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sense chalcone synthase gene in transgenic plants inhibits flower pigmentation
Previous Alexander R. van der Krol, Peter E. Lenting, Jetty Veenstra, Ingrid M. van der Meer, Ronald E. Koes, Anton knock off van cleef and arpels bracelet G. M. Gerats, Joseph N. M. Mol Antoine R. StuitjeDepartment of Applied Genetics, Vrije Universiteit, fake van cleef pendant de Boelelaan 1087, 1081 HV Amsterdam, The NetherlandsIn most plants copy van cleef bracelet flower pigments derive from the flavonoid biosynthesis pathway. Consistent with this pathway in Petunia hybrida the key enzyme in flavonoid synthesis, chalcone synthase, is synthesized in the flower corolla, tube and anthers1. Here we show that constitutive expression of an 'anti sense' chalcone synthase gene in transgenic petunia and tobacco plants results, with high frequency, in an altered flower pigmentation due to a reduction in levels of both the messenger RNA for the enzyme and the enzyme itself. The pattern of pigmentation varies among flowers of different transgenic plants, indicating that the activity of the anti sense gene is influenced by DNA sequences that border its site of insertion in both a quantitative and a qualitative way. Backcrossing experiments show that the different pigmentation phenotypes resulting from the expression of anti sense chalcone synthese gene(s) are stably inherited. These data establish that secondary metabolism in plants can be manipulated using transgenic plants that constitutively synthesize anti sense RNA.
Previous Alexander R. van der Krol, Peter E. Lenting, Jetty Veenstra, Ingrid M. van der Meer, Ronald E. Koes, Anton knock off van cleef and arpels bracelet G. M. Gerats, Joseph N. M. Mol Antoine R. StuitjeDepartment of Applied Genetics, Vrije Universiteit, fake van cleef pendant de Boelelaan 1087, 1081 HV Amsterdam, The NetherlandsIn most plants copy van cleef bracelet flower pigments derive from the flavonoid biosynthesis pathway. Consistent with this pathway in Petunia hybrida the key enzyme in flavonoid synthesis, chalcone synthase, is synthesized in the flower corolla, tube and anthers1. Here we show that constitutive expression of an 'anti sense' chalcone synthase gene in transgenic petunia and tobacco plants results, with high frequency, in an altered flower pigmentation due to a reduction in levels of both the messenger RNA for the enzyme and the enzyme itself. The pattern of pigmentation varies among flowers of different transgenic plants, indicating that the activity of the anti sense gene is influenced by DNA sequences that border its site of insertion in both a quantitative and a qualitative way. Backcrossing experiments show that the different pigmentation phenotypes resulting from the expression of anti sense chalcone synthese gene(s) are stably inherited. These data establish that secondary metabolism in plants can be manipulated using transgenic plants that constitutively synthesize anti sense RNA.
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