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AaERF1 positively regulates the resistance to Botrytis cinerea in Artemisia annua.

Lu X, Jiang W, Zhang L, Zhang F, Zhang F, Shen Q, Wang G, Tang K - PLoS ONE (2013)

Bottom Line: The results of electrophoretic mobility shift assay (EMSA) and yeast one-hybrid experiments showed that AaERF1 was able to bind to the GCC box cis-acting element in vitro and in yeast.The down-regulated expression level of AaERF1 evidently reduced the resistance to B. cinerea in A. annua.The overall results showed that AaERF1 positively regulated the resistance to B. cinerea in A. annua.

View Article: PubMed Central - PubMed

Affiliation: Fudan-SJTU-Nottingham Plant Biotechnology R&D Center, School of Agriculture and Biology, Shanghai Jiao Tong University, Shanghai, People's Republic of China.

ABSTRACT
Plants are sessile organisms, and they can not move away under abiotic or biotic stresses. Thus plants have evolved a set of genes that response to adverse environment to modulate gene expression. In this study, we characterized and functionally studied an ERF transcription factor from Artemisia annua, AaERF1, which plays an important role in biotic stress responses. The AaERF1 promoter had been cloned and GUS staining results of AaERF1 promoter-GUS transgenic A. annua showed that AaERF1 is expressed ubiquitiously in all organs. Several putative cis-acting elements such as W-box, TGA-box and Py-rich element, which are involved in defense responsiveness, are present in the promoter. The expression of AaERF1 can be induced vigorously by methyl jasmonate as well as by ethephon and wounding, implying that AaERF1 may activate some of the defense genes via the jasmonic acid and ethylene signaling pathways of A. annua. The results of electrophoretic mobility shift assay (EMSA) and yeast one-hybrid experiments showed that AaERF1 was able to bind to the GCC box cis-acting element in vitro and in yeast. Ectopic expression of AaERF1 could enhance the expression levels of the defense marker genes PLANT DEFENSIN1.2 (PDF1.2) and BASIC CHITINASE (ChiB), and increase the resistance to Botrytis cinerea in the 35S::AaERF1 transgenic Arabidopsis. The down-regulated expression level of AaERF1 evidently reduced the resistance to B. cinerea in A. annua. The overall results showed that AaERF1 positively regulated the resistance to B. cinerea in A. annua.

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The RNAi lines of AaERF1 show decreased disease resistance.A. The expression of AaERF1 in the empty vector and AaERF1i transgenic A. annua plants. Error bars are SE (n = 3). B. The empty vector and AaERF1i lines, without inoculation with Botrytis cinerea. C. The empty vector and AaERF1i lines, 6 d after inoculation with Botrytis cinerea, with AaERF1i lines showing increased disease symptoms. The experiment was performed three times with similar results.
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pone-0057657-g007: The RNAi lines of AaERF1 show decreased disease resistance.A. The expression of AaERF1 in the empty vector and AaERF1i transgenic A. annua plants. Error bars are SE (n = 3). B. The empty vector and AaERF1i lines, without inoculation with Botrytis cinerea. C. The empty vector and AaERF1i lines, 6 d after inoculation with Botrytis cinerea, with AaERF1i lines showing increased disease symptoms. The experiment was performed three times with similar results.

Mentions: Here, we constructed the RNAi vector of AaERF1 and transformed it into A. annua. The control experiment involving the transfer of empty plasmid pCAMBIA2300+ to A. annua was also conducted. The transgenic plants were first confirmed by genomic DNA-based PCR using the 35S forward primer, AaERF1 reverse primer and the reverse primer of kanamycin-resistant gene (Figure S3), and then three independent transgenic lines were chosen for further analysis. In the RNAi transgenic lines, the transcript levels of AaERF1 were suppressed to 46–61% of the control level (Figure 7A). The statistics analysis showed that the observed differences were statistically significant.


AaERF1 positively regulates the resistance to Botrytis cinerea in Artemisia annua.

Lu X, Jiang W, Zhang L, Zhang F, Zhang F, Shen Q, Wang G, Tang K - PLoS ONE (2013)

The RNAi lines of AaERF1 show decreased disease resistance.A. The expression of AaERF1 in the empty vector and AaERF1i transgenic A. annua plants. Error bars are SE (n = 3). B. The empty vector and AaERF1i lines, without inoculation with Botrytis cinerea. C. The empty vector and AaERF1i lines, 6 d after inoculation with Botrytis cinerea, with AaERF1i lines showing increased disease symptoms. The experiment was performed three times with similar results.
© Copyright Policy
Related In: Results  -  Collection

Show All Figures
getmorefigures.php?uid=PMC3585223&req=5

pone-0057657-g007: The RNAi lines of AaERF1 show decreased disease resistance.A. The expression of AaERF1 in the empty vector and AaERF1i transgenic A. annua plants. Error bars are SE (n = 3). B. The empty vector and AaERF1i lines, without inoculation with Botrytis cinerea. C. The empty vector and AaERF1i lines, 6 d after inoculation with Botrytis cinerea, with AaERF1i lines showing increased disease symptoms. The experiment was performed three times with similar results.
Mentions: Here, we constructed the RNAi vector of AaERF1 and transformed it into A. annua. The control experiment involving the transfer of empty plasmid pCAMBIA2300+ to A. annua was also conducted. The transgenic plants were first confirmed by genomic DNA-based PCR using the 35S forward primer, AaERF1 reverse primer and the reverse primer of kanamycin-resistant gene (Figure S3), and then three independent transgenic lines were chosen for further analysis. In the RNAi transgenic lines, the transcript levels of AaERF1 were suppressed to 46–61% of the control level (Figure 7A). The statistics analysis showed that the observed differences were statistically significant.

Bottom Line: The results of electrophoretic mobility shift assay (EMSA) and yeast one-hybrid experiments showed that AaERF1 was able to bind to the GCC box cis-acting element in vitro and in yeast.The down-regulated expression level of AaERF1 evidently reduced the resistance to B. cinerea in A. annua.The overall results showed that AaERF1 positively regulated the resistance to B. cinerea in A. annua.

View Article: PubMed Central - PubMed

Affiliation: Fudan-SJTU-Nottingham Plant Biotechnology R&D Center, School of Agriculture and Biology, Shanghai Jiao Tong University, Shanghai, People's Republic of China.

ABSTRACT
Plants are sessile organisms, and they can not move away under abiotic or biotic stresses. Thus plants have evolved a set of genes that response to adverse environment to modulate gene expression. In this study, we characterized and functionally studied an ERF transcription factor from Artemisia annua, AaERF1, which plays an important role in biotic stress responses. The AaERF1 promoter had been cloned and GUS staining results of AaERF1 promoter-GUS transgenic A. annua showed that AaERF1 is expressed ubiquitiously in all organs. Several putative cis-acting elements such as W-box, TGA-box and Py-rich element, which are involved in defense responsiveness, are present in the promoter. The expression of AaERF1 can be induced vigorously by methyl jasmonate as well as by ethephon and wounding, implying that AaERF1 may activate some of the defense genes via the jasmonic acid and ethylene signaling pathways of A. annua. The results of electrophoretic mobility shift assay (EMSA) and yeast one-hybrid experiments showed that AaERF1 was able to bind to the GCC box cis-acting element in vitro and in yeast. Ectopic expression of AaERF1 could enhance the expression levels of the defense marker genes PLANT DEFENSIN1.2 (PDF1.2) and BASIC CHITINASE (ChiB), and increase the resistance to Botrytis cinerea in the 35S::AaERF1 transgenic Arabidopsis. The down-regulated expression level of AaERF1 evidently reduced the resistance to B. cinerea in A. annua. The overall results showed that AaERF1 positively regulated the resistance to B. cinerea in A. annua.

Show MeSH
Related in: MedlinePlus