadowsky MJ, Gyaneshwar P.
    Appl Environ Microbiol; 2019 Dec 15; 85(24):. PubMed ID: 31562172
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  • 14. Lotus japonicus ARPC1 is required for rhizobial infection.
    Hossain MS, Liao J, James EK, Sato S, Tabata S, Jurkiewicz A, Madsen LH, Stougaard J, Ross L, Szczyglowski K.
    Plant Physiol; 2012 Oct 15; 160(2):917-28. PubMed ID: 22864583
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  • 17. Cessation of photosynthesis in Lotus japonicus leaves leads to reprogramming of nodule metabolism.
    Tsikou D, Kalloniati C, Fotelli MN, Nikolopoulos D, Katinakis P, Udvardi MK, Rennenberg H, Flemetakis E.
    J Exp Bot; 2013 Mar 15; 64(5):1317-32. PubMed ID: 23404899
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  • 18. Two microRNAs linked to nodule infection and nitrogen-fixing ability in the legume Lotus japonicus.
    De Luis A, Markmann K, Cognat V, Holt DB, Charpentier M, Parniske M, Stougaard J, Voinnet O.
    Plant Physiol; 2012 Dec 15; 160(4):2137-54. PubMed ID: 23071252
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  • 20. LjABCB1, an ATP-binding cassette protein specifically induced in uninfected cells of Lotus japonicus nodules.
    Takanashi K, Sugiyama A, Sato S, Tabata S, Yazaki K.
    J Plant Physiol; 2012 Feb 15; 169(3):322-6. PubMed ID: 22209217
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