Abstract
Centaurea cyanus, belonging to the Asteraceae family, is an arable weed species encountered mainly in fields with cereals, sugar beet, and maize. The high genetic variability of C. cyanus has been recently reported; however, little is known about its sequence variability in the context of its herbicide resistance. C. cyanus resistance was found mainly against acetolactate synthase (ALS) inhibitors, but no ALS sequence information concerning the herbicide resistance mechanism has been published yet. The aim of this study was to determine the ALS sequences for biotypes susceptible and resistant to tribenuron-methyl in order to identify mutations that may be associated with the resistance emergence. DNA isolation from susceptible and resistant plants was followed by PCR amplification and ALS sequencing. As a result, different lengths of DNA products were obtained. Moreover, both nucleotide and amino acid sequence analysis revealed high sequence variability within one plant as well as between plants from the same biotype. In a few resistant plants, four changes in the amino acid sequence were identified in comparison to those in the susceptible ones. However, these preliminary studies require further investigation toward confirming the significance of these mutations in herbicide resistance development. This study provides preliminary information contributing to the research on the C. cyanus target-site resistance mechanism.
Highlights
Published: 15 November 2021Centaurea cyanus L. is an annual weed species belonging to the Asteraceae family
This study provides preliminary information contributing to the research on the C. cyanus target-site resistance mechanism
The aim of this study was to analyse and compare the acetolactate synthase (ALS) sequences of C. cyanus plants that belong to the biotypes susceptible and resistant to tribenuron-methyl
Summary
Centaurea cyanus L. is an annual weed species belonging to the Asteraceae family. It is commonly found in fields with cereals, sugar beet, and maize. In certain countries, it is increasingly rare, while in others, e.g., in those in Central and Eastern Europe, it is more frequently encountered. 22 active ingredients of herbicides are recommended for controlling C. cyanus in Europe [1]. The herbicides that are recommended for the control of this weed belong mainly to acetolactate synthase (ALS) and photosystem II inhibitors and synthetic auxins groups. The first reports concerning C. cyanus resistance to chlorsulfuron (ALS inhibitor) date back to 2008 [2] and its cross-resistance to chlorosulfuron and tribenuron-methyl was detected in 2010 [3]. Resistant C. cyanus biotypes have been identified only in Poland [4]
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