Enhanced metabolism and target gene overexpression confer resistance against acetolactate synthase‐inhibiting herbicides in <i>Bromus sterilis</i>

Sen, Madhab Kumar; Hamouzová, Kateřina; Mikulka, Jakub; Bharati, Rohit; Košnarová, Pavlína; Hamouz, Pavel; Roy, Amit; Soukup, Josef

doi:10.1002/ps.6241

Cited by 42 publications

(57 citation statements)

References 47 publications

(89 reference statements)

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“…Recent reports from the United Kingdom and the Czech Republic on B. sterilis , developing resistance against commonly used herbicides, indicate that if they remained uncontrolled, these species might become a concern worldwide 25 , 26 . Herbicide resistance mechanisms can be target-site based (TSR) and/or non-target site-based (NTSR).…”

Section: Discussionmentioning

confidence: 99%

“…Comparative RNA-seq transcriptome analysis between the control and experimental plants can be regarded as the most straightforward way to identify the genes involved in abiotic stresses like herbicide stress 20 . Recent studies on herbicide resistance mechanisms of B. sterilis suggest that both TSR and NTSR can be linked with the herbicide resistance in these species 25 , 26 . Nevertheless, detailed follow-up studies are essential to delineate further the regulatory mechanisms underlying the observed herbicide resistance mechanism 24 .…”

Section: Discussionmentioning

confidence: 99%

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Identification of the most suitable reference gene for gene expression studies with development and abiotic stress response in Bromus sterilis

Sen

Hamouzová

Košnarová

et al. 2021

Sci Rep

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Bromus sterilis is an annual weedy grass, causing high yield losses in winter cereals. Frequent use of herbicides had led to the evolution of herbicide resistance in this species. Mechanisms underlying herbicide resistance in B. sterilis must be uncovered because this problem is becoming a global threat. qRT-PCR and the next-generation sequencing technologies can elucidate the resistance mechanisms. Although qRT-PCR can calculate precise fold changes, its preciseness depends on the expression of reference genes. Regardless of stable expression in any given condition, no gene can act as a universal reference gene. Hence, it is necessary to identify the suitable reference gene for each species. To our knowledge, there are no reports on the suitable reference gene in any brome species so far. Thus, in this paper, the stability of eight genes was evaluated using qRT-PCR experiments followed by expression stability ranking via five most commonly used software for reference gene selection. Our findings suggest using a combination of 18S rRNA and ACCase to normalise the qRT-PCR data in B. sterilis. Besides, reference genes are also recommended for different experimental conditions. The present study outcomes will facilitate future molecular work in B. sterilis and other related grass species.

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Section: Discussionmentioning

confidence: 99%

Section: Discussionmentioning

confidence: 99%

Identification of the most suitable reference gene for gene expression studies with development and abiotic stress response in Bromus sterilis

Sen

Hamouzová

Košnarová

et al. 2021

Sci Rep

Self Cite

View full text Add to dashboard Cite

show abstract

“…Recent reports from the United Kingdom and the Czech Republic on B. sterilis, developing resistant against commonly used herbicides, indicate that if remained uncontrolled these species might become a concern worldwide 24,25 . Herbicide resistance mechanisms can be target-site based (TSR) and/or non-target site-based (NTSR).…”

Section: Discussionmentioning

confidence: 99%

“…sterilis suggest that both TSR and NTSR can be linked with the herbicide resistance in these species 24,25 . Nevertheless, detailed follow-up studies are essential to delineate further the regulatory mechanisms underlying the observed herbicide resistance mechanism 24 . However, among the herbicide resistance mechanisms, NTSR mechanisms are considered as more complex to elucidate than the TSRs 20 .…”

Section: Discussionmentioning

confidence: 99%

Identification of the Most Suitable Reference Gene for Gene Expression Studies With Development and Abiotic Stress Response in Bromus Sterilis

Sen

Hamouzová

Košnarová

et al. 2021

Preprint

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Bromus sterilis is an annual weedy grass, causing high yield losses in winter cereals. Frequent use of herbicides had led to the evolution of herbicide-resistance in this species. Mechanisms underlying herbicide resistance in B. sterilis must be uncovered because this problem is becoming a global threat. qRT-PCR and the next-generation sequencing technologies can contribute to elucidation of the resistance mechanisms. Although qRT-PCR can calculate precise fold changes, its preciseness depends on the expression of reference genes. Regardless of stable expression in any given condition, no gene can act as a universal reference gene. Hence, it is necessary to identify the suitable reference gene for each species. To our knowledge, there are no reports on the suitable reference gene in any brome species so far. Thus, in this paper, the stability of eight genes were evaluated using qRT-PCR experiments followed by expression stability ranking via five most commonly used softwares for reference gene selection. Our findings suggest using a combination of 18S rRNA and ACCase to normalise the qRT-PCR data in B. sterilis. Besides, reference genes are also recommended for different experimental conditions. The present study outcomes will facilitate future molecular work in B. sterilis and other related grass species.

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“…ALS gene overexpression occurs less frequently than target-gene mutations in weeds resistant to ALS-inhibiting herbicides. Yu et al (2020) and Sen et al (2021) have discovered that target-gene overexpression is associated with resistance to ALSinhibiting herbicides in annual sedge (Cyperus compressus L.) and barren brome (Bromus sterilis L.), respectively. non-target site based resistance (NTSR) mechanisms include reduction of herbicide translocation or uptake, increased sequestration, and detoxification (Délye 2013;Yuan et al 2007).…”

Section: Introductionmentioning

confidence: 99%

Molecular basis of resistance to bensulfuron-methyl and cross-resistance patterns to ALS-inhibiting herbicides in Ludwigia prostrata

et al. 2021

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Ludwigia prostrata Roxb. is a problematic weed in rice fields in China, and acetolactate synthase (ALS)-inhibiting herbicides (e.g., bensulfuron-methyl) are widely used for the management of broadleaf weeds. Recently, a L. prostrata biotype (JS-R) that failed to be controlled with ALS-inhibiting herbicides was found in Jiangsu Province, China. This study aims to determine the level and molecular mechanism of resistance to bensulfuron-methyl in this JS-R biotype, and evaluate the cross-resistance spectrums to other ALS-inhibiting herbicides. The dose-response assays indicated that the JS-R L. prostrata biotype had evolved 21.2-fold resistance to bensulfuron-methyl compared to the susceptible biotype (JS-S). ALS gene sequencing revealed that a nucleotide mutation (CCA to TCA) at codon 197, resulting in a Pro-197-Ser mutation, was detected in the resistant plants. Moreover, the JS-R biotype contained the Pro-197-Ser resistance mutation showed cross-resistance to pyrazosulfuron-ethyl (12.0-fold), but was sensitive to penoxsulam, bispyribac-sodium and imazethapyr, which may serve as alternative herbicides to control the resistant L. prostrata biotype. This is the first confirmation of a L. prostrata biotype resistant to bensulfuron-methyl due to a Pro-197-Ser resistance mutation in the ALS gene.

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Enhanced metabolism and target gene overexpression confer resistance against acetolactate synthase‐inhibiting herbicides in Bromus sterilis

Cited by 42 publications

References 47 publications

Identification of the most suitable reference gene for gene expression studies with development and abiotic stress response in Bromus sterilis

Identification of the most suitable reference gene for gene expression studies with development and abiotic stress response in Bromus sterilis

Identification of the Most Suitable Reference Gene for Gene Expression Studies With Development and Abiotic Stress Response in Bromus Sterilis

Molecular basis of resistance to bensulfuron-methyl and cross-resistance patterns to ALS-inhibiting herbicides in Ludwigia prostrata

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