Literature DB >> 15587080

Lignification and tension wood.

Gilles Pilate1, Brigitte Chabbert, Bernard Cathala, Arata Yoshinaga, Jean-Charles Leplé, Françoise Laurans, Catherine Lapierre, Katia Ruel.   

Abstract

Hardwood trees are able to reorient their axes owing to tension wood differentiation. Tension wood is characterised by important ultrastructural modifications, such as the occurrence in a number of species, of an extra secondary wall layer, named gelatinous layer or G-layer, mainly constituted of cellulose microfibrils oriented nearly parallel to the fibre axis. This G-layer appears directly involved in the definition of tension wood mechanical properties. This review gathers the data available in the literature about lignification during tension wood formation. Potential roles for lignin in tension wood formation are inferred from biochemical, anatomical and mechanical studies, from the hypotheses proposed to describe tension wood function and from data coming from new research areas such as functional genomics.

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Year:  2004        PMID: 15587080     DOI: 10.1016/j.crvi.2004.07.006

Source DB:  PubMed          Journal:  C R Biol        ISSN: 1631-0691            Impact factor:   1.583


  28 in total

1.  Maturation stress generation in poplar tension wood studied by synchrotron radiation microdiffraction.

Authors:  Bruno Clair; Tancrède Alméras; Gilles Pilate; Delphine Jullien; Junji Sugiyama; Christian Riekel
Journal:  Plant Physiol       Date:  2010-11-10       Impact factor: 8.340

Review 2.  Secondary cell-wall assembly in flax phloem fibres: role of galactans.

Authors:  Tatyana Gorshkova; Claudine Morvan
Journal:  Planta       Date:  2005-12-16       Impact factor: 4.116

3.  Deposition and organisation of cell wall polymers during maturation of poplar tension wood by FTIR microspectroscopy.

Authors:  Shan-Shan Chang; Lennart Salmén; Anne-Mari Olsson; Bruno Clair
Journal:  Planta       Date:  2013-10-27       Impact factor: 4.116

4.  Maturation stress generation in poplar tension wood studied by synchrotron radiation microdiffraction.

Authors:  Bruno Clair; Tancrède Alméras; Gilles Pilate; Delphine Jullien; Junji Sugiyama; Christian Riekel
Journal:  Plant Physiol       Date:  2010-01-13       Impact factor: 8.340

5.  Xyloglucan: the molecular muscle of trees.

Authors:  Ewa J Mellerowicz; Peter Immerzeel; Takahisa Hayashi
Journal:  Ann Bot       Date:  2008-08-30       Impact factor: 4.357

6.  Ultra-structural organisation of cell wall polymers in normal and tension wood of aspen revealed by polarisation FTIR microspectroscopy.

Authors:  Anne-Mari Olsson; Ingela Bjurhager; Lorenz Gerber; Björn Sundberg; Lennart Salmén
Journal:  Planta       Date:  2011-02-22       Impact factor: 4.116

7.  Relative deposition of xylan and 8-5'-linked lignin structure in Chamaecyparis obtusa, as revealed by double immunolabeling by using monoclonal antibodies.

Authors:  Shingo Kiyoto; Arata Yoshinaga; Keiji Takabe
Journal:  Planta       Date:  2014-10-01       Impact factor: 4.116

8.  Lignin content in natural Populus variants affects sugar release.

Authors:  Michael H Studer; Jaclyn D DeMartini; Mark F Davis; Robert W Sykes; Brian Davison; Martin Keller; Gerald A Tuskan; Charles E Wyman
Journal:  Proc Natl Acad Sci U S A       Date:  2011-03-28       Impact factor: 11.205

9.  Feeling stretched or compressed? The multiple mechanosensitive responses of wood formation to bending.

Authors:  Jeanne Roignant; Éric Badel; Nathalie Leblanc-Fournier; Nicole Brunel-Michac; Julien Ruelle; Bruno Moulia; Mélanie Decourteix
Journal:  Ann Bot       Date:  2018-05-11       Impact factor: 4.357

10.  Label-free in situ imaging of lignification in the cell wall of low lignin transgenic Populus trichocarpa.

Authors:  M Schmidt; A M Schwartzberg; P N Perera; A Weber-Bargioni; A Carroll; P Sarkar; E Bosneaga; J J Urban; J Song; M Y Balakshin; E A Capanema; M Auer; P D Adams; V L Chiang; P James Schuck
Journal:  Planta       Date:  2009-06-13       Impact factor: 4.116
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