Pleiotropic effects of herbicide-resistance genes on crop yield: a review

Darmency, Henri

doi:10.1002/ps.3522

Cited by 32 publications

(27 citation statements)

References 87 publications

(166 reference statements)

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“…Adaptive resistance mutations in bacteria (Cohan, King, & Zawadzki, ; Melnyk, Wong, & Kassen, ), insects (Chevillon, Pasteur, Marquine, Heyse, & Raymond, ; Groeters, Tabashnik, Finson, & Johnson, ), and plants (Darmency, ; Vila‐Aiub et al, ) have been shown to incur resistance costs when they compromise normal function and metabolism (Uyenoyama, ). In particular, herbicide resistance point mutations may potentially trigger a number of biochemical changes at the herbicide target enzyme impairing enzyme catalytic capacity, reducing substrate affinity, and/or altering feedback inhibition, resulting in insufficient or excessive product biosynthesis and thus accounting for a resistance cost (Purrington & Bergelson, ; Vila‐Aiub et al, ; Vila‐Aiub, Yu, Han, & Powles, ; Yu et al, ).…”

Section: Discussionmentioning

confidence: 99%

A double EPSPS gene mutation endowing glyphosate resistance shows a remarkably high resistance cost

Han

Vila‐Aiub

Jalaludin

et al. 2017

Plant Cell & Environment

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A novel glyphosate resistance double point mutation (T102I/P106S, TIPS) in the 5-enolpyruvylshikimate-3-phosphate synthase (EPSPS) gene has been recently identified for the first time only in the weed species Eleusine indica. Quantification of plant resistance cost associated with the TIPS and the often reported glyphosate resistance single P106S mutation was performed. A significant resistance cost (50% in seed number currency) associated with the homozygous TIPS but not the homozygous P106S EPSPS variant was identified in E. indica plants. The resistance cost associated with the TIPS mutation escalated to 85% in plants under resource competition with rice crops. The resistance cost was not detected in nonhomozygous TIPS plants denoting the recessive nature of the cost associated with the TIPS allele. An excess of 11-fold more shikimate and sixfold more quinate in the shikimate pathway was detected in TIPS plants in the absence of glyphosate treatment compared to wild type, whereas no changes in these compounds were observed in P106S plants when compared to wild type. TIPS plants show altered metabolite levels in several other metabolic pathways that may account for the expression of the observed resistance cost.

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Section: Discussionmentioning

confidence: 99%

A double EPSPS gene mutation endowing glyphosate resistance shows a remarkably high resistance cost

Han

Vila‐Aiub

Jalaludin

et al. 2017

Plant Cell & Environment

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“…A number of natural glyphosate‐resistant EPSPS variants have been found in microorganisms (Barry et al ., ; Funke et al ., ; Cui et al ., ; Yi et al ., ) and engineered into crop cultivars (Barry et al ., ; Green, ). The basis for the commercial release of crops carrying these EPSPS variants is an acceptable degree of glyphosate resistance without substantial negative effects on EPSPS catalytic activity and, consequently, on crop yield (Funke et al ., ; Darmency, ; Cui et al ., ; Yi et al ., ). Recent work on EPSPS gene synthetic shuffling has made it possible to introduce up to 21 mutations into a single plant EPSPS gene to achieve glyphosate‐resistant variants with near‐normal catalytic functionality (Dong et al ., ).…”

Section: Do Epsps Target‐site Glyphosate Resistance Mutations Lead Tomentioning

confidence: 99%

“…Thus, the Ser‐264‐Gly mutant allele endows resistance to triazine and certain other PSII‐inhibiting herbicides. It has been widely observed that plants with the resistance‐endowing Ser‐264‐Gly allele express a mean fitness cost of 25% (Gronwald, ; Bergelson & Purrington, ; Darmency, ).…”

Section: Introductionmentioning

confidence: 99%

Do plants pay a fitness cost to be resistant to glyphosate?

Vila‐Aiub

Powles

2019

New Phytologist

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Summary We reviewed the literature to understand the effects of glyphosate resistance on plant fitness at the molecular, biochemical and physiological levels. A number of correlations between enzyme characteristics and glyphosate resistance imply the existence of a plant fitness cost associated with resistance‐conferring mutations in the glyphosate target enzyme, 5‐enolpyruvylshikimate‐3‐phosphate synthase (EPSPS). These biochemical changes result in a tradeoff between the glyphosate resistance of the EPSPS enzyme and its catalytic activity. Mutations that endow the highest resistance are more likely to decrease catalytic activity by reducing the affinity of EPSPS for its natural substrate, and/or slowing the velocity of the enzyme reaction, and are thus very likely to endow a substantial plant fitness cost. Prediction of fitness costs associated with EPSPS gene amplification and overexpression can be more problematic. The validity of cost prediction based on the theory of evolution of gene expression and resource allocation has been cast into doubt by contradictory experimental evidence. Further research providing insights into the role of the EPSPS cassette in weed adaptation, and estimations of the energy budget involved in EPSPS amplification and overexpression are required to understand and predict the biochemical and physiological bases of the fitness cost of glyphosate resistance.

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“…Finally, resistance to synthetic auxins was associated with various pleiotropic effects on the growth and architecture of A. thaliana , without any change in time from sowing to emergence, perhaps because the study included laboratory but not field mutants. Little additional information can be found on pleiotropic effects in studies of herbicide‐tolerant crop varieties obtained by mutation because there are few comparative studies on isogenic cultivars, and we do know that lack of dormancy is an essential trait for crops, so breeding plans quickly eliminate any obstacle against quick and complete germination, if any …”

Section: Timing Of Emergence and Herbicide Resistance: Co‐selection mentioning

confidence: 99%

“…Little additional information can www.soci.org H Darmency, N Colbach, V Le Corre be found on pleiotropic effects in studies of herbicide-tolerant crop varieties obtained by mutation because there are few comparative studies on isogenic cultivars, and we do know that lack of dormancy is an essential trait for crops, so breeding plans quickly eliminate any obstacle against quick and complete germination, if any. 23…”

Section: Pleiotropymentioning

confidence: 99%

Relationship between weed dormancy and herbicide rotations: implications in resistance evolution

Darmency

Colbach

Corre

2017

Pest Management Science

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It is suggested that selection for late germinating seed cohorts is significantly associated with herbicide resistance in some cropping systems. In turn, it is conceivable that rotating herbicide modes of action selects for populations with mutations for increased secondary dormancy, thus partially overcoming the delaying effect of rotation on resistance evolution. Modified seed dormancy could affect management strategies - like herbicide rotation - that are used to prevent or control herbicide resistance. Here, we review the literature for data on seed dormancy and germination dynamics of herbicide-resistant versus susceptible plants. Few studies use plant material with similar genetic backgrounds, so there are few really comparative data. Increased dormancy and delayed germination may co-occur with resistance to ACCase inhibitors, but there is no clear-cut link with resistance to other herbicide classes. Population shifts are due in part to pleiotropic effects of the resistance genes, but interaction with the cropping system is also possible. We provide an example of a model simulation that accounts for genetic diversity in the dormancy trait, and subsequent consequences for various cropping systems. We strongly recommend adding more accurate and detailed mechanistic modelling to the current tools used today to predict the efficiency of prevention and management of herbicide resistance. These models should be validated through long-term experimental designs including mono-herbicide versus chemical rotation in the field. © 2017 Society of Chemical Industry.

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Pleiotropic effects of herbicide-resistance genes on crop yield: a review

Cited by 32 publications

References 87 publications

A double EPSPS gene mutation endowing glyphosate resistance shows a remarkably high resistance cost

A double EPSPS gene mutation endowing glyphosate resistance shows a remarkably high resistance cost

Do plants pay a fitness cost to be resistant to glyphosate?

Relationship between weed dormancy and herbicide rotations: implications in resistance evolution

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