Stable maintenance and expression of a foreign gene in transgenic pear shoots retrieved from in vitro conservation

Shoot-tips of transgenic pear were successfully conserved in vitro by slow-growth and cryopreservation methods. After 1 year of storage in slow growth conditions, all shoot-tips survived showing shoot re-growth. Similarly, shoot-tips showed high survival and regeneration rates after cryopreservation. The genetic stability of the transgenic GUS construct in shoots recovered from slow-growth and cryopreservation was assessed. The results from polymerase chain reaction and Southern blotting showed the stable maintenance of the GUS gene in genome, and the Single-Strand Conformation Polymorphism assay did not detect single base variation. X-Gluc staining suggested a normal expression of the GUS gene in shoots retrieved from these storage methods.     

产油微藻自养培养条件调控

作为新兴生物燃料的生物柴油近年来发展迅速,以微藻为代表的第二代生物能源是解决能源危机的长远之计,但如何提高其产量仍是研究的热点问题。以提高产油自养微藻生物量和油脂含量为目的,在气升式光反应器中运用均匀设计实验方法进行了条件优化试验。分别得出了氮原子浓度、通气速率、二氧化碳体积浓度和光照强度4个因素对小球藻C2生物量积累和油脂含量影响的显著回归方程和反应器优化培养条件。以生物量为指标的优化培养条件是:氮原子浓度0.178 g/L,通气速率5 L/min,二氧化碳体积浓度3%(V/V),光照强度6000 lx。该优化条件下,生物量为2.11 g/L,即生产速率为0.352 g/(L.d),比测试实验中检测到的最高生物量[1.88 g/L,即生产速率为0.313 g/(L.d)]提高了12.2%;以油脂含量为指标的优化培养条件是:进气速率0.400 L/min,二氧化碳体积浓度1.94%(V/V),得到油脂含量为22.4%,比测试实验中检测到的最高油脂量(20.7%)提高7.7%。     

Effects of Wind and Wind- sand Current on the Physiological Status of Different Sand- fixing Plants

In the field wind tunnel, the physiological status gas exchange characteristics and water relationship of three kinds of sand-fixing plants (including crust and bryophyte) were studied under wind blowing and wind-sand current condition, respectively. The effects of wind and wind- sand current were different. Wind caused erosion and desiccation of crest and bryophyte. The effects of wind on grass and shrub included:inhibited photosynthesis by expanded stomata; decreased leaf temperature and intercellular CO2 concentrations;enhanced transpiration and decreased water use efficiency; aggravated desiccation by lowered leaf water potential and water capacity of soil. But the effects of wind-sand current on crest and bryophyte were denudation and cumulation, on grass and shrub were mainly mechanical injury and more did on photosynthesis and water usage. The result that different plants responsed differently in adaptation to wind and wind-sand current stress may provide scientific basis for selecting sand-fixing plants.