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Literature DB >> 20371107

Wood formation in Angiosperms.

Annabelle Déjardin¹, Françoise Laurans, Dominique Arnaud, Christian Breton, Gilles Pilate, Jean-Charles Leplé.

Abstract

Wood formation is a complex biological process, involving five major developmental steps, including (1) cell division from a secondary meristem called the vascular cambium, (2) cell expansion (cell elongation and radial enlargement), (3) secondary cell wall deposition, (4) programmed cell death, and (5) heartwood formation. Thanks to the development of genomic studies in woody species, as well as genetic engineering, recent progress has been made in the understanding of the molecular mechanisms underlying wood formation. In this review, we will focus on two different aspects, the lignification process and the control of microfibril angle in the cell wall of wood fibres, as they are both key features of wood material properties. Copyright (c) 2010 Académie des sciences. Published by Elsevier SAS. All rights reserved.

Entities: Species

Mesh：

Substances：
Lignin

Year: 2010 PMID： 20371107 DOI： 10.1016/j.crvi.2010.01.010

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

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Cited

21 in total

1. Lignin composition and structure in young versus adult Eucalyptus globulus plants.

Authors: Jorge Rencoret; Ana Gutiérrez; Lidia Nieto; J Jiménez-Barbero; Craig B Faulds; Hoon Kim; John Ralph; Angel T Martínez; José C Del Río
Journal: Plant Physiol Date: 2010-11-23 Impact factor: 8.340

2. Cell Wall Remodeling during Wood Development.

Authors: Madeleine Seale
Journal: Plant Physiol Date: 2020-04 Impact factor: 8.340

3. Gain-of-function mutation of AtDICE1, encoding a putative endoplasmic reticulum-localized membrane protein, causes defects in anisotropic cell elongation by disturbing cell wall integrity in Arabidopsis.

Authors: Phi-Yen Le; Hyung-Woo Jeon; Min-Ha Kim; Eung-Jun Park; Hyoshin Lee; Indeok Hwang; Kyung-Hwan Han; Jae-Heung Ko
Journal: Ann Bot Date: 2018-06-28 Impact factor: 4.357

4. Brassinosteroid signaling restricts root lignification by antagonizing SHORT-ROOT function in Arabidopsis.

Authors: Meng Li; Pengxue Li; Chunhua Wang; Huimin Xu; Mengxue Wang; Yanli Wang; Xufang Niu; Mengyuan Xu; Hong Wang; Yaxin Qin; Wenqiang Tang; Mingyi Bai; Wenfei Wang; Shuang Wu
Journal: Plant Physiol Date: 2022-09-28 Impact factor: 8.005

5. Gibberellin mediates the development of gelatinous fibres in the tension wood of inclined Acacia mangium seedlings.

Authors: Widyanto Dwi Nugroho; Satoshi Nakaba; Yusuke Yamagishi; Shahanara Begum; Sri Nugroho Marsoem; Jae-Heung Ko; Hyun-O Jin; Ryo Funada
Journal: Ann Bot Date: 2013-09-15 Impact factor: 4.357

6. Gibberellin is required for the formation of tension wood and stem gravitropism in Acacia mangium seedlings.

Authors: Widyanto Dwi Nugroho; Yusuke Yamagishi; Satoshi Nakaba; Shiori Fukuhara; Shahanara Begum; Sri Nugroho Marsoem; Jae-Heung Ko; Hyun-O Jin; Ryo Funada
Journal: Ann Bot Date: 2012-07-26 Impact factor: 4.357

7. Construction of co-expression network based on natural expression variation of xylogenesis-related transcripts in Eucalyptus tereticornis.

Authors: Veeramuthu Dharanishanthi; Modhumita Ghosh Dasgupta
Journal: Mol Biol Rep Date: 2016-07-27 Impact factor: 2.316