保藏菌种的先进方法

目前保藏细菌的常用方法有:①根据不同菌种低温保藏,隔双周或隔月移种传代,②在很低的温度下。使微生物细胞快速冻结且保持完整,然后在真空下使水分升华达到干燥,即冻干保存。前种操作简     

噬菌体T7基因6.5和6.7的克隆及其缺失变种的构建

 用适当的限制性内切酶,将噬菌体T7基因6.5和6.7从整个噬菌体T7基因组中分离出来,插入到质粒pBR322中去,转化E.Coli HMS174,筛选出这两个基因的成功克隆。运用同样手段,从整个噬菌体T7基因组中分离出含有部分基因6编码序列,而不含基因6.5和6.7编码序列的T7DNA片段,插入到pBR322的衍生质粒中去,转化Ecoli C1757,再用含有基因6和基因7的双突变噬菌体T7去感染这一转化菌,通过同源交叉而得到缺失基因6.5和6.7的噬菌体T7缺失变种。这种噬菌体只能在载有噬菌体T7基因6.5和6.7,或者只载有基因6.7质粒的寄主中增殖。通过噬菌体结构蛋白电泳分析证明,这种噬菌体丢失了野生型菌体T7所具有的两条结构蛋白带。     

温度和生长素对猕猴桃冬季扦插生根的影响

猕猴桃新近在世界上的许多地区均有种植。虽然曾采用许多常用的育苗法,以满足对苗木需求的日益增加,但唯有幼苗嫁接法和扦插法较为实用。软枝扦插发根相当容易,而硬枝扦插则偶有发根困难的现象。有关硬枝扦插的报道甚少,且试验结果不尽一致。应用底温22°—24℃或高至27℃,被认为是一项良好的技术,但尚未探明不同温度     

Action Spectrum for Resetting the Circadian Phototaxis Rhythm in the CW15 Strain of Chlamydomonas: II. Illuminated Cells

The action spectrum for resetting the phase of the circadian clock in Chlamydomonas reinhardtii is different depending upon whether the light stimuli are presented to cells that were in darkness versus dim illumination before stimulation. In this report, we show that phase resetting of illuminated cells appears to be mediated by components of the photosynthetic apparatus. This conclusion is based upon the action spectrum for phase-shifting illuminated cells (which looks like that for photosynthesis) and upon the fact that inhibitors of photosynthetic electron transport also inhibit the light-induced phase shift of illuminated cells. Both of these characteristics differ from that of cells taken from darkness. We, therefore, believe that at least two resetting pathways for this circadian clock exist and that both of these pathways are ecologically significant.     

ADP-Glucose Transport by the Chloroplast Adenylate Translocator Is Linked to Starch Biosynthesis

In organello starch biosynthesis was studied using intact chloroplasts isolated from spinach leaves (Spinacia oleracea). Immunoblot analysis using a specific antiserum against the mitochondrial adenylate (ADP/ATP) translocator of Neurospora crassa shows the presence of an adenylate translocator protein in the chloroplast envelope membranes, similar to that existing in mitochondria and amyloplasts from cultured cells of sycamore (Acer pseudoplatanus). The double silicone oil layer-filtering centrifugation technique was employed to study the kinetic properties of adenylate transport in the purified chloroplasts; ATP, ADP, AMP, and most importantly ADP-Glc were shown to be recognized by the adenylate translocator. Similar to the situation with sycamore amyloplasts, only ATP and ADP-Glc uptake was inhibited by carboxyatractyloside, an inhibitor of the mitochondrial adenylate translocator. Evidence is presented to show that the ADP-Glc transported into the chloroplast stroma is utilized for starch synthesis catalyzed by starch synthase (ADP-Glc:1,4-α-d-glucan 4-α-d-glucosyltransferase). The high activity of sucrose synthase producing ADP-Glc observed in the extrachloroplastic fractions suggests that starch biosynthesis in chloroplasts may be coupled with the direct import of ADP-Glc from the cytosol.     

Regulation of sucrose-sucrose-fructosyltransferase in barley leaves

The activity of sucrose-sucrose-fructosyltransferase (SST), a vacuolar enzyme strongly induced by light in excised leaves of barley (Hordeum vulgare L.), rapidly declined even in continuous light upon feeding of cycloheximide (CHI). The rate of decline was similar to that observed in light-treated leaves that were placed into darkness, in the presence or absence of CHI. The protease inhibitor leupeptin totally stopped the decline in SST activity in the dark and caused a substantial increase in the rate of induction of SST activity by light. Feeding of sucrose prevented or even reversed the SST activity decay induced by darkness in the absence of CHI but did not stabilize SST activity in the presence of CHI. The results suggest that SST is continuously subjected to rapid, constant proteolytic degradation in the vacuole, and that the enhancement of SST activity in the light or upon feeding sucrose in the dark is due exclusively to de novo protein synthesis.     

Two Apoplastic alpha-Amylases Are Induced in Tobacco by Virus Infection

α-Amylase activity (EC 3.2. 1.1) is greatly increased in leaves of tobacco (Nicotiana tabacum L. cv Samsun NN) infected with tobacco mosaic virus (TMV). The kinetics of enzyme induction during the hypersensitive reaction resemble those of other hydrolases known to be pathogenesis-related proteins of tobacco. Two α-amylases were purified from TMV-infected leaves and shown to have features in common with well-characterized pathogenesis-related proteins: they are acidic monomers that can be separated upon electrophoresis on basic native gels, and they are found in the apoplastic compartment of the cell. This extra-cellular localization was demonstrated by comparing the α-amylase partition between the intercellular wash fluid and the cell extract with that of proteins of known cellular compartmentalization. These data indicate an active secretion of both α-amylases produced in tobacco upon TMV infection.     

Efficiency of particle-bombardment-mediated transformation is influenced by cell cycle stage in synchronized cultured cells of tobacco

Plasmid DNA pB1221 harboring β-glucuronidase gene was delivered to synchronized cultured tobacco (Nicotiana tabacum L. cv Bright Yellow-2) cells of different cell cycle stages by a pneumatic particle gun. The cells bombarded at M and G₂ phases gave 4 to 6 times higher transformation efficiency than those bombarded at the S and G₁ phases.