Glyphosate Resistance in <i>Eleusine indica</i>: Involvement of <i>CYP71AK44</i> in Addition to <i>EPSPS</i> Gene Overexpression
Sifen He, Junhui Tian, Yulan Ouyang, Yuxi Liao, Qin Yu, Lianyang Bai, Lang Pan
Abstract
Intensive application of glyphosate has resulted in resistance evolution in many weed populations, including Eleusine indica . This study characterized glyphosate resistance and investigated the underlying mechanisms in a glyphosate-resistant population (R-JX) of E. indica from China. The R-JX population was 8.5 times resistant to glyphosate relative to the glyphosate-susceptible population (SA). Point mutations were not observed in the target gene 5-enolypyruvyl-shikimate-3-phosphate synthase gene ( EPSPS ). However, the expression level and copy number of EPSPS were 8.8 times and 15.2 times, respectively, greater in R-JX than that in the SA population. Pre-application of the P450 inhibitor lowered the resistance level to glyphosate from 8.5 times to 3.6 times in the R-JX population. RNA-Seq and RT-qPCR revealed that the CYP71AK44 gene was consistently upregulated in R-JX and five other glyphosate-resistant populations. Rice calli and seedlings overexpressing CYP71AK44 showed glyphosate resistance. In conclusion, overexpression of the target EPSPS plus CYP71AK44 collectively contributes to glyphosate resistance in these E. indica populations.