Patent Applications filed by the University of Minnesota

Claim 1
A method for transforming plant explant tissue, comprising:

a) contacting a cotyledon explant from a plant seedling infected with an Agrobacterium containing DNA to be introduced into the explant with an agent that inhibits enzymatic browning of a wounded plant, plant tissue or plant cell so as to yield transformed explant tissue; and

b) identifying transformed explant tissue.

Claim 22
A method to identify an agent that enhances Agrobacterium-mediated transformation of a plant cell, plant tissue or plant part, comprising:

a) contacting the plant cell, plant tissue or plant part with Agrobacterium containing DNA to be introduced into the plant cell, plant tissue or plant part and the agent so as to yield a transformed plant cell, plant tissue or plant, wherein the agent is not a phenolic compound; and

b) detecting or determining whether the agent enhances Agrobacterium-mediated transformation of the plant cell, plant tissue or plant part relative to Agrobacterium-mediated transformation of a plant cell, plant tissue or plant part in the absence of the agent.

Claim 37
A method for the stable transformation of plant tissue or cells, comprising:

a) contacting plant tissue or cells with an Agrobacterium containing DNA and an agent selected from the group consisting of a sulfhydryl-containing agent, an iron chelator, a copper chelator, an inhibitor of plant polyphenol oxidase and an inhibitor of plant peroxidase; and

b) identifying stably transformed plant tissue or cells.

Claim 44
A plant medium comprising: an amount of an agent effective to inhibit the enzymatic browning of a plant organ, tissue or cell, wherein the agent is selected from the group consisting of a sulfhydryl-containing agent, an iron chelator, a copper chelator, an inhibitor of polyphenol oxidase and an inhibitor of peroxidase.

Claim 57
A method for the stable transformation of monocot plant tissue or cells, comprising:

a) contacting monocot plant tissue or cells with an Agrobacterium containing a recombinant DNA and one or more agents selected from the group consisting of a sulfhydryl-containing agent, methionine, an iron chelator, a copper chelator, an inhibitor of plant polyphenol oxidase and an inhibitor of plant peroxidases, which one or more agents are present in solid media in an amount effective to enhance the stable transformation of the monocot plant tissue or cells relative to corresponding monocot plant tissue or cells contacted with Agrobacterium in the absence of the one or more agents; and

b) identifying stably transformed plant tissue or cells.

Claim 62
A method for the stable transformation of plant tissue or cells, comprising:

a) contacting plant tissue or cells with an Agrobacterium containing a recombinant DNA and one or more agents selected from the group consisting of a sulfhydryl-containing agent, methionine, an iron chelator, a copper chelator, an inhibitor of plant polyphenol oxidase and an inhibitor of plant peroxidases, which one or more agents are present in solid media in an amount effective to enhance the stable transformation of the tissue or cells relative to corresponding tissue or cells contacted with Agrobacterium in the absence of the one or more agents; and

b) identifying stably transformed plant tissue or cells.

A method for stable transformation of leguminous plant tissue or cells, comprising:

a) contacting leguminous plant tissue or cells with an Agrobacterium comprising a recombinant DNA and one or more sulfhydryl-containing agents which one or more agents are present in solid media in an amount effective to enhance the stable transformation of the leguminous plant tissue or cells relative to corresponding plant tissue or cells contacted with the Agrobacterium in the absence of the one or more agents, wherein the plant tissue or cells are embryogenic somatic cells, immature embryo, meristem, or a cotyledon explant, and wherein the stable transformation is enhanced by at least 0.5%; and
b) identifying stably transformed plant tissue or cells.

Claim 1

A method for transforming plant explant tissue, comprising:

a) contacting a cotyledon explant from a plant seedling infected with an Agrobacterium containing DNA to be introduced into the explant with an agent that inhibits enzymatic browning of a wounded plant, plant tissue or plant cell so as to yield transformed explant tissue; and
b) identifying transformed explant tissue.

A method to identify an agent that enhances Agrobacterium-mediated transformation of a plant cell, plant tissue or plant part, comprising:

a) contacting the plant cell, plant tissue or plant part with Agrobacterium containing DNA to be introduced into the plant cell, plant tissue or plant part and the agent so as to yield a transformed plant cell, plant tissue or plant, wherein the agent is not a phenolic compound; and
b) detecting or determining whether the agent enhances Agrobacterium-mediated transformation of the plant cell, plant tissue or plant part relative to Agrobacterium-mediated transformation of a plant cell, plant tissue or plant part in the absence of the agent.

A method for the stable transformation of plant tissue or cells, comprising:

a) contacting plant tissue or cells with an Agrobacterium containing DNA and an agent selected from the group consisting of a sulfhydryl-containing agent, an iron chelator, a copper chelator, an inhibitor of plant polyphenol oxidase and an inhibitor of plant peroxidase; and
b) identifying stably transformed plant tissue or cells.

A plant medium comprising: an amount of an agent effective to inhibit the enzymatic browning of a plant organ, tissue or cell, wherein the agent is selected from the group consisting of a sulfhydryl-containing agent, an iron chelator, a copper chelator, an inhibitor of polyphenol oxidase and an inhibitor of peroxidase.