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Journal Abstract Search

138 related items for PubMed ID: 26435419

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  • 2. Proteomic analysis and polyamines, ethylene and reactive oxygen species levels of Araucaria angustifolia (Brazilian pine) embryogenic cultures with different embryogenic potential.
    Jo L, Dos Santos AL, Bueno CA, Barbosa HR, Floh EI.
    Tree Physiol; 2014 Jan; 34(1):94-104. PubMed ID: 24327423
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  • 6. Mps1 (Monopolar Spindle 1) Protein Inhibition Affects Cellular Growth and Pro-Embryogenic Masses Morphology in Embryogenic Cultures of Araucaria angustifolia (Araucariaceae).
    Douétts-Peres JC, Cruz MA, Reis RS, Heringer AS, de Oliveira EA, Elbl PM, Floh EI, Silveira V, Santa-Catarina C.
    PLoS One; 2016 Jan; 11(4):e0153528. PubMed ID: 27064899
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  • 7. Changes in the 2-DE protein profile during zygotic embryogenesis in the Brazilian Pine (Araucaria angustifolia).
    Balbuena TS, Silveira V, Junqueira M, Dias LL, Santa-Catarina C, Shevchenko A, Floh EI.
    J Proteomics; 2009 Apr 13; 72(3):337-52. PubMed ID: 19367732
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  • 8. Comparative proteomic analysis of auxin-induced embryogenic and nonembryogenic tissues of the solanaceous tree Cyphomandra betacea (Tamarillo).
    Correia S, Vinhas R, Manadas B, Lourenço AS, Veríssimo P, Canhoto JM.
    J Proteome Res; 2012 Mar 02; 11(3):1666-75. PubMed ID: 22309186
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  • 12. Comparative quantitative proteomic analysis of embryogenic and non-embryogenic calli in maize suggests the role of oxylipins in plant totipotency.
    Varhaníková M, Uvackova L, Skultety L, Pretova A, Obert B, Hajduch M.
    J Proteomics; 2014 Jun 02; 104():57-65. PubMed ID: 24530378
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  • 13. Elucidation of the polyamine biosynthesis pathway during Brazilian pine (Araucaria angustifolia) seed development.
    de Oliveira LF, Elbl P, Navarro BV, Macedo AF, Dos Santos AL, Floh EI, Cooke J.
    Tree Physiol; 2017 Jan 31; 37(1):116-130. PubMed ID: 28175909
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  • 14. The metabolic response of Araucaria angustifolia embryogenic cells to heat stress is associated with their maturation potential.
    Kaziuk FD, Furlanetto ALDM, Dos Santos ALW, Floh EIS, Donatti L, Merlin Rocha ME, Fortes F, Martinez GR, Cadena SMSC.
    Funct Plant Biol; 2023 Dec 31; 50(12):1010-1027. PubMed ID: 37743049
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  • 16. Differential proteome analysis during early somatic embryogenesis in Musa spp. AAA cv. Grand Naine.
    Kumaravel M, Uma S, Backiyarani S, Saraswathi MS, Vaganan MM, Muthusamy M, Sajith KP.
    Plant Cell Rep; 2017 Jan 31; 36(1):163-178. PubMed ID: 27807644
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  • 17. Proteomic Analysis of S-Nitrosation Sites During Somatic Embryogenesis in Brazilian Pine, Araucaria angustifolia (Bertol.) Kuntze.
    Borges Araujo AJ, Cerruti GV, Zuccarelli R, Rodriguez Ruiz M, Freschi L, Singh R, Moerschbacher BM, Floh EIS, Wendt Dos Santos AL.
    Front Plant Sci; 2022 Jan 31; 13():902068. PubMed ID: 35845673
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  • 18. Label-Free Quantitative Proteomics of Embryogenic and Non-Embryogenic Callus during Sugarcane Somatic Embryogenesis.
    Heringer AS, Barroso T, Macedo AF, Santa-Catarina C, Souza GH, Floh EI, de Souza-Filho GA, Silveira V.
    PLoS One; 2015 Jan 31; 10(6):e0127803. PubMed ID: 26035435
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  • 19. The proteome profile of embryogenic cell suspensions of Coffea arabica L.
    Campos NA, Paiva LV, Panis B, Carpentier SC.
    Proteomics; 2016 Mar 31; 16(6):1001-5. PubMed ID: 27001127
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  • 20. Physiology and proteomics of the water-deficit stress response in three contrasting peanut genotypes.
    Kottapalli KR, Rakwal R, Shibato J, Burow G, Tissue D, Burke J, Puppala N, Burow M, Payton P.
    Plant Cell Environ; 2009 Apr 31; 32(4):380-407. PubMed ID: 19143990
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