Epigenetically Enhanced Double Haploids

What is claimed is: 1 . A method for producing a haploid or double haploid plant or plant cell useful for plant breeding comprising the steps of: a. crossing or self-pollinating or culturing gametophytic tissue from a plant or plant cell, wherein said plant or plant cell or a progenitor thereof is or had been subjected to MSH1 suppression; and, b. producing a haploid or double haploid plant or plant cell from the crossing or self-pollination or culturing gametophytic tissue of step (a) or from progeny thereof, thereby producing a haploid or double haploid plant or plant cell useful for plant breeding. 2 . The method of claim 1 , wherein the haploid or double haploid plant is produced from progeny of the F1, F2, F3, F4, F5, F6 or S1, S2, S3, S4, S5 or S6 generations. 3 . The method of claim 1 , wherein the method of producing a haploid or double haploid plant utilizes CenH3 suppression and/or a tailswap CenH3 protein. 4 . The method of claim 1 , wherein the plant is a corn, rice, wheat, sorghum, barley, soybean, cotton, canola, sugarbeet, alfalfa, potato, or tomato plant. 5 . The method of claim 1 , wherein the crossing of step (a) is between plants that are essentially isogenic. 6 . A method for identifying a double haploid plant harboring a useful trait comprising the steps of: a. crossing a candidate plant to a second plant, wherein the candidate plant is a double haploid plant or its progeny derived from: (i) a selfed plant wherein said selfed plant or a progenitor thereof is or had been subjected to MSH1 suppression; or (ii) a cross wherein at least one parental plant or a progenitor thereof is or had been subjected to MSH1 suppression; and, b. identifying one or more progeny plants from the cross in step (a) that have a useful trait, to a greater extent than the candidate plant, the second plant, or a control plant, thereby identifying a double haploid plant harboring a useful trait. 7 . The method of claim 6 , wherein the control plant is progeny of a cross between: (i) a plant that is not progeny of a selfed plant, a crossed plant, or parent thereof that is or had been subjected to MSH1 suppression; and (ii) a plant that is isogenic to the second plant. 8 . A plant or progeny thereof that exhibits a useful trait that is made by the method of claim 1 . 9 . A plant or progeny thereof that exhibits a useful trait that is made by the method of claim 6 . 10 . A plant part of the plant or progeny of claim 8 , wherein said part is selected from the group consisting of a seed, leaf, stem, fruit, and a root. 11 . A plant part of the plant or progeny of claim 9 , wherein said part is selected from the group consisting of a seed, leaf, stem, fruit, and a root. 12 . A processed plant product or clonal propagate obtained from the plant part of claim 10 . 13 . A processed plant product or clonal propagate obtained from the plant part of claim 11 . 14 . A method for producing a haploid or double haploid plant or plant cell useful for plant breeding comprising the steps of: a. Culturing a plant cell, wherein said plant cell is or had been subjected to MSH1 suppression or is derived from a plant or a progenitor plant thereof that is or had been subjected to MSH1 suppression; and, b. producing a haploid or double haploid plant from the plant cell of step (a) or from progeny thereof, thereby producing a haploid or double haploid plant or plant cell useful for plant breeding. 15 . A plant or plant seed, wherein at least one of the progenitor plants is a plant produced by the method of claim 14 . 16 . A plant part of the plant or progeny of claim 15 , wherein said part is selected from the group consisting of a seed, leaf, stem, fruit, and a root. 17 . A processed plant product or clonal propagate obtained from the plant part of claim 16 .