Distribution of PPX2 Mutations Conferring PPO-Inhibitor Resistance in Palmer Amaranth Populations of Tennessee

Copeland J. Drake; Giacomini Darci A.; Tranel Patrick J.Montgomery Garret B.Steckel Lawrence E.

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Distribution of PPX2 Mutations Conferring PPO-Inhibitor Resistance in Palmer Amaranth Populations of Tennessee

机译：Distribution of PPX2 Mutations Conferring PPO-Inhibitor Resistance in Palmer Amaranth Populations of Tennessee

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Protoporphyrinogen IX oxidase (PPO)-inhibiting herbicides (WSSA Group 14) have been used in agronomic row crops for over 50 yr. Broadleaf weeds, including glyphosate-resistant Palmer amaranth, have been controlled by this herbicide site of action PRE and POST. Recently, Palmer amaranth populations were reported resistant to PPO inhibitors in 2011 in Arkansas, in 2015 in Tennessee, and in 2016 in Illinois. Historically, the mechanism for this resistance involves the deletion of a glycine at position 210 (Delta G210) in a PPO enzyme encoded by the PPX2 gene; however, the Delta G210 deletion did not explain all PPO inhibitor-resistant Palmer amaranth in Tennessee populations. Recently, two new mutations within PPX2 (R128G, R128M) that confer resistance to PPO inhibitors were identified in Palmer amaranth. Therefore, research is needed to document the presence and distribution of the three known mutations that confer PPO inhibitor resistance in Tennessee. In 2017, a survey was conducted in 18 fields with Palmer amaranth to determine whether resistance existed and the prevalence of each known mutation in each field. Fomesafen was applied at 265 g ai ha(-1) to Palmer amaranth infestations within each field to select for resistant weeds for later analysis. Where resistance was described (70% of surviving plants), the Delta G210 mutation was detected in 47% of resistant plants. The R128G mutation accounted for 42% of resistance, similar to the frequency of the Delta G210 mutation. The R128M mutation was less frequent than the other two mutations, accounting for only 10% of the resistance. All mutations detected in this study were heterozygous. Additionally, no more than one of the three PPX2 mutations were detected in an individual surviving plant. Similar to previous research, about 70% of PPO resistance was accounted for by these three known mutations, leaving about 30% of resistance not characterized in Tennessee populations. Survivors not showing the three known PPO mutations suggest that other resistance mechanisms are present.

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《Weed Technology: A journal of the Weed Science Society of America》 |2018年第5期|592-596|共5页
作者
Copeland J. Drake; Giacomini Darci A.; Tranel Patrick J.Montgomery Garret B.Steckel Lawrence E.;
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作者单位

Univ Illinois, Dept Crop Sci, Urbana, IL 61801 USA;

Monsanto Co, St Louis, MO USA;

Univ Tennessee, Dept Plant Sci, 605 Airways Blvd, Jackson, TN 38301 USA;

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正文语种英语
中图分类植物保护;
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PPO inhibitor resistance; protoporphyrinogen IX oxidase; rapid resistance assays; target-site mutations;

Distribution of PPX2 Mutations Conferring PPO-Inhibitor Resistance in Palmer Amaranth Populations of Tennessee

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