香荚兰种子的无菌萌发试验

香荚兰(Vanilla planifolia)是兰科、香荚兰属植物,主产于湿热地区。香荚兰的果实是国际上重要的食用香料的原料。大约在1960年,我国引入香荚兰试栽。生产上,通常用扦插法繁殖;但如用种子繁殖,虽然结实较晚(约7至8年开始结实,较扦插苗晚4—5年),但结实期长,盛产期可维持约15年。而且,在杂交育种过程中,一定要用种子繁殖。     

几种影响黑松针叶束离体培养再生植株的因子（简报）

以5年生黑松针叶束为外植体,经离体培养形成小植株。返幼的短针时束(3～10mm)芽诱导率最高。芽诱导和生长的最佳培养基分别为;1/2GD-1+BA0.5mg/L(单位下同)+NAA0.05+LH200和1/2GD-1+BA0.225+NAA0.001+GA_30.5。嫩梢生根率为1％,根数1～3条。从针叶束接种到小植株形成,约需200～240天。     

小麦—天兰偃麦草—黑麦三属杂种花粉植株诱导条件的研究

研究表明,三属杂种处于单核中晚期阶段的花粉最适于诱导形成愈伤组织。低温预处理对促进三属杂种花粉愈伤组织的诱导有一定的作用。利用以马铃薯提取物为基础物质的马铃薯-Ⅱ培养基作诱导培养基,其愈伤组织诱导与分化的频率比目前两个较好的合成培养基要高。同一个三属杂种F_1春、秋播种植株之间在形成愈伤组织的能力上有较大的差异,秋播材料形成愈伤组织的能力明显高于春播材料。F_(?)杂种植株诱导愈伤组织和分化植株的频率均比F_1杂种明显提高。     

诱导小麦-天兰偃麦草-黑麦三属杂种花粉植株的研究

以法国六倍体小黑麦为母本,分别与普通小麦(Triticum aestivum)和天兰偃麦草(Elytrigia intermedia of Agropyron glaucum)的杂交后代中的中间类型3号和5号杂交。由此获得的三属杂种F_1性状介于亲本之间,兼有三属亲本类型的特征,呈中间类型。用马铃薯-Ⅱ培养基培养三属杂种F_1的花药,诱导花粉愈伤组织。将所获得的愈伤组织转入190-2培养基进行分化,已成功地诱导出一批三属间杂种花粉植株,并用Giemsa显带技术鉴定花粉植株的染色体组组成。     

植物细胞在离体培养条件下的决定问题

“决定”(Determination)这一术语来自动物胚胎发育生物学,意指胚胎某一区域的组织或细胞只能向某一特定方向分化的发育状态。决定与否以及决定的程度必须用离体培养或异位移植的方法来测定。“决定”作为发育生物学上的一种现象,同样存在于高等植物中,如茎生长点的成花决定和     

大萼香茶菜丁素的化学结构

从大萼香茶菜叶中又分得一个具有细胞毒活性的新的二萜类化合物,命名为大萼香茶菜丁素(macrocalyxin D)。根据光谱和化学数据鉴定其化学结构为[3]。     

中国桑寄生科植物资料(二)

我国桑寄生科(狭义的)共有8属,约49种、7变种。现续报道大苞鞘花属Elytranthe Blume 1个新记录种,离瓣寄生属Helixanthera Lour.产于云南1个新记录种及其描述和西藏2个种,桑寄生属Loranthus Jacq.2个种,梨果寄生属Scurrula Linn.3个种和钝果寄生属Taxillus Van Tiegh.4个种的分布区和标本引证,以及一些种类的寄生,异名和错误文献等。 桑寄生科植物对木本经济植物具有危害性,作者在云南、广西和广东野外工作时,注意到在局部地区,“桑寄生类”对栽培的油茶林、普洱茶林、石梓林、云南油杉林、栎林,柿树及风景区的庭园树的危害情况,已成为主要的植物病害。     

在被小泡参与突触前后膜特化增厚的形态学研究

Our object was to characterize the morphological changes of coated vesicles and synaptic membranes during synaptogenesis. Neurons from spinal cords of fetal mice were established as isolated cells in primary culture. After a few days in vitro, the neurons extended their neurites and started their interaction. At timed intervals thereafter, cultures were fixed for electron microscopic observation. Coated vesicles were prominent in the neuronal cytoplasm at the time of synaptogenesis (about 7-10 days in vitro). Similar vesicles were seen in continuity with some cisternae in the Golgi regions and there was an increase in number during the synaptogenic period. Indeed it is not established whether the coated vesicles were exocytotic or pinocytotic in nature, but the cisternae which were in continuity with coated vesicles could be labelled by glucose-6-phosphatase (G6Pase) but not by thiamine pyrophosphatase (TPPase). Such vesicles were also seen in continuity with the neuronal plasmalemma near the closest contact site and contributed their undercoating to pre- and postsynaptic densities. The formation of bilateral membrane specialization was described as being structurally similar to synaptic active zones and appeared to be the first definitive sign of synapseformation. It has been suggested that the synaptic dense material may derive wholly or in part from the exocytic coated vesicles which apparently budding off from endoplasmic reticulum cisternae. This incorporation could provide the mechanism for confining specific characteristics of neuronal membrane to the synaptic region.