Abstract
BackgroundA mutant screening was carried out previously to look for new genes related to the Cucumber mosaic virus infection response in Arabidopsis. A Pumilio RNA binding protein-coding gene, Arabidopsis Pumilio RNA binding protein 5 (APUM5), was obtained from this screening.ResultsAPUM5 transcriptional profiling was carried out using a bioinformatics tool. We found that APUM5 was associated with both biotic and abiotic stress responses. However, bacterial and fungal pathogen infection susceptibility was not changed in APUM5 transgenic plants compared to that in wild type plants although APUM5 expression was induced upon pathogen infection. In contrast, APUM5 was involved in the abiotic stress response. 35S-APUM5 transgenic plants showed hypersensitive phenotypes under salt and drought stresses during germination, primary root elongation at the seedling stage, and at the vegetative stage in soil. We also showed that some abiotic stress-responsive genes were negatively regulated in 35S-APUM5 transgenic plants. The APUM5-Pumilio homology domain (PHD) protein bound to the 3′ untranslated region (UTR) of the abiotic stress-responsive genes which contained putative Pumilio RNA binding motifs at the 3′ UTR.ConclusionsThese results suggest that APUM5 may be a new post-transcriptional regulator of the abiotic stress response by direct binding of target genes 3′ UTRs.
Highlights
A mutant screening was carried out previously to look for new genes related to the Cucumber mosaic virus infection response in Arabidopsis
Arabidopsis Pumilio RNA binding protein 5 (APUM5) gene expression was enhanced in the mpk4-1 mutant background compared with accession Landsberg erecta (Ler) control plants (Additional file 1)
APUM5 transgenic plants did not show changes in susceptibility or resistance in the Pst DC3000 growth assay (Figure 1C). These data indicate that APUM5 is not required for bacterial pathogen resistance APUM5 was induced upon bacterial infection
Summary
A mutant screening was carried out previously to look for new genes related to the Cucumber mosaic virus infection response in Arabidopsis. The Pumilio RNA binding family proteins termed Puf proteins have repeats of a conserved PHD, which recognizes a highly conserved 8–10 nucleotide core motif It is largely unknown how plant Pufs control post-transcriptional/translational processing by binding to their target 3′ UTR transcripts, and their functions have been poorly analyzed. Recent work has identified putative mRNA targets of Arabidopsis Pumilio (APUM) proteins, and a comparative analysis of plant Puf proteins was performed [11,20] These results demonstrate that plant Puf proteins may act as post-transcriptional/translational repressors through an evolutionarily conserved mechanism, and their recombinant PHD protein binds to the nanos response element (NRE) sequence within the 3′ UTR of hunchback (hb) mRNA of the Drosophila Pumilio target. Analysis of APUM23 knock-out plant phenotypes revealed that APUM23 function is involved in rRNA processing in the Arabidopsis nucleolar region [21]
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