Focus Issue on Plant Cell Walls: A Comprehensive Toolkit of Plant Cell Wall Glycan-Directed Monoclonal Antibodies

A collection of 130 new plant cell wall glycan-directed monoclonal antibodies (mAbs) was generated with the aim of facilitating in-depth analysis of cell wall glycans. An enzyme-linked immunosorbent assay-based screen against a diverse panel of 54 plant polysaccharides was used to characterize the binding patterns of these new mAbs, together with 50 other previously generated mAbs, against plant cell wall glycans. Hierarchical clustering analysis was used to group these mAbs based on the polysaccharide recognition patterns observed. The mAb groupings in the resulting cladogram were further verified by immunolocalization studies in Arabidopsis (Arabidopsis thaliana) stems. The mAbs could be resolved into 19 clades of antibodies that recognize distinct epitopes present on all major classes of plant cell wall glycans, including arabinogalactans (both protein- and polysaccharide-linked), pectins (homogalacturonan, rhamnogalacturonan I), xyloglucans, xylans, mannans, and glucans. In most cases, multiple subclades of antibodies were observed to bind to each glycan class, suggesting that the mAbs in these subgroups recognize distinct epitopes present on the cell wall glycans. The epitopes recognized by many of the mAbs in the toolkit, particularly those recognizing arabinose- and/or galactose-containing structures, are present on more than one glycan class, consistent with the known structural diversity and complexity of plant cell wall glycans. Thus, these cell wall glycan-directed mAbs should be viewed and utilized as epitope-specific, rather than polymer-specific, probes. The current world-wide toolkit of approximately 180 glycan-directed antibodies from various laboratories provides a large and diverse set of probes for studies of plant cell wall structure, function, dynamics, and biosynthesis.Cell walls play important roles in the structure, physiology, growth, and development of plants (Carpita and Gibeaut, 1993). Plant cell wall materials are also important sources of human and animal nutrition, natural textile fibers, paper and wood products, and raw materials for biofuel production (Somerville, 2007). Many genes thought to be responsible for plant wall biosynthesis and modification have been identified (Burton et al., 2005; Lerouxel et al., 2006; Mohnen et al., 2008), and 15% of the Arabidopsis (Arabidopsis thaliana) genome is likely devoted to these functions (Carpita et al., 2001). However, phenotypic analysis in plants carrying cell wall-related mutations has proven particularly difficult. First, cell wall-related genes are often expressed differentially and at low levels between cells of different tissues (Sarria et al., 2001). Also, plants have compensatory mechanisms to maintain wall function in the absence of a particular gene (Somerville et al., 2004). Thus, novel tools and approaches are needed to characterize wall structures and the genes responsible for their synthesis and modification.Monoclonal antibodies (mAbs) developed against cell wall polymers have emerged as an important tool for the study of plant cell wall structure and function (Knox, 2008). Previous studies have utilized mAbs that bind epitopes present on rhamnogalacturonan I (RG-I; Freshour et al., 1996; Jones et al., 1997; Willats et al., 1998; McCartney et al., 2000; Clausen et al., 2004; Altaner et al., 2007), homogalacturonan (Willats et al., 2001; Clausen et al., 2003), xylogalacturonan (Willats et al., 2004), xylans and arabinoxylans (McCartney et al., 2005), xyloglucan (Freshour et al., 1996, 2003; Marcus et al., 2008), arabinogalactan(protein) (Pennell et al., 1991; Puhlmann et al., 1994; Dolan et al., 1995; Smallwood et al., 1996), and extensins (Smallwood et al., 1995) to localize these epitopes in plant cells and tissues. In addition, mAbs have been used to characterize plants carrying mutations in genes thought to be associated with cell wall biosynthesis and metabolism (Orfila et al., 2001; Seifert, 2004; Persson et al., 2007; Cavalier et al., 2008; Zabotina et al., 2008). Despite their utility, the available set of mAbs against carbohydrate structures is relatively small given the structural complexity of wall polymers (Ridley et al., 2001; O''Neill and York, 2003), and knowledge of their epitope specificity is limited. Thus, additional mAbs specific to diverse epitope structures and methods for rapid epitope characterization are needed (Somerville et al., 2004).Here, we report the generation of 130 new mAbs that bind to diverse epitopes present on a broad spectrum of plant cell wall glycans. In addition, approximately 50 previously reported or generated mAbs were included in the ELISA-based screens used to group the antibodies according to their binding patterns against a diverse panel of 54 polysaccharides. The resulting ELISA data were analyzed by hierarchical clustering to illustrate the relationships between the available mAbs. Nineteen groups of mAbs were identified from the clustering analysis. Some initial information regarding possible epitopes recognized by some of these antibodies could be inferred from the clustering analysis.