	US 12,460,223 B2
	Resistance genes associated with disease resistance in soybeans
Qingli Liu, Research Triangle Park, NC (US); Andrew David Farmer, Santa Fe, NM (US); Xiaoping Tan, Research Triangle Park, NC (US); Thomas Joseph Curley, Research Triangle Park, NC (US); Becky Welsh Breitinger, Research Triangle Park, NC (US); John Luther Dawson, Research Triangle Park, NC (US); John Daniel Hipskind, Research Triangle Park, NC (US); and Robert Arthur Dietrich, Research Triangle Park, NC (US)
Assigned to Syngenta Crop Protection AG, Basel (CH)
Filed by Syngenta Crop Protection AG, Basel (CH)
Filed on Oct. 7, 2022, as Appl. No. 17/938,685.
Application 17/938,685 is a continuation of application No. 16/765,717, granted, now 11,492,637, previously published as PCT/US2018/061411, filed on Nov. 16, 2018.
Claims priority of provisional application 62/589,245, filed on Nov. 21, 2017.
Prior Publication US 2023/0145612 A1, May 11, 2023
This patent is subject to a terminal disclaimer.
Int. Cl. C12N 15/82 (2006.01); C07K 14/415 (2006.01)

CPC C12N 15/8282 (2013.01) [C07K 14/415 (2013.01)]

38 Claims

1. A transgenic Glycine max plant cell having, stably incorporated into its genome, a heterologous nucleic acid molecule comprising a polynucleotide encoding a protein having at least 90% sequence identity across the full length of SEQ ID NO: 47 operably linked to a plant active promoter, wherein expression of the protein in the transgenic Glycine max plant cell enhances Asian Soy Rust (ASR) resistance of the transgenic Glycine max plant cell compared to a control plant cell not expressing the protein.