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Dr. Kamo applied an efficient system of plant regeneration from callus cells of Gladiolus to create the first transgenic plants of a monocotyledonous flower bulb crop, and subsequently applied this system to other flower bulb crops such as lilies. The transformation system has also been applied to developing plants of Gladiolus with short-term resistance to the Bean yellow mosaic virus (BYMV) and Cucumber mosaic virus. In search of a constitutive promoter for developing effective virus resistance in transgenic floral crops that expresses at high levels, Dr. Kamo has isolated three ubiquitin promoters from Gladiolus; one of these promoters directs the highest levels of reporter gene expression reported for Gladiolus to date. Dr. Kamo has also developed an embryogenic system for regenerating roses of several cultivars in collaboration with a biotech company and university scientists to transform roses. More recently, Dr. Kamo is engaged in a new research area dealing with the development of resistant plants against root lesion nematodes.
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PAULO VIEIRA, THOMAS MAYER,SEBASTIAN EVES-VAN DEN AKKER, DANA K. HOWE, INGA, ZASADA,THOMAS BAUM,JONATHAN D. EISENBACK,KATHRYN KAMO
semanticscholar(2018)
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Handbook of Plant Disease ManagementHandbook of Florists' Crops Diseasespp.1289-1311, (2018)
IN VITRO CELLULAR & DEVELOPMENTAL BIOLOGY-ANIMAL (2017): S54-S54
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