Endophyte screening

The invention claimed is: 1. A method of identifying a wheat plant that forms a stable symbiotic combination with a fungal endophyte comprising artificially inoculating a fungal endophyte into a candidate wheat plant to form a wheat plant/endophyte combination, propagating the wheat plant/endophyte combination, obtaining seed from the propagated combination, and identifying the presence of the endophyte in the seed, and selecting the wheat plant that is capable of forming a stable symbiotic combination with the fungal endophyte, wherein the fungal endophyte is an isolated strain of Epichloë fungal endophyte selected from the group consisting of AR3002 (NRRL #50579), AR3013 (NRRL #67557), AR3067 (NRRL #50719), AR3070 (NRRL #67564), and AR3108 (NRRL #67572). 2. A method of making a stable symbiotic combination comprising a wheat plant and an Epichloë fungal endophyte comprising artificially inoculating an Epichloë fungal endophyte into a candidate wheat plant to form a wheat plant/endophyte combination, propagating the wheat plant/endophyte combination, obtaining seed from the propagated combination, and identifying the presence of the Epichloë endophyte in the seed, and selecting a stable symbiotic combination comprising the wheat plant and the Epichloë fungal endophyte, wherein the fungal endophyte is an isolated strain of Epichloë fungal endophyte selected from the group consisting of AR3002 (NRRL #50579), AR3013 (NRRL #67557), AR3067 (NRRL #50719), AR3070 (NRRL #67564), and AR3108 (NRRL #67572). 3. The method of claim 2 , wherein the fungal endophyte is isolated from Elymus spp. 4. The method of claim 2 , wherein the fungal endophyte is an Epichloë fungal endophyte isolated from wild cereal grasses selected from the group consisting of Elymus species grasses and Hordeum species grasses. 5. The method of claim 2 , wherein the wheat plant is a plant from a line obtained from the Tottori Alien Chromosome Bank of Wheat (TACBOW) selected from the group consisting of TACBOW0003 (KCTC 15349BP), TACBOW0005 (KCTC 15350BP), TACBOW0010 (KCTC 15351BP), TACBOW0011 (KCTC 15352BP), TACBOW0018 (KCTC 15353BP), TACBOW0028 (KCTC 15354BP), TACBOW0044 (KCTC 15355BP), TACBOW0045 (KCTC 15356BP), TACBOW0054 (KCTC 15357BP), TACBOW0059 (KCTC 15358BP), TACBOW0067 (KCTC 15359BP), TACBOW0128 (KCTC 15360BP), TACBOW0209 (KCTC 15361BP), TACBOW0221 (KCTC 15362BP), TACBOW0226 (KCTC 15363BP), TACBOW0236 (KCTC 15364BP), TACBOW237 (KCTC 15365BP), TACBOW0244 (KCTC 15366BP), TACBOW0260 (KCTC 15367BP), TACBOW0261 (KCTC 15368BP), TACBOW0272 (KCTC 15369BP), and TACBOW0275 (KCTC 15370BP). 6. The method of claim 2 , wherein the wheat plant in the combination shows a normal morphological phenotype. 7. The method of claim 2 , the wheat plant in the combination has a tall floral phenotype that produces seed containing the endophyte. 8. The method of claim 2 , wherein the wheat plant in the combination produces seed that is viable, wherein the seed will germinate to form a next generation of the combination. 9. The method of claim 2 , wherein the wheat plant/endophyte combination produces an alkaloid that confers at least some level of pest protection or resistance, or disease protection or resistance, on the combination, wherein the alkaloid is selected from the group consisting of lolines, peramine, indole diterpene alkaloids and ergot alkaloids. 10. A stable symbiotic combination comprising an isolated strain of Epichloë fungal endophyte selected from the group consisting of AR3002 (NRRL #50579), AR3013 (NRRL #67557), AR3067 (NRRL #50719), AR3070 (NRRL #67564) and AR3108 (NRRL #67572), and a wheat plant. 11. The combination of claim 10 , wherein the wheat plant in the combination shows a normal morphological phenotype. 12. The combination of claim 10 , wherein the wheat plant shows a tall floral phenotype that produces seed containing the endophyte. 13. The combination of claim 10 , wherein the wheat plant produces seed that is viable, wherein the seed will germinate to form a next generation of the combination.