Comparative analysis of microRNAs and putative target genes in hybrid clone <Emphasis Type="Italic">Paulownia</Emphasis> ‘yuza 1’ under drought stress

Drought stress in plants often leads to reduced productivity and limited geographic distribution, which can affect human life and ecosystems. The responses of diploid and tetraploid Paulownia tomentosa × Paulownia fortunei to drought have been reported, but the effects of drought stress on the levels of microRNA (miRNA) expression have not been published so far. Here, we constructed four small RNA (sRNA) libraries and four corresponding degradome libraries of well-watered and severe drought-treated diploid and tetraploid plants to identify the miRNAs and their putative target genes in Paulownia ‘yuza 1’, a P. tomentosa × P. fortunei hybrid clone, by sRNA and degradome sequencing. The putative target genes of miRNAs were annotated with gene ontology terms and Kyoto Encyclopedia of Genes and Genomes pathways. Three conserved and 21 novel miRNAs responsive to drought stress were found, in which 15 were identified as the main drought responsive miRNAs that conferred higher resistance in tetraploid than in diploid of Paulownia ‘yuza 1’. Our results will lay the foundation for investigating the roles of miRNAs in Paulownia and other trees in response to drought.     

Effect of high light intensity on the photosynthetic apparatus of two hybrid lines of <Emphasis Type="Italic">Paulownia</Emphasis> grown on soils with different salinity

The objective of this investigation was to evaluate the simultaneous action of light stress and salinity. Pulse amplitude modulated chlorophyll fluorescence, P₇₀₀ redox state, and pigment analysis were used to assess the impact of high light intensity on Paulownia tomentosa × fortunei and Paulownia elongata × elongata grown on soils with different salinity. It was found that light stress reduced the amount of pigments and the efficiency of photochemical energy conversion, inhibited the maximum and the effective quantum yields of PSII photochemistry, decreased photochemical quenching and photosynthetic rate. Data also showed influence on the primary quinone acceptor (Q_A) reoxidation, which led to the restriction of the electron flow from Q_A to plastoquinone and stimulation of the cyclic electron flow. The possible reasons for the increased effects of the light stress under conditions of high salt concentration in soil for Paulownia tomentosa × fortunei are discussed.     

Drought-inducible expression of <Emphasis Type="Italic">Hv</Emphasis>-miR827 enhances drought tolerance in transgenic barley

Drought is one of the major abiotic stresses reducing crop yield. Since the discovery of plant microRNAs (miRNAs), considerable progress has been made in clarifying their role in plant responses to abiotic stresses, including drought. miR827 was previously reported to confer drought tolerance in transgenic Arabidopsis. We examined barley (Hordeum vulgare L. ‘Golden Promise’) plants over-expressing miR827 for plant performance under drought. Transgenic plants constitutively expressing CaMV-35S::Ath-miR827 and drought-inducible Zm-Rab17::Hv-miR827 were phenotyped by non-destructive imaging for growth and whole plant water use efficiency (WUE_wp). We observed that the growth, WUE_wp, time to anthesis and grain weight of transgenic barley plants expressing CaMV-35S::Ath-miR827 were negatively affected in both well-watered and drought-treated growing conditions compared with the wild-type plants. In contrast, transgenic plants over-expressing Zm-Rab17::Hv-miR827 showed improved WUE_wp with no growth or reproductive timing change compared with the wild-type plants. The recovery of Zm-Rab17::Hv-miR827 over-expressing plants also improved following severe drought stress. Our results suggest that Hv-miR827 has the potential to improve the performance of barley under drought and that the choice of promoter to control the timing and specificity of miRNA expression is critical.