Olivier Leroux1. 1. Botany and Plant Science and Ryan Institute, School of Natural Sciences, National University of Ireland Galway, University Road, Galway, Ireland. Olivier.Leroux@UGent.be
Abstract
BACKGROUND: Collenchyma has remained in the shadow of commercially exploited mechanical tissues such as wood and fibres, and therefore has received little attention since it was first described. However, collenchyma is highly dynamic, especially compared with sclerenchyma. It is the main supporting tissue of growing organs with walls thickening during and after elongation. In older organs, collenchyma may become more rigid due to changes in cell wall composition or may undergo sclerification through lignification of newly deposited cell wall material. While much is known about the systematic and organographic distribution of collenchyma, there is rather less information regarding the molecular architecture and properties of its cell walls. SCOPE AND CONCLUSIONS: This review summarizes several aspects that have not previously been extensively discussed including the origin of the term 'collenchyma' and the history of its typology. As the cell walls of collenchyma largely determine the dynamic characteristics of this tissue, I summarize the current state of knowledge regarding their structure and molecular composition. Unfortunately, to date, detailed studies specifically focusing on collenchyma cell walls have not been undertaken. However, generating a more detailed understanding of the structural and compositional modifications associated with the transition from plastic to elastic collenchyma cell wall properties is likely to provide significant insights into how specific configurations of cell wall polymers result in specific functional properties. This approach, focusing on architecture and functional properties, is likely to provide improved clarity on the controversial definition of collenchyma.
BACKGROUND: Collenchyma has remained in the shadow of commercially exploited mechanical tissues such as wood and fibres, and therefore has received little attention since it was first described. However, collenchyma is highly dynamic, especially compared with sclerenchyma. It is the main supporting tissue of growing organs with walls thickening during and after elongation. In older organs, collenchyma may become more rigid due to changes in cell wall composition or may undergo sclerification through lignification of newly deposited cell wall material. While much is known about the systematic and organographic distribution of collenchyma, there is rather less information regarding the molecular architecture and properties of its cell walls. SCOPE AND CONCLUSIONS: This review summarizes several aspects that have not previously been extensively discussed including the origin of the term 'collenchyma' and the history of its typology. As the cell walls of collenchyma largely determine the dynamic characteristics of this tissue, I summarize the current state of knowledge regarding their structure and molecular composition. Unfortunately, to date, detailed studies specifically focusing on collenchyma cell walls have not been undertaken. However, generating a more detailed understanding of the structural and compositional modifications associated with the transition from plastic to elastic collenchyma cell wall properties is likely to provide significant insights into how specific configurations of cell wall polymers result in specific functional properties. This approach, focusing on architecture and functional properties, is likely to provide improved clarity on the controversial definition of collenchyma.
Authors: Susan E Marcus; Anthony W Blake; Thomas A S Benians; Kieran J D Lee; Callum Poyser; Lloyd Donaldson; Olivier Leroux; Artur Rogowski; Henriette L Petersen; Alisdair Boraston; Harry J Gilbert; William G T Willats; J Paul Knox Journal: Plant J Date: 2010-08-31 Impact factor: 6.417
Authors: Olivier Leroux; J Paul Knox; Frederic Leroux; Alexander Vrijdaghs; Elke Bellefroid; Gaëtan Borgonie; Ronald L L Viane Journal: Ann Bot Date: 2007-09-19 Impact factor: 4.357
Authors: Olivier Leroux; Michaela Eder; Friederike Saxe; John W C Dunlop; Zoë A Popper; Ronald L L Viane; J Paul Knox Journal: Ann Bot Date: 2018-02-12 Impact factor: 4.357
Authors: Grady J Iliff; Ranit Mukherjee; Hope A Gruszewski; David G Schmale Iii; Sunghwan Jung; Jonathan B Boreyko Journal: J R Soc Interface Date: 2022-05-18 Impact factor: 4.293