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181 related items for PubMed ID: 20656797

  • 1. Changes in growth and cell wall extensibility of maize silks following pollination.
    Kapu NU, Cosgrove DJ.
    J Exp Bot; 2010 Sep; 61(14):4097-107. PubMed ID: 20656797
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  • 2. Identification of genes specifically or preferentially expressed in maize silk reveals similarity and diversity in transcript abundance of different dry stigmas.
    Xu XH, Chen H, Sang YL, Wang F, Ma JP, Gao XQ, Zhang XS.
    BMC Genomics; 2012 Jul 02; 13():294. PubMed ID: 22748054
    [Abstract] [Full Text] [Related]

  • 3. Sporophytic control of pollen tube growth and guidance in maize.
    Lausser A, Kliwer I, Srilunchang KO, Dresselhaus T.
    J Exp Bot; 2010 Mar 02; 61(3):673-82. PubMed ID: 19926683
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  • 4. Matrix solubilization and cell wall weakening by β-expansin (group-1 allergen) from maize pollen.
    Tabuchi A, Li LC, Cosgrove DJ.
    Plant J; 2011 Nov 02; 68(3):546-59. PubMed ID: 21749508
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  • 5. A calcium-dependent protein kinase, ZmCPK32, specifically expressed in maize pollen to regulate pollen tube growth.
    Li J, Li Y, Deng Y, Chen P, Feng F, Chen W, Zhou X, Wang Y.
    PLoS One; 2018 Nov 02; 13(5):e0195787. PubMed ID: 29813101
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  • 8. Ethylene synthesis and auxin augmentation in pistil tissues are important for egg cell differentiation after pollination in maize.
    Mól R, Filek M, Machackova I, Matthys-Rochon E.
    Plant Cell Physiol; 2004 Oct 02; 45(10):1396-405. PubMed ID: 15564523
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  • 9. Pollen-Expressed Leucine-Rich Repeat Extensins Are Essential for Pollen Germination and Growth.
    Wang X, Wang K, Yin G, Liu X, Liu M, Cao N, Duan Y, Gao H, Wang W, Ge W, Wang J, Li R, Guo Y.
    Plant Physiol; 2018 Mar 02; 176(3):1993-2006. PubMed ID: 29269573
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  • 12. Characterization of feruloyl esterases in maize pollen.
    de O Buanafina MM, Fernanda Buanafina M, Laremore T, Shearer EA, Fescemyer HW.
    Planta; 2019 Dec 02; 250(6):2063-2082. PubMed ID: 31576447
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  • 13. Transcriptome profiling provides insights into the molecular mechanisms of maize kernel and silk development.
    Li T, Wang Y, Shi Y, Gou X, Yang B, Qu J, Zhang X, Xue J, Xu S.
    BMC Genom Data; 2021 Aug 21; 22(1):28. PubMed ID: 34418952
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  • 15. Growth maintenance of the maize primary root at low water potentials involves increases in cell-wall extension properties, expansin activity, and wall susceptibility to expansins.
    Wu Y, Sharp RE, Durachko DM, Cosgrove DJ.
    Plant Physiol; 1996 Jul 21; 111(3):765-72. PubMed ID: 11536740
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  • 16. Transcript profile analyses of maize silks reveal effective activation of genes involved in microtubule-based movement, ubiquitin-dependent protein degradation, and transport in the pollination process.
    Xu XH, Wang F, Chen H, Sun W, Zhang XS.
    PLoS One; 2013 Jul 21; 8(1):e53545. PubMed ID: 23301084
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  • 17. Transcriptional evidence for inferred pattern of pollen tube-stigma metabolic coupling during pollination.
    Yue X, Gao XQ, Wang F, Dong Y, Li X, Zhang XS.
    PLoS One; 2014 Jul 21; 9(9):e107046. PubMed ID: 25215523
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  • 18. The cell wall pectic polymer rhamnogalacturonan-II is required for proper pollen tube elongation: implications of a putative sialyltransferase-like protein.
    Dumont M, Lehner A, Bouton S, Kiefer-Meyer MC, Voxeur A, Pelloux J, Lerouge P, Mollet JC.
    Ann Bot; 2014 Oct 21; 114(6):1177-88. PubMed ID: 24825296
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  • 19. Progressive inhibition by water deficit of cell wall extensibility and growth along the elongation zone of maize roots is related to increased lignin metabolism and progressive stelar accumulation of wall phenolics.
    Fan L, Linker R, Gepstein S, Tanimoto E, Yamamoto R, Neumann PM.
    Plant Physiol; 2006 Feb 21; 140(2):603-12. PubMed ID: 16384904
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  • 20. Maize pollen coat xylanase facilitates pollen tube penetration into silk during sexual reproduction.
    Suen DF, Huang AH.
    J Biol Chem; 2007 Jan 05; 282(1):625-36. PubMed ID: 17062571
    [Abstract] [Full Text] [Related]

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