用RAPD法研究火炬松愈伤组织发生的遗传特性(英文)

体外培养对于植物的快速繁殖是非常有效的。和其它一些松果类硬木植物一样,火炬松的体外培养成功率却一直很低。本工作研究了不同的基本培养基和低温条件对于火炬松Ｊ－５６, Ｓ－１００３, ａｎｄ Ｅ－４４０等三个品系的成熟合子胚形成愈伤组织、分化出芽、成苗的影响。在不同的基本培养基条件下芽分化的程度差异很大。合子胚经过９－１２周培养,开始分化,形成具有器官发生的愈伤组织（Ｆｉｇ．２ａ）。分化后３周,开始诱导出芽（Ｆｉｇ．２ｂ）,芽的生长快慢不同（Ｆｉｇ．２ｃ,ｄ）。同一个愈伤组织上会生出几个芽来（Ｆｉｇ．２ｅ）。在添加有ＩＢＡ和ＢＡ的ＴＥ培养基上芽生长最快（Ｆｉｇ．１）。低温条件持续 １５天,能增加芽的数量和分化的程度（Ｔａｂｌｅ１）。上述培养基中增加ＧＡ３时表明,ＧＡ３对于根的诱导有决定性的作用。将９８株再生苗转移到特殊的混合土壤上;成活了７５株苗（Ｆｉｇ．２ｆ）。以这三种火炬松的再生苗尖为材料制备ＤＮＡ。用２０个引物进行ＲＡＰＤ分析,结果表明：这三种火炬松苗的扩增产物是相同的（Ｆｉｇ．２ｇ,ｈ＆ｉ）。这说明：用愈伤组织克隆植株的过程中没有引起植物遗传变异。     

Cytological Mechanism of Cytoplasmic Inheritance in Pinus tabulaeformis: II. Transmission of Male and Female Organelles During Fertilization and Proembryo Development

In an earlier report the ultrastructure and nucleoid organelles of male gamete in Pinus tabulaeformis Carr. have been described. Presently, the ultrastructure of the cytoplasm of the egg cell and pollen tube—immediately before fertilization and during cytoplasmic transmission of male gametophyte—has been described for the same species. The fate of parental plastids and mitochondria in the proembryo has also been followed. The mature egg cell contains a large amount of mitochondria, but seems to lack normal plastids. Most plastids have transformed into large inclusions. Apart from the large inclusions, there are abundant small inclusions and other organelles in the egg cell. During fertilization, pollen tube penetrates into the egg cell at the micropylar end and thereafter the contents are released. Plastid and mitochondrion of male origin are lacking near the fusing sperm-egg nuclei. The second sperm nucleus—not involved in karyogamy—remains at a site near the receptive vacuole. This nucleus is surrounded by large amount of male cytoplasm containing mixed organelles from the sperm cell, tube cell, and egg cell. At the free nuclear proembryo stage, organelles of male and female origin are visible in the perinucleus-cytoplasmic zone. Most of the mitochondria have the same morphological features as those in the egg cell. Some of the mitochondria appear to have originated from the sperm and tube cells. Plastids are most likely of male gametophyte origin because they have similar appearance as those of the sperm and tube cell. Large inclusions in the egg cell become vacuole-like. Paternal plastids have been incorporated into the neocytoplasm of the proembryo. In the cellular proembryo, maternal mitochondria are more abundant. Plastids resembling those of the sperm and tube cell are still present. These cytological results clearly show that in P. tabulaeformis , plastids are inherited paternally and mitochondria bipaternally. The cytological mechanism of plastid and mitochondrion inheritance in gymnosperm is discussed.     

凉水国家自然保护区天然红松林遗传变异的RAPD分析

采用随机扩增多态DNA(random amplified polymorphic DNA RAPD)技术,研究了凉水国家自然保护区天然红松林的遗传变异水平及其分布规律。16个10bp长度的随机引物在8个实验样地内72个个体中共检测了96个位点,其中55个是多态位点。在种水平上,红松的多态位点比率为P=58.51%;Nei's遗传变异指数为H=0.2868;Shannon's指数为I=0.3654,所有的变异中,有92.47%的变异存在于样地内, 7.53%的变异存在于样地间。根据各遗传多样性在不同样地的分布,初步探讨了红松遗传变异水平与其种群发生及生境的相互关系。     

干旱胁迫对红松幼苗针叶超微结构的影响

在土壤逐渐失水和PEG溶液模拟的两种不同形式的干旱胁迫下,红松幼苗针叶细胞中叶绿体和线粒体超微结构的变化呈现出显著的差异。在土壤干旱胁迫下,叶绿体的片层结构发生严重的扭曲并在中央部分形成电子密度较高的黑色团块物质。PEG模拟的干旱胁迫下,叶绿体肿胀,空泡化明显,但在叶绿体的中央没有黑色团块物质的形成。在土壤干旱胁迫后,线粒体的膜结构仍然完整清晰,基质比胁迫前更为浓厚,而PEG溶液的干旱胁迫下,线粒体的数量增多,嵴明显减少,基质变得十分稀薄。可见两种不同方式的干旱胁迫处理下,细胞结构的损伤机制及损伤后产生的生理意义并不完全相同。     

外来入侵害虫红脂大小蠹对寄主挥发物的反应

2002年,利用寄主挥发性物质(+)-α-蒎烯、(-)-β-蒎烯、3-蒈烯和(-)柠檬烯按不同配比制成诱芯,采用自行研制的挥发物释放装置,在山西省关帝山森林经营局西葫芦林场对危害油松Pinus tabulaeformis Carr.的重大外来入侵林业害虫红脂大小蠹Dendroctomus valens LeConte进行了引诱试验。结果表明,3蒈烯对红脂大小蠹的引诱作用最强,明显优于单独使用(+)-α-蒎烯和(-)-β-蒎烯的诱虫效果,也比北美应用的标准诱芯［(+)- α蒎烯(-)-β-蒎烯与3-蒈烯的比例为1∶1∶1］效果好;在标准诱芯中加入油松另一主要成分-(-)柠檬烯会明显降低诱虫效果。红脂大小蠹引诱剂最佳释放量为150 mg/d。该研究不仅对我国红脂大小蠹的监控具有实际应用意义,也从理论上探讨了红脂大小蠹与寄主油松协同进化的化学生态学过程。     

IBA及NAA对山杜英组培苗生根过程中POD、PPO活性的影响

本文研究山杜英组培苗根诱导分化过程中过氧化物酶、多酚氧化酶活性变化。结果表明,在使用IBA和NAA后,对生根有显著影响,过氧化物酶活性在0~4d迅速下降,然后逐步上升,在根开始伸长时,活性又开始下降;不使用任何生长调节剂的情况下不生根,过氧化物酶活性在0~16d上升,然后开始下降;多酚氧化酶活性在整个根诱导中都维持在较低水平。     

红松种源材质性状研究

对帽儿山地区17 年生26 个红松种源试验林进行了材质性状研究, 主要包括材质性状在不同种源间遗传变异情况以及从髓心到树皮径向变异模式研究。结果表明:红松各项材质在不同种源间均存在着极显著差异。各项材质均存在着一定的径向变异模式, 主要表现在:红松各种源的管胞长度、管胞直径、木材密度和晚材率总体趋势是从髓心向外呈迅速增加趋势, 而年轮宽从髓心向外呈递减趋势。本项研究为红松材性早期选择和预测提供依据。     

长白山地区红松树干呼吸的研究

采用土壤呼吸气室于2003年5～10月测定了长白山阔叶红松林主要树种红松不同径阶不同方位的树干呼吸,同时监测了树干温度和林内温度.结果表明,树干呼吸速率具有明显的季节变化趋势,呈单峰曲线,8月出现最大值,2月呼吸速率最低.树干呼吸速率与树干温度具有显著幂指数关系,同时表现出大径阶树干呼吸速率与温度因子间曲线拟合效果好于小径阶红松.不同径阶树干呼吸速率均呈南面高于北面,并随树干径阶的减小南北面呼吸速率差异降低.不同径阶红松树干平均维持呼吸占总树干呼吸63.63%,红松树干径阶越大维持呼吸所占比例越大.依树干径阶大小顺序分别为66.76%、73.29%和50.84%.不同径阶红松树干呼吸Q₁₀值在2.56～3.32之间,利用呼吸Q₁₀值分别获得不同径阶树干R_t和R_m的季节变化趋势.因此,当估算生态系统呼吸时应考虑树干不同部位和不同径阶之间的差异.     

Synthesis and oxidative insolubilization of cell-wall proteins during osmotic stress

The cell walls in the new white roots of jack pine (Pinus banksiana Lamb.) were observed to constrict around the shrinking protoplast of osmotically stressed roots, and pressure was maintained via an apparent adjustment of cell-wall size and elasticity. These elastic alterations of the cell wall permitted the root cells to maintain full turgor despite the loss of most of the water in the tissue. The constriction of the root cell wall around the dehydrating protoplasts to maintain turgor may reflect changes in cell wall structure. We found that these shrinking root cells synthesize and secrete into the intercellular fluid a set of proteins. These proteins become tightly associated (i.e. guanidine HCl- and sodium dodecyl sulfate-insoluble) with the cell wall but can be released from the matrix, after briefly boiling in 0.1% sodium dodecyl sulfate, by the combination of guanidine HCl, CaCl₂ and dithiothreitol. However, these cell-wall proteins became insoluble with time. The proteins could subsequently be destructively extracted from the wall with acid NaClO₂ treatments. After these proteins were incorporated into the cell walls, the roots adopted a new, smaller maximal tissue volume and elastic coefficients returned to normal levels. Received: 8 July 1998 / Accepted: 19 November 1998