Arabinogalactan proteins are involved in root hair development in barley

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Arabinogalactan proteins (AGPs) recognized by the LM2, LM14, and MAC207 antibodies are diversely deposited in rhizodermis of barley root hair-producing genotypes, but evenly deposited in rhizodermal cells of the root hairless mutant.

Abstract

The arabinogalactan proteins (AGPs) are involved in a range of plant processes, including cell differentiation and expansion. Here, barley root hair mutants and their wild-type parent cultivars were used, as a model system, to reveal the role of AGPs in root hair development. The treatment of roots with different concentrations of βGlcY (a reagent which binds to all classes of AGPs) inhibited or totally suppressed the development of root hairs in all of the cultivars. Three groups of AGP (recognized by the monoclonal antibodies LM2, LM14, and MAC207) were diversely localized in trichoblasts and atrichoblasts of root hair-producing plants. The relevant epitopes were present in wild-type trichoblast cell walls and cytoplasm, whereas in wild-type atrichoblasts and in all epidermal cells of a root hairless mutant, they were only present in the cytoplasm. In all of cultivars the higher expression of LM2, LM14, and MAC207 was observed in trichoblasts at an early stage of development. Additionally, the LM2 epitope was detected on the surface of primordia and root hair tubes in plants able to generate root hairs. The major conclusion was that the AGPs recognized by LM2, LM14, and MAC207 are involved in the differentiation of barley root epidermal cells, thereby implying a requirement for these AGPs for root hair development in barley.

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Most cited references 39

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Arabinogalactan-proteins: structure, expression and function.

A.M. Showalter (2001)

Arabinogalactan-proteins (AGPs) are a family of extensively glycosylated hydroxyproline-rich glycoproteins that are thought to have important roles in various aspects of plant growth and development. After a brief introduction to AGPs highlighting the problems associated with defining and classifying this diverse family of glycoproteins, AGP structure is described in terms of the protein component (including data from molecular cloning), carbohydrate component, processing of AGPs (including recent data on glycosylphosphatidylinositol membrane anchors) and overall molecular shape. Next, the expression of AGPs is examined at several different levels, from the whole plant to the cellular levels, using a variety of experimental techniques and tools. Finally, AGP function is considered. Although the existing functional evidence is not incontrovertible, it does clearly point to roles for AGPs in vegetative, reproductive, and cellular growth and development as well as programmed cell death and social control. In addition and most likely inextricably linked to their functions, AGPs are presumably involved in molecular interactions and cellular signaling at the cell surface. Some likely scenarios are discussed in this context. AGPs also have functions of real or potential commercial value, most notably as emulsifiers in the food industry and as potential immunological regulators for human health. Several important questions remain to be answered with respect to AGPs. Clearly, elucidating the unequivocal functions of particular AGPs and relating these functions to their respective structures and modes of action remain as major challenges in the years ahead.

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The fasciclin-like arabinogalactan proteins of Arabidopsis. A multigene family of putative cell adhesion molecules.

Kim Johnson, Brian Jones, Antony Bacic … (2003)

Fasciclin-like arabinogalactan proteins (FLAs) are a subclass of arabinogalactan proteins (AGPs) that have, in addition to predicted AGP-like glycosylated regions, putative cell adhesion domains known as fasciclin domains. In other eukaryotes (e.g. fruitfly [Drosophila melanogaster] and humans [Homo sapiens]), fasciclin domain-containing proteins are involved in cell adhesion. There are at least 21 FLAs in the annotated Arabidopsis genome. Despite the deduced proteins having low overall similarity, sequence analysis of the fasciclin domains in Arabidopsis FLAs identified two highly conserved regions that define this motif, suggesting that the cell adhesion function is conserved. We show that FLAs precipitate with beta-glucosyl Yariv reagent, indicating that they share structural characteristics with AGPs. Fourteen of the FLA family members are predicted to be C-terminally substituted with a glycosylphosphatidylinositol anchor, a cleavable form of membrane anchor for proteins, indicating different FLAs may have different developmental roles. Publicly available microarray and expressed sequence tag data were used to select FLAs for further expression analysis. RNA gel blots for a number of FLAs indicate that they are likely to be important during plant development and in response to abiotic stress. FLAs 1,2, and 8 show a rapid decrease in mRNA abundance in response to the phytohormone abscisic acid. Also, the accumulation of FLA1 and FLA2 transcripts differs during callus and shoot development, indicating that the proteins may be significant in the process of competence acquisition and induction of shoot development.

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Developmentally regulated epitopes of cell surface arabinogalactan proteins and their relation to root tissue pattern formation.

P Linstead, April K. Roberts, J Bendrick-Peart … (1991)

Two polymorphic forms of an extracellular arabinogalactan protein (AGP1 and AGP2), obtained from the conditioned media of two carrot suspension-cultured cell lines, have been identified in terms of binding of the anti-plasma membrane antibodies JIM4 and MAC207. AGP1 and AGP2 have been used as immunogens to generate further anti-AGP monoclonal antibodies. JIM14 identified an epitope carried by AGP2 and also by glycoproteins of low molecular weight localized to the plant cell wall. In addition, further antibodies (JIM13 and JIM15) identified carbohydrate epitopes of the AGPs that also occur on plasma membrane glycoproteins and are expressed by patterns of cells that reflect cell position at the carrot root apex. Indirect immunofluorescence microscopy indicated that JIM13 recognized the surface of cells forming the epidermis and cells marking the region and axis of the future xylem. JIM15 recognized a pattern of cells directly complementary to the JIM13 pattern. The panel of anti-AGP monoclonal antibodies now available indicates groups of cells within the root meristem that may reflect an early pre-pattern of the tissues of the mature root structure and suggests extensive modulation of cell surface AGPs during cell development and the positioning of cells within the apex.

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Author and article information

Journal

Journal ID (nlm-ta): J Exp Bot

Journal ID (iso-abbrev): J. Exp. Bot

Journal ID (hwp): jexbot

Journal ID (publisher-id): exbotj

Title: Journal of Experimental Botany

Publisher: Oxford University Press (UK )

ISSN (Print): 0022-0957

ISSN (Electronic): 1460-2431

Publication date (Print): March 2015

Publication date (Electronic): 1 December 2014

Publication date PMC-release: 1 December 2014

Volume: 66

Issue: 5

Pages: 1245-1257

Affiliations

¹Department of Genetics, Faculty of Biology and Environmental Protection, University of Silesia , Katowice 40-032, Poland

²Department of Physiology and Cell Biology, Leibniz Institute of Plant Genetics and Crop Plant Research (IPK) , Gatersleben D-06466, Germany

Author notes

* To whom correspondence should be addressed. E-mail: marek.marzec@ 123456us.edu.pl

Article

DOI: 10.1093/jxb/eru475

PMC ID: 4339589

PubMed ID: 25465033

SO-VID: 9d234181-82ac-437b-8b3d-f1296030a822

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This is an Open Access article distributed under the terms of the Creative Commons Attribution License ( http://creativecommons.org/licenses/by/3.0/), which permits unrestricted reuse, distribution, and reproduction in any medium, provided the original work is properly cited.

Arabinogalactan proteins are involved in root hair development in barley

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Most cited references 39

Arabinogalactan-proteins: structure, expression and function.

The fasciclin-like arabinogalactan proteins of Arabidopsis. A multigene family of putative cell adhesion molecules.

Developmentally regulated epitopes of cell surface arabinogalactan proteins and their relation to root tissue pattern formation.

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