Identification and Molecular Characterization of Myosin Gene Family in Oryza sativa Genome

doi:10.1093/pcp/pch061

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Plant and Cell Physiology, 2004, Vol. 45, No. 5 590-599
© 2004 Oxford University Press

Identification and Molecular Characterization of Myosin Gene Family in Oryza sativa Genome

ShuYe Jiang and Srinivasan Ramachandran¹

Rice Functional Genomics Group, Temasek Life Sciences Laboratory, 1 Research Link, the National University of Singapore, Singapore 117604

Myosins play an important role in various developmental processesin plants. We have identified 14 myosin genes in rice (Oryzasativa cv. Nipponbare) genome using sequence information availablein public databases. Phylogenetic analysis of these sequenceswith other plant and non-plant myosins revealed that two ofthe predicted sequences belonged to class VIII and the othersto class XI. All of these genes were distributed on seven chromosomesin the rice genome. Domain searches on these sequences indicatedthat a typical rice myosin consisted of Myosin_N, head domain,neck (IQ motifs), tail, and dilute (DIL) domain. Based on thesequence information obtained from predicted myosins, we isolatedand sequenced two full-length cDNAs, OsMyoVIIIA and OsMyoXIE,representing each of the two classes of myosins. These two cDNAsisolated from different organs existed in isoforms due to differentialsplicing and showed minor differences from the predicted myosinin exon organization. Out of 14 myosin genes 11 were expressedin three major organs: leaves, panicles, and roots, among whichthree myosins exhibited different expression levels. On theother hand, three of the total myosin sequences showed organ-specificexpression. The existence of different myosin genes and theirisoforms in different organs or tissues indicates the diversityof myosin functions in rice.

¹ Corresonding author: E-mail, sri{at}tll.org.sg; Fax, +65-6872-7007.

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