Abstract
Rice is an important staple food for more than half the world’s population, and it has become the first crop plant to have its 389-Mb genome sequenced (IRGSP 2005). Even though various functional genomic tools for elucidating the function of rice genes are available (Hirochika et al. 2004; Leung and An 2004; Sasaki et al. 2005; Upadhyaya 2007), developing new methods for characterizing genes of interest by both forward and reverse genetic approaches has become particularly important. This chapter contains a description of the current state of gene targeting mediated by homologous recombination (HR) and gene tagging promoted by a nonautonomous DNA-based active rice transposon, nDart, for rice functional genomics, both of which are being developed (Terada et al. 2002, 2007; Tsugane et al. 2006; Takagi et al. 2007). Gene targeting refers to the alteration of a specific DNA sequence in an endogenous gene at its original locus in the genome and, often, to
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