Abstract
The lysin motif (LysM) domain is an ancient and ubiquitous protein module that binds peptidoglycan and structurally related molecules. A genomic survey in a large number of species spanning all kingdoms reveals that the combination of LysM and receptor kinase domains is present exclusively in plants. However, the particular biological functions and molecular evolution of this gene family remain largely unknown. We show that LysM domains in plant LysM proteins are highly diversified and that a minimum of six distinct types of LysM motifs exist in plant LysM kinase proteins and five additional types of LysM motifs exist in nonkinase plant LysM proteins. Further, motif similarities suggest that plant LysM motifs are ancient. Although phylogenetic signals are not sufficient to resolve the earliest relationships, plant LysM motifs may have arisen through common ancestry with LysM motifs in other kingdoms. Within plants, the gene family has evolved through local and segmental duplications. The family has undergone further duplication and diversification in legumes, where some LysM kinase genes function as receptors for bacterial nodulation factor. Two pairs of homeologous regions were identified in soybean (Glycine max) based on microsynteny and fluorescence in situ hybridization. Expression data show that most plant LysM kinase genes are expressed predominantly in the root and that orthologous LysM kinase genes share similar tissue expression patterns. We also examined synteny around plant LysM kinase genes to help reconstruct scenarios for the evolution of this important gene family.
Highlights
The lysin motif (LysM) domain is an ancient and ubiquitous protein module that binds peptidoglycan and structurally related molecules
The LysM domain recognizes peptidoglycan, a linear form of N-acetylmuramic acid cross-linked with b(1-4)-linked GlcNAc (GlcNAc) by short peptides and a major component of the cell walls of both Gram-positive and Gramnegative bacteria
We identified soybean LYK genes by shotgun sequencing bacterial artificial chromosomes (BACs) with homologies to LysM-encoding ESTs
Summary
The lysin motif (LysM) domain is an ancient and ubiquitous protein module that binds peptidoglycan and structurally related molecules. The lysin motif (LysM) is an ancient protein domain originally identified in bacterial autolysin (Joris et al, 1992). Increasing amounts of transcript and genomic sequence have allowed identification of LysM-encoding proteins in a broad range of organisms spanning all kingdoms except archaea (Bateman and Bycroft, 2000). This suggests that the LysM domain is a ubiquitous modular cassette, presumably involved in binding peptidoglycan and structurally related molecules in nature. Plant LYK genes likely have various functions other than establishing symbiotic relationships, especially in nonlegume plants
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