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MAP3Kα , a gene that encodes a key conserved protein kinase,  is responsible for initiating a rapid cascade of cellular events  leading to localized cell death. Hypersensitive response, as it is  termed, enables genetically resistant plants to limit microbial  invasion under the right environmental conditions. Since knowledge  of close physically linked genes is important for genome analysis  and possibly for improving disease resistance, systematic DNA  sequence analysis, gene annotation, and protein BLASTs were  performed to identify and characterize genes in close physical  proximity to a  MAP3Kα -like gene in  Beta vulgaris  L. US H20. On the same 125 Kb BAC, callose synthase ( BvCS ) and phytochrome A ( PhyA ) genes were within 50 Kb of  MAP3Kα . The close physical linkage of these genes may result from selection for coordinated responses to disease pressure. Bert, a new chromodomain-carrying  gypsy -like LTR retrotransposon, resides within an intron of the  BvCS  gene, where it is transcribed from the opposing strand.

Genes Encoding Callose Synthase and Phytochrome A Are Adjacent to a MAP3Kα-Like Gene in Beta vulgaris US H20