scholarly journals Search for evolutionary roots of land plant arabinogalactan‐proteins in charophytes: presence of a rhamnogalactan‐protein in Spirogyra pratensis (Zygnematophyceae)

2021 ◽  
Author(s):  
Lukas Pfeifer ◽  
Jon Utermöhlen ◽  
Kathrin Happ ◽  
Charlotte Permann ◽  
Andreas Holzinger ◽  
...  
Keyword(s):  
Arabinogalactan Proteins ◽  
Land Plant

scholarly journals Arabinogalactan-Proteins from the Liverwort Marchantia polymorpha L., a Member of a Basal Land Plant Lineage, Are Structurally Different to Those of Angiosperms

Plants ◽  
2019 ◽  
Vol 8 (11) ◽  
pp. 460 ◽  
Author(s):  
Happ ◽  
Classen
Keyword(s):  
Cell Wall ◽  
Plant Cell Wall ◽  
Evolutionary Process ◽  
Arabinogalactan Proteins ◽  
Land Plant ◽  
Marchantia Polymorpha ◽  
Special Focus ◽  
Terrestrial Life ◽  
Taxonomic Groups

The thalloid liverwort Marchantia polymorpha as a member of a basal land plant lineage has to cope with the challenge of terrestrial life. Obviously, the plant cell wall has been strongly involved in the outstanding evolutionary process of water-to-land-transition. AGPs are signaling glycoproteins of the cell wall, which seem to be ubiquitous in seed plants and might play a role in adaption to abiotic and biotic stress situations. Therefore, we investigated the cell wall composition of Marchantia polymorpha with special focus on structural characterization of arabinogalactan-proteins. The Marchantia AGP shows typical features known from seed plant AGPs like precipitation with β-glucosyl-Yariv’s reagent, a protein moiety with hydroxyproline and a carbohydrate part with 1,3,6-linked galactose and terminal arabinose residues. On the other hand, striking differences to AGPs of angiosperms are the occurrence of terminal 3-O-methyl-rhamnose and a highly branched galactan lacking appreciable amounts of 1,6-linked galactose. Binding of different AGP-antibodies (JIM13, KM1, LM2, LM6, LM14, LM26, and MAC207) to Marchantia AGP was investigated and confirmed structural differences between liverwort and angiosperm AGP, possibly due to deviating functions of these signaling molecules in the different taxonomic groups.

LEAVING THEIR MARK: BIOLOGICALLY-INDUCED MINERAL WEATHERING AND SOIL DEVELOPMENT IN ANCIENT LAND-PLANT ECOSYSTEMS

2016 ◽  
Author(s):  
Ria L. Mitchell ◽  
◽  
Javier Cuadros ◽  
Silvia Pressel ◽  
Jeffrey G. Duckett ◽  
...  
Keyword(s):  
Soil Development ◽  
Land Plant ◽  
Mineral Weathering

scholarly journals From tree to architecture: how functional morphology of arborescence connects plant biology, evolution and physics

2021 ◽  
Author(s):  
Anita Roth-Nebelsick ◽  
Tatiana Miranda ◽  
Martin Ebner ◽  
Wilfried Konrad ◽  
Christopher Traiser
Keyword(s):  
Land Plant ◽  
Plant Evolution ◽  
Ecological Niches ◽  
Long Distance ◽  
Ongoing Research ◽  
Long Distance Transport ◽  
Theoretical Approaches ◽  
Trade Offs ◽  
Interfacial Physics ◽  
Plant Water Transport

AbstractTrees are the fundamental element of forest ecosystems, made possible by their mechanical qualities and their highly sophisticated conductive tissues. The evolution of trees, and thereby the evolution of forests, were ecologically transformative and affected climate and biogeochemical cycles fundamentally. Trees also offer a substantial amount of ecological niches for other organisms, such as epiphytes, creating a vast amount of habitats. During land plant evolution, a variety of different tree constructions evolved and their constructional principles are a subject of ongoing research. Understanding the “natural construction” of trees benefits strongly from methods and approaches from physics and engineering. Plant water transport is a good example for the ongoing demand for interdisciplinary efforts to unravel form-function relationships on vastly differing scales. Identification of the unique mechanism of water long-distance transport requires a solid basis of interfacial physics and thermodynamics. Studying tree functions by using theoretical approaches is, however, not a one-sided affair: The complex interrelationships between traits, functionality, trade-offs and phylogeny inspire engineers, physicists and architects until today.

scholarly journals Somatic Embryogenesis in Centaurium erythraea Rafn—Current Status and Perspectives: A Review

Plants ◽  
2020 ◽  
Vol 10 (1) ◽  
pp. 70
Author(s):  
Ana D. Simonović ◽  
Milana M. Trifunović-Momčilov ◽  
Biljana K. Filipović ◽  
Marija P. Marković ◽  
Milica D. Bogdanović ◽  
...  
Keyword(s):  
Somatic Embryogenesis ◽  
Somatic Embryos ◽  
Developmental Plasticity ◽  
Leaf Explants ◽  
Arabinogalactan Proteins ◽  
Culture Conditions ◽  
Current Status ◽  
Special Focus ◽  
Root Explants ◽  
Centaurium Erythraea

Centaurium erythraea (centaury) is a traditionally used medicinal plant, with a spectrum of secondary metabolites with confirmed healing properties. Centaury is an emerging model in plant developmental biology due to its vigorous regenerative potential and great developmental plasticity when cultured in vitro. Hereby, we review nearly two decades of research on somatic embryogenesis (SE) in centaury. During SE, somatic cells are induced by suitable culture conditions to express their totipotency, acquire embryogenic characteristics, and eventually give rise to somatic embryos. When SE is initiated from centaury root explants, the process occurs spontaneously (on hormone-free medium), directly (without the callusing phase), and the somatic embryos are of unicellular origin. SE from leaf explants has to be induced by plant growth regulators and is indirect (preceded by callusing). Histological observations and culture conditions are compared in these two systems. The changes in antioxidative enzymes were followed during SE from the leaf explants. Special focus is given to the role of arabinogalactan proteins during SE, which were analyzed using a variety of approaches. The newest and preliminary results, including centaury transcriptome, novel potential SE markers, and novel types of arabinogalactan proteins, are discussed as perspectives of centaury research.

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