Comparative Analysis of the Receptor-Like Kinase Family in Arabidopsis and Rice

doi:10.1105/tpc.020834

Comparative Analysis of the Receptor-Like Kinase Family in Arabidopsis and Rice

Shin-Han Shiu^a, Wojciech M. Karlowski^b, Runsun Pan^a^,d, Yun-Huei Tzeng^a^,c, Klaus F. X. Mayer^b and Wen-Hsiung Li^a^,1

^a Department of Ecology and Evolution, University of Chicago, Chicago, Illinois 60637
^b Munich Information Center for Protein Sequences/Institute of Bioinformatics, GSF, National Research Center for Environment and Health, Neuherberg 85764, Germany
^c Department of Mathematics, National Tsing Hua University, Hsinchu, Taiwan 300
^d Institute of Information Science, Academia Sinica, Taiwan 115

^¹ To whom correspondence should be addressed. E-mail whli{at}uchicago.edu; fax 773-702-9740.

Receptor-like kinases (RLKs) belong to the large RLK/Pelle genefamily, and it is known that the Arabidopsis thaliana genomecontains >600 such members, which play important roles inplant growth, development, and defense responses. Surprisingly,we found that rice (Oryza sativa) has nearly twice as many RLK/Pellemembers as Arabidopsis does, and it is not simply a consequenceof a larger predicted gene number in rice. From the inferredphylogeny of all Arabidopsis and rice RLK/Pelle members, weestimated that the common ancestor of Arabidopsis and rice had>440 RLK/Pelles and that large-scale expansions of certainRLK/Pelle members and fusions of novel domains have occurredin both the Arabidopsis and rice lineages since their divergence.In addition, the extracellular domains have higher nonsynonymoussubstitution rates than the intracellular domains, consistentwith the role of extracellular domains in sensing diverse signals.The lineage-specific expansions in Arabidopsis can be attributedto both tandem and large-scale duplications, whereas tandemduplication seems to be the major mechanism for recent expansionsin rice. Interestingly, although the RLKs that are involvedin development seem to have rarely been duplicated after theArabidopsis–rice split, those that are involved in defense/diseaseresistance apparently have undergone many duplication events.These findings led us to hypothesize that most of the recentexpansions of the RLK/Pelle family have involved defense/resistance-relatedgenes.

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