By: BARBARA K. KEITH; ELENA B. KALININA; WILLIAM E.
DYER
In an ongoing effort to investigate the mechanism of auxinic herbicide resistance in Kochia scoparia (kochia), polymerase chain reaction‐based cDNA suppression subtractive hybridization was used to identify genes that are differentially expressed between dicamba‐resistant (HRd) and dicamba‐susceptible (S1) kochia biotypes in response to herbicide treatment. Both the HRd and S1 adaptor‐ligated cDNAs were used in separate hybridizations in order to generate biotype‐specific clones. A total of 710 cDNAs, representing putative differentially expressed mRNAs, were isolated and subjected to further screening. The false‐positive cDNAs were removed by conducting two colony hybridizations and at least one Northern hybridization. Differential or biotype‐specific expression was confirmed for six clones each from the HRd and S1 plants. The S1‐related genes were constitutively expressed at higher levels than in the HRd plants, but none had significant sequence similarity to known genes. Among the HRd‐related genes, HRd‐88 had 42% amino acid sequence identity to a conserved domain within thiol peptidases, which might be involved in auxin‐regulated gene expression. The constitutively expressed and inducible (by the dicamba treatment) HRd‐39 had 40% identity and 60% similarity to a domain from the Fe(II)/α‐ketoglutarate‐dependent hydroxylase superfamily. The HRd‐39 gene product had the characteristics of an enzyme that is able to detoxify
dicamba via oxidative hydroxylation and thus its
overexpression might confer the dicamba resistance phenotype.
In an ongoing effort to investigate the mechanism of auxinic herbicide resistance in Kochia scoparia (kochia), polymerase chain reaction‐based cDNA suppression subtractive hybridization was used to identify genes that are differentially expressed between dicamba‐resistant (HRd) and dicamba‐susceptible (S1) kochia biotypes in response to herbicide treatment. Both the HRd and S1 adaptor‐ligated cDNAs were used in separate hybridizations in order to generate biotype‐specific clones. A total of 710 cDNAs, representing putative differentially expressed mRNAs, were isolated and subjected to further screening. The false‐positive cDNAs were removed by conducting two colony hybridizations and at least one Northern hybridization. Differential or biotype‐specific expression was confirmed for six clones each from the HRd and S1 plants. The S1‐related genes were constitutively expressed at higher levels than in the HRd plants, but none had significant sequence similarity to known genes. Among the HRd‐related genes, HRd‐88 had 42% amino acid sequence identity to a conserved domain within thiol peptidases, which might be involved in auxin‐regulated gene expression. The constitutively expressed and inducible (by the dicamba treatment) HRd‐39 had 40% identity and 60% similarity to a domain from the Fe(II)/α‐ketoglutarate‐dependent hydroxylase superfamily. The HRd‐39 gene product had the characteristics of an enzyme that is able to detoxify
dicamba via oxidative hydroxylation and thus its
overexpression might confer the dicamba resistance phenotype.Yangzhou pioneer chemical CO.,LTD
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