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Advances in Botanical Research

  • 1st Edition, Volume 104 - July 1, 2022
  • Latest edition
  • Editor: Richard Sibout
  • Language: English

Lignin is a large phenolic polymer found in the cell wall of most land plants. Volume ABR104, provides in-depth reviews on the most recent discoveries in the field. It revisits th… Read more

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Description

Lignin is a large phenolic polymer found in the cell wall of most land plants. Volume ABR104, provides in-depth reviews on the most recent discoveries in the field. It revisits the lignin paradigm and reviews the occurrence of unconventional lignin precursors that are derived from both the monolignol biosynthetic pathway, and from other polyphenolic biosynthetic pathways. The volume encompasses the most recent data about the regulation of lignin biosynthesis in a environment of polysaccharides, the importance of oxidases, the pivotal role of feruloylation and coumaroylation of the cell wall both in the lignified stem and in the cereal grain. The volume gives an important part to the transcriptional regulation at different scales. At last, vibrational and fluorescence microscopy methods to characterize the lignin-decorated cell wall as well the most recent bioengineering approaches towards lignin modification are reviewed.

Key features

  • The paradigm of lignin polymer expanded to new discovered compounds
  • The fluorescence and vibrational microscopy to detect lignin and phenolics
  • Spatial and timed transcriptional regulation of lignification

Readership

Academic students and professors, researchers

Table of contents

Preface
Richard Sibout

1. Unconventional lignin monomers: Extension of the lignin paradigm
José C. Del Río, Jorge Rencoret, Ana Gutiérrez, Hoon Kim and John Ralph

2. Lignin synthesis and bioengineering approaches toward lignin modification
Chang-Jun Liu and Aymerick Eudes

3. Glycobiology of the plant secondary cell wall dynamics
Marc Behr, Mondher El Jaziri and Marie Baucher

4. Oxidative enzymes in lignification
Natalie Hoffmann, Eliana Gonzales-Vigil, Shawn D. Mansfield and A. Lacey Samuels

5. Ferulic and coumaric acids in the cereal grain: Occurrence, biosynthesis, biological functions
Anne Laure Chateigner-Boutin and Luc Saulnier

6. In situ imaging of lignin and related compounds by Raman, Fourier-transform infrared (FTIR) and fluorescence microscopy
Fabienne Guillon, Notburga Gierlinger, Marie-Françoise Devaux and András Gorzsás

7. Spatio-temporal regulation of lignification
Maxime Chantreau and Hannele Tuominen

8. Transcriptional regulation of secondary cell wall formation and lignification
Steven G. Hussey

9. Regulation of secondary cell wall lignification by abiotic and biotic constraints
Ines Hadj Bachir, Raphael Ployet, Chantal Teulières, Hua Cassan-Wang, Fabien Mounet and Jacqueline Grima-Pettenati

Product details

  • Edition: 1
  • Latest edition
  • Volume: 104
  • Published: July 1, 2022
  • Language: English

About the editor

RS

Richard Sibout

Richard Sibout works as a researcher at the National Research Institute for Agriculture, Food and the Environment (INRAE) in France. After studying plant biology and forestry, he began his career in a plant laboratory at Versailles (France) under the supervision of Dr. Lise Jouanin and Prof. Catherine Lapierre. Fascinated by science, Richard moved to Canada and obtained a PhD in forest biology from the Université Laval (Québec, Canada) under the scientific direction of Dr. Armand Séguin and Prof. John Mackay in 2005. During his PhD, he mainly focused his research on the last step of monolignol biosynthesis in Arabidopsis thaliana. After a short stay at McGill University in Montreal (Canada), he moved to the University of Lausanne in Switzerland as a postdoc in Prof. Christian Hardtke’s research group. During almost four years, Richard Sibout worked on different projects including root development, photobiology, and plant secondary development. In 2011, he took over the leadership of the “secondary cell wall » research team at the INRAE Laboratory IJPB (Versailles, France) and studied lignin biosynthesis both in Arabidopsis and Brachypodium, a new model for grasses. With the help of his colleagues, he developed a large collection of Brachypodium mutants useful for forward and reverse genetic studies. He established several fruitful international collaborations, including with the Joint Genome Institute (Berkeley, USA) to promote Brachypodium resources. He was also hosted as a visiting researcher at the University of British Columbia (Vancouver, Canada) in the Lacey Samuel’s lab from 2015 to 2017. Since February 2018, Richard Sibout is part of the team “Plant Cell Wall and Polymers” (PVPP) of the BIA Unit (INRAE, Nantes, France). As a biologist specialized in Brachypodium genomics and in plant cell wall formation, and particularly in lignification mechanisms, he is currently studying the factors responsible for plant biomass composition and structure, in order to understand and improve lignocellulose digestibility for biorefinery and feedstock.
Affiliations and expertise
Institut National de Recherche pour l’Agriculture, l’alimentation et l’Environnement (INRAE)

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