Axial changes in apoplast properties in the elongation zone of maize mesocotyl

[1]  S. Medvedev Mechanisms and physiological role of polarity in plants , 2012, Russian Journal of Plant Physiology.

[2]  J. Slovin,et al.  Auxin Biosynthesis and Metabolism , 2010 .

[3]  S. Maiale,et al.  Polyamine oxidase activity contributes to sustain maize leaf elongation under saline stress. , 2009, Journal of experimental botany.

[4]  A. Krieger-Liszkay,et al.  In Vivo Cell Wall Loosening by Hydroxyl Radicals during Cress Seed Germination and Elongation Growth1[W][OA] , 2009, Plant Physiology.

[5]  E. Sharova Expansins: Proteins involved in cell wall softening during plant growth and morphogenesis , 2007, Russian Journal of Plant Physiology.

[6]  R. E. Sharp,et al.  Cell Wall Proteome in the Maize Primary Root Elongation Zone. II. Region-Specific Changes in Water Soluble and Lightly Ionically Bound Proteins under Water Deficit1[W][OA] , 2007, Plant Physiology.

[7]  P. Schopfer,et al.  Biomechanics of plant growth. , 2006, American journal of botany.

[8]  D. Davies,et al.  Peroxidase-dependent apoplastic oxidative burst in Arabidopsis required for pathogen resistance. , 2006, The Plant journal : for cell and molecular biology.

[9]  Jianhua Zhang,et al.  Mitogen-Activated Protein Kinase Is Involved in Abscisic Acid-Induced Antioxidant Defense and Acts Downstream of Reactive Oxygen Species Production in Leaves of Maize Plants1 , 2006, Plant Physiology.

[10]  N. Sakurai Dynamic function and regulation of apoplast in the plant body , 1998, Journal of Plant Research.

[11]  P. Schopfer,et al.  Production of Reactive Oxygen Intermediates (O2˙−, H2O2, and ˙OH) by Maize Roots and Their Role in Wall Loosening and Elongation Growth , 2004, Plant Physiology.

[12]  Catherine Rayon,et al.  Mixed Linkage (1 3),(1 4)- -D-Glucans of Grasses , 2004 .

[13]  P. Schopfer,et al.  Evidence that hydroxyl radicals mediate auxin-induced extension growth , 2002, Planta.

[14]  P. Schopfer,et al.  Light-controlled growth of the maize seedling mesocotyl: Mechanical cell-wall changes in the elongation zone and related changes in lignification , 2001 .

[15]  J. Gebicki,et al.  A critical evaluation of the effect of sorbitol on the ferric-xylenol orange hydroperoxide assay. , 2000, Analytical biochemistry.

[16]  P. Mariottini,et al.  Isolation and characterization of three polyamine oxidase genes from Zea mays. , 2000 .

[17]  L. M. Lagrimini,et al.  Oxidation of indole-3-acetic acid by dioxygen catalysed by plant peroxidases: specificity for the enzyme structure. , 1999, The Biochemical journal.

[18]  Brown,et al.  Localized changes in peroxidase activity accompany hydrogen peroxide generation during the development of a nonhost hypersensitive reaction in lettuce , 1998, Plant physiology.

[19]  M. M. Parvez,et al.  White light promotes the formation of diferulic acid in maize coleoptile cell walls by enhancing PAL activity , 1997 .

[20]  N. Carpita,et al.  Structural models of primary cell walls in flowering plants: consistency of molecular structure with the physical properties of the walls during growth. , 1993, The Plant journal : for cell and molecular biology.

[21]  R. Cleland Auxin and Cell Elongation , 1987 .

[22]  D. Cosgrove,et al.  Solutes in the free space of growing stem tissues. , 1983, Plant physiology.

[23]  M. Iino,et al.  Sources of Free IAA in the Mesocotyl of Etiolated Maize Seedlings. , 1982, Plant physiology.