US2005076408A1PendingUtilityA1
RIN gene compositions and methods for use thereof
Priority: Jul 12, 1999Filed: Sep 3, 2004Published: Apr 7, 2005
Est. expiryJul 12, 2019(expired)· nominal 20-yr term from priority
Inventors:James GiovannoniSteven D. TanksleyVeeraragavan PadmanabhanDiane M. RuezinskyJulie VrebalovRuth White
C07K 14/415C12N 15/8249C12N 15/8223C12N 15/8216C12N 15/8291C12N 15/8235C12N 15/825
55
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Claims
Abstract
The current invention provides nucleic acid sequences encoding the RIN and MC genes. Compositions comprising these sequences are described, as are plants transformed with such compositions. Further provided are methods for the expression of the RIN and MC genes. The methods of the invention include the direct creation of transgenic plants with the RIN and MC genes by genetic transformation, as well as by plant breeding methods. The sequences of the invention represent a valuable new tool for the creation of transgenic plants, preferably having one or more added beneficial characteristics.
Claims
exact text as granted — not AI-modified1 - 104 . (canceled)
105 . An isolated nucleic acid sequence comprising an antisense oligonucleotide complementary to a rin gene mRNA encoded by SEQ ID NO:6.
106 . The isolated nucleic acid of claim 105 , further comprising a promoter operably linked to said antisense oligonucleotide.
107 . The isolated nucleic acid of claim 105 , further comprising an enhancer.
108 . The isolated nucleic acid of claim 107 , wherein said enhancer comprises an intron.
109 . The isolated nucleic acid of claim 105 , comprising a transcriptional terminator.
110 . An expression vector comprising the isolated nucleic acid sequence of claim 105 .
111 . The expression vector of claim 110 , further defined as a linear nucleic acid segment.
112 . The expression vector of claim 110 , further defined as a plasmid vector.
113 . A plant transformed with the isolated nucleic acid sequence of claim 105 .
114 . The transgenic plant of claim 113 , further defined as a fertile R 0 transgenic plant.
115 . The transgenic plant of claim 113 , further defined as a progeny plant of any generation of a fertile R 0 transgenic plant, wherein the progeny plant comprises the isolated nucleic acid sequence.
116 . A seed of the plant of claim 113 , wherein the seed comprises the isolated nucleic acid sequence.
117 . A cell of the plant of claim 113 .
118 . The plant of claim 113 , further defined as strawberry.
119 . A method of manipulating the fruit ripening of a plant comprising introducing the expression vector of claim 110 into the plant.
120 . The method of claim 119 , wherein the expression vector is introduced by a method comprising the steps of:
(a) obtaining the expression vector of claim 110; (b) transforming a recipient plant cell with said expression vector; and (c) regenerating a transgenic plant from said recipient plant cell, wherein the fruit ripening phenotype of said plant is altered based on the expression of the antisense oligonucleotide.
121 . The method of claim 119 , wherein the expression vector is introduced by a method comprising the steps of:
(a) obtaining a transgenic plant comprising the expression vector of claim 110; and (b) crossing the transgenic plant with itself or a second plant to introduce the expression vector into a progeny plant.
122 . The method of claim 119 , wherein the plant is strawberry.Cited by (0)
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