Characteristic analysis of tetra-resistant genetically modified rice

摘要

cqvip:In this study, the characteristic of three transformants named as B1 C106-1, B1 C106-2, and B1 C106-3 were studied that carried three innate resistant genes Bph14, Bph15, and Xa23, and two enthetic resistant genes Cry1 Ca# and Bar. The five resistant genes were all verified by PCR and the two enthetic genes were identified in single copy insertion by Southern blot. At tillering stage, the Cry1 C and PAT(phosphinothricin acetyl transferase) protein contents in leaf, sheath, and stem of T2 generation were in the similar pattern: leaf>stem>sheath, and showed significant difference(P<0.01) among three organs. The average contents of Cry1 C protein in plant of B1 C106-1, B1 C106-2, and B1 C106-3 were 12.95, 6.57, and 11.30 μg g–1, respectively, and showed significant difference(P<0.01) among them. However, the average contents of PAT in plant of B1 C106-1, B1 C106-2, and B1 C106-3 were 28.54, 27.66, and 28.02 μg g–1, respectively, and there were no significant difference among three transformants. The glufosinate tolerable concentration of three transformants of T3 generation reached at least 6 g L–1, and the mortality of rice leaf rollers were above 97.4% in 5 days after being fed with fresh transformants' leaves. The Cry1 C protein toxicity was also assessed by silkworms, and the mortality of silkworms feeding mulberry leaves smeared with Cry1 C protein extracts of leaves of B1 C106-1, B1 C106-2, and B1 C106-3 were 90, 67.8, and 87.8%, respectively, that were positive correlation(r=0.993) with Cry1 C protein contents in plant of three transformants. The three transformants also maintained high resistance to brown planthopper and bacterial blight as the original version. The above results indicate the tetra-resistant rice germplasm was well-developed by pyramiding innate and enthetic resistant genes in an elite line to provide with resistances of glufosinate, rice leaf roller, brown planthopper, and bacterial blight.