巴西橡胶树HbMYB52基因的克隆及其在拟南芥中的表达

为揭示Hb MYB52在巴西橡胶树(Hevea brasiliensis)木材发育过程中的功能,从其转录组中分离克隆到1个MYB转录因子G21亚组成员基因,命名为Hb MYB52,开放阅读框为726 bp,编码242个氨基酸的蛋白,在木质部中高度表达。在拟南芥(Arabidopsis thaliana)中过表达Hb MYB52,虽未改变转基因植株株型,但植株维管束间纤维细胞壁明显增厚,同时抑制了木质纤维、导管次生壁形成。转基因拟南芥株系3和株系6中纤维素和木质素含量减少,相应各组分合成的关键酶基因的表达量也不同程度下降;株系8产生了木质素异位沉积,且木质素合成关键酶基因表达活跃。因此,推测Hb MYB52参与了植物次生壁形成调控,在拟南芥次生壁形成中可能发挥了双重功能:一方面负调控维管束次生壁形成以及各组分的生物合成,另一方面具有促进束间纤维次生壁增厚的作用。     

Downregulation of high-isoelectric-point extracellular superoxide dismutase mediates alterations in the metabolism of reactive oxygen species and developmental disturbances in hybrid aspen

Transgenic hybrid aspen (Populus tremula L. x P. tremuloides Michx.) plants expressing a high-isoelectric-point superoxide dismutase (hipI-SOD) gene in antisense orientation were generated to investigate its function. Immunolocalization studies showed the enzyme to be localized extracellularly, in the secondary cell wall of xylem vessels and phloem fibers. The antisense lines of hipI-SOD exhibited a distinct phenotype; growth rate was reduced, stems were thinner and leaves smaller than in wild-type (WT) plants. The abundance of hipI-SOD was reduced in the bark and xylem of plants from these antisense lines. The vascular tissue of transgenic lines became lignified earlier than in WT plants and also showed an increased accumulation of reactive oxygen species (ROS). Xylem fibers and vessels were shorter and thinner in the transgenic lines than in WT plants. The total phenolic content was enhanced in the antisense lines. Furthermore, microarray analysis indicated that several enzymes involved in cell signaling, lignin biosynthesis and stress responses were upregulated in apical vascular tissues of transgenic plants. The upregulation of selected genes involved in lignin biosynthesis was also verified by real-time PCR. The results suggest that, in the transgenic plants, a premature transition into maturation occurs and the process is discussed in terms of the effects of increased accumulation of ROS due to reduced expression of hipI-SOD during development and differentiation.     

Overexpression of a developing xylem cDNA library in transgenic poplar generates high mutation rate specific to wood formation

We investigated feasibility of the Full‐length complementary DNA OvereXpression (FOX) system as a mutagenesis approach in poplar, using developing xylem tissue. The main goal was to assess the overall mutation rate and if the system will increase instances of mutants affected in traits linked to the xylem tissue. Indeed, we found a high mutation rate of 17.7%, whereas 80% of all mutants were significantly affected in cellulose, lignin and/or hemicellulose. Cell wall biosynthesis is a major process occurring during xylem development. Enrichment of mutants affected in cell wall composition suggests that the tissue source for the FOX library influenced the occurrence of mutants affected in a trait linked to this tissue. Additionally, we found that FLcDNAs from mutants affected in cell wall composition were homologous to genes known to be involved in cell wall biosynthesis and most recovered FLcDNAs corresponded to genes whose native expression was highest in xylem. We characterized in detail a mutant line with increased diameter. The phenotype was caused by a poplar homolog of LONELY GUY 1 (LOG1), which encodes an enzyme in cytokinin biosynthesis and significantly increased xylem proliferation. The causative role of LOG1 in the observed phenotype was further reaffirmed by elevated cytokinin concentration in the mutant and recapitulation overexpression experiment wherein multiple independent lines phenocopied the original FOX mutant. Our experiments show that the FOX approach can be efficiently used for gene discovery and molecular interrogation of traits specific to woody perennial growth and development.