Genome-wide analysis of NBS-LRR-encoding genes in Arabidopsis.

The Arabidopsis genome contains approximately 200 genes that encode proteins with similarity to the nucleotide binding site and other domains characteristic of plant resistance proteins. Through a reiterative process of sequence analysis and reannotation, we identified 149 NBS-LRR-encoding genes in the Arabidopsis (ecotype Columbia) genomic sequence. Fifty-six of these genes were corrected from earlier annotations. At least 12 are predicted to be pseudogenes. As described previously, two distinct groups of sequences were identified: those that encoded an N-terminal domain with Toll/Interleukin-1 Receptor homology (TIR-NBS-LRR, or TNL), and those that encoded an N-terminal coiled-coil motif (CC-NBS-LRR, or CNL). The encoded proteins are distinct from the 58 predicted adapter proteins in the previously described TIR-X, TIR-NBS, and CC-NBS groups. Classification based on protein domains, intron positions, sequence conservation, and genome distribution defined four subgroups of CNL proteins, eight subgroups of TNL proteins, and a pair of divergent NL proteins that lack a defined N-terminal motif. CNL proteins generally were encoded in single exons, although two subclasses were identified that contained introns in unique positions. TNL proteins were encoded in modular exons, with conserved intron positions separating distinct protein domains. Conserved motifs were identified in the LRRs of both CNL and TNL proteins. In contrast to CNL proteins, TNL proteins contained large and variable C-terminal domains. The extant distribution and diversity of the NBS-LRR sequences has been generated by extensive duplication and ectopic rearrangements that involved segmental duplications as well as microscale events. The observed diversity of these NBS-LRR proteins indicates the variety of recognition molecules available in an individual genotype to detect diverse biotic challenges.

Meyers BC ，Kozik A ，Griego A ，Kuang H ，Michelmore RW ... -  《-》

TIR-X and TIR-NBS proteins: two new families related to disease resistance TIR-NBS-LRR proteins encoded in Arabidopsis and other plant genomes.

Meyers BC ，Morgante M ，Michelmore RW 《PLANT JOURNAL》

Resistance rodeo: rounding up the full complement of Arabidopsis NBS-LRR genes.

Eckardt NA ，Innes R 《-》

Patterns of positive selection in the complete NBS-LRR gene family of Arabidopsis thaliana.

Plant disease resistance genes have been shown to be subject to positive selection, particularly in the leucine rich repeat (LRR) region that may determine resistance specificity. We performed a genome-wide analysis of positive selection in members of the nucleotide binding site (NBS)-LRR gene family of Arabidopsis thaliana. Analyses were possible for 103 of 163 NBS-LRR nucleotide sequences in the genome, and the analyses uncovered substantial evidence of positive selection. Sites under positive selection were detected and identified for 10 sequence groups representing 53 NBS-LRR sequences. Functionally characterized Arabidopsis resistance genes were in these 10 groups, but several groups with extensive evidence of positive selection contained no previously characterized resistance genes. Amino acid residues under positive selection were identified, and these residues were mapped onto protein secondary structure. Positively selected positions were disproportionately located in the LRR domain (P < 0.001), particularly a nine-amino acid beta-strand submotif that is likely to be solvent exposed. However, a substantial proportion (30%) of positively selected sites were located outside LRRs, suggesting that regions other than the LRR may function in determining resistance specificity. Because of the unusual sequence variability in the LRRs of this class of proteins, secondary-structure analysis identifies LRRs that are not identified by similarity analyses alone. LRRs also contain substantial indel variation, suggesting elasticity in LRR length could also influence resistance specificity.

Mondragón-Palomino M ，Meyers BC ，Michelmore RW ，Gaut BS ... -  《GENOME RESEARCH》

Motifs specific for the ADR1 NBS-LRR protein family in Arabidopsis are conserved among NBS-LRR sequences from both dicotyledonous and monocotyledonous plants.

The activated disease resistance (ADR) 1 gene encodes a protein that possesses an N-terminal coiled-coil (CC) motif, nucleotide-binding site (NBS) and C-terminal leucine-rich repeat (LRR) domains. ADR1 belongs to a small, atypical Arabidopsis thaliana sub-class containing four CC-NBS-LRR genes. The NBS region of most NBS-LRR proteins possesses numerous conserved motifs. In contrast, the LRR domain, which is subject to positive selection, is highly variable. Surprisingly, sequence analysis revealed that the LRR domain of the ADR1 sub-class was more conserved than the NBS region. Sequence analysis identified two novel conserved motifs, termed TVS and PKAE, specific for this CC-NBS-LRR sub-class. The TVS motif is adjacent to the P-loop, whereas the PKAE motif corresponded to the inter-domain region termed the NBS-LRR linker, which was conserved within the different CC-NBS-LRR classes but varied among classes. These ADR1-specific motifs were employed to identify putative ADR1 homologs in phylogenetically distant and agronomically important plant species. Putative ADR1 homologs were identified in 11 species including rice and in 3 further Poaceae species. The ADR1 sub-class of CC-NBS-LRR proteins is therefore conserved in both monocotyledonous and dicotyledonous plant species.

Chini A ，Loake GJ 《PLANTA》