第四双小核草履虫减数分裂产物的退化特征分析

通过吖啶橙和Hoechst 33342两种活体荧光染料双染的方法对第四双小核草履虫(Paramecium tetraurelia)接合生殖过程中小核减数分裂产物进行观察,结果发现位于口旁锥外的小核分裂产物呈蓝绿色或黄绿色,表明它们以凋亡的方式发生退化.     

免疫荧光染色揭示草履虫接合生殖过程中静止原核的空间位置(英文)

在尾草履虫的接合生殖过程中,共有三次配前核分裂。在配前第三次分裂结束后,两个接合的细胞内均形成一个迁移原核和一个静止原核。迁移原核位于口旁锥内,而且紧贴于接合面,静止原核则位于迁移原核的外侧,两者呈左右排列,距离接近。但是,目前对导致两种原核近距离的原因尚不清楚。该文通过α-微管蛋白的单克隆抗体对受精核形成前的接合对进行了免疫荧光染色,结果发现,配前第三次分裂不同于前两次分裂,连接迁移原核和静止原核的核间连丝伸向细胞的后方,呈"U"或"V"型,结果导致两个原核左右排列,而不是前后排列,两者间的距离缩短。这个结果也阐明了造成两种原核近距离的原因。     

不同染色方法揭示纤毛原生动物草履虫接合生殖过程的新细节

通过石炭酸品红、Hoechst 33342、蛋白银及免疫荧光标记等染色方法对草履虫接合生殖过程进行了重新观察,结果发现:1)新月核是第一次减数分裂前期小核的主要形态学特征,在核内有一未被石炭酸品红、Hoechst 33342着色区域,蛋白银染色则清楚显示该结构;2)4个单倍体减数分裂产物中的1个核进入口旁锥完成配前第三次核分裂,其余3核退化.蛋白银染色和抗α微管蛋白单克隆抗体进行免疫荧光标记显示,核进入口旁锥的时期在第二次减数分裂末期而非减数分裂结束后;3)配前第三次分裂末期,核间连丝的中间段有一被蛋白银识别的结构,但免疫荧光标记却无显示,只表现为纤维状结构与两侧核间连丝相连.观察结果为草履虫接合生殖过程中相关分子生物学机制研究奠定了必要的形态学基础.     

Infectivity of Chlorella species for the ciliate Paramecium bursaria is not based on sugar residues of their cell wall components, but on their ability to localize beneath the host cell membrane after escaping from the host digestive vacuole in the early infection process

Summary. Paramecium bursaria cells harbor several hundred symbiotic algae in their cytoplasm. Algae-free cells can be reinfected with algae isolated from algae-bearing cells or cultivated Chlorella species through the digestive vacuoles. To determine the relationship between the infectivity of various Chlorella species and the nature of their cell wall components, algae-free P. bursaria cells were mixed with 15 strains of cultivated Chlorella species and observed for the establishment of endosymbiosis at 1 h and 3 weeks after mixing. Only 2 free-living algal strains, C. sorokiniana C-212 and C. kessleri C-531, were maintained in the host cells, whereas free-living C. sorokiniana C-43, C. kessleri C-208, C. vulgaris C-27, C. ellipsoidea C-87 and C-542, C. saccharophila C-183 and C-169, C. fusca var. vacuolata C-104 and C-28, C. zofingiensis C-111, and C. protothecoides C-150 and C-206 and the cultivated symbiotic Chlorella sp. strain C-201 derived from Spongilla fluviatilis could not be maintained. These infection-incapable strains could escape from the host digestive vacuole but failed to localize beneath the host cell membrane and were eventually digested. Labeling of their cell walls with Alexa Fluor 488-conjugated wheat germ agglutinin, GS-II, or concanavalin A, with or without pretreatment with 0.4 N NaOH, showed no relationship between their infectivity and the stainability with these lectins. Our results indicate that the infectivity of Chlorella species for P. bursaria is not based on the sugar residues on their cell wall and on the alkali-insoluble part of the cell wall components, but on their ability to localize just beneath the host cell membrane after escaping from the host digestive vacuole. Correspondence and reprints: Environmental Science and Engineering, Graduate School of Science and Engineering, Yamaguchi University, Yoshida 1677-1, Yamaguchi 753-8512, Japan.     

Genetics of the relationship between the ciliate Paramecium bursaria and its symbiotic algae

Abstract. Paramecium bursaria , a freshwater protozoan, typically harbors hundreds of symbiotic algae ( Chlorella sp.) in its cytoplasm. The relationship between host paramecia and symbiotic algae is stable and mutually beneficial in natural environments. We recently collected an aposymbiotic strain of P. bursaria . Infection experiments revealed that the natural aposymbiotic strain (Ysa2) showed unstable symbiosis with Chlorella sp. The algae aggregated at the posterior region of the host, resulting in aposymbiotic cell production after cell division. Cross-breeding analyses were performed to determine the heritability of the aposymbiotic condition. In crosses of Ysa2 with symbiotic strains of P. bursaria , F1 progeny were able to form stable symbioses with Chlorella sp. However, unstable symbiosis, resembling Ysa2 infection, occurred in some F2 progeny of sibling crosses between symbiotic F1 clones. Infection experiments using aposymbiotic F2 cells showed that these F2 subclones have limited ability to reestablish the symbiosis. These results indicate that the maintenance of stable symbiosis is genetically controlled and heritable, and that Ysa2 is a mutant lacking the mechanisms to establish stable symbiosis with Chlorella sp.     

Intermediate fragmentation per se provides stable predator-prey metapopulation dynamics

The extent to which a landscape is fragmented affects persistence of predator-prey dynamics. Increasing fragmentation concomitantly imposes conditions that stabilise and destabilise metapopulations. For the first time, we explicitly assessed the hypothesis that intermediate levels provide optimal conditions for stability. We examine four structural changes arising from increased fragmentation: increased fragment number; decreased fragment size; increased connectedness (corridors scaled to fragment); increased fragment heterogeneity (based on connectedness). Using the model predator-prey system (Didinium-Paramecium) we support our hypothesis, by examining replicated metapopulations dynamics at five fragmentation levels. Although both species became extinct without fragmentation, prey survived at low and high levels, and both survived at intermediate levels. By examining time to extinction, maximum abundances, and population asynchrony we conclude that fragmentation produces structural heterogeneity (independent of environmental heterogeneity), which influences stability. Our analysis suggests why some theoretical, field and microcosm studies present conflicting views of fragmentation effects on population persistence.     

One-base excess adaptor ligation method for walking uncloned genomic DNA

This report describes a novel and efficient method for walking the sequence of a genomic deoxyribonucleic acid (DNA) from a known region to an unknown region based on an oligodeoxynucleotide (oligo) cassette-mediated polymerase chain reaction technique. In this method, genomic DNA is digested by a restriction enzyme that generates a sticky 5′-end, followed by ligation of a one-base excess oligo-adaptor using T4 DNA ligase. The adaptor consists of two complementary oligos that form the same sticky end as the digested genomic DNA fragments, except that the 5′-overhang base overlaps the corresponding 3′-end base of the restriction site. This overhanging terminal base prevents ligation between the adaptors, and the appropriate molar ratio of adaptor to genomic DNA enables specific amplification of the target sequence. T4 DNA ligase catalyzes both the ligation of the phosphorylated overhang base of the adaptor to genomic DNA and the excision of the corresponding 3′-terminal base of the genomic DNA. This sequence-specific exonuclease activity of T4 DNA ligase was confirmed by ligation of an alternative adaptor in which the 5′-terminal base was not consistent with the corresponding 3′-terminal base. Using this technique, the 3′- and 5′-flanking sequences of the catalase gene of the ciliate Paramecium bursaria were determined.     

Graviresponses of Paramecium biaurelia during parabolic flights

The thresholds of graviorientation and gravikinesis in Paramecium biaurelia were investigated during the 5th DLR (German Aerospace Center) parabolic-flight campaign at Bordeaux in June 2003. Parabolic flights are a useful tool for the investigation of swimming behaviour in protists at different accelerations. At normal gravity (1 g) and hypergravity (1 g to 1.8 g), precision of orientation and locomotion rates depend linearly on the applied acceleration as seen in earlier centrifuge experiments. After transition from hypergravity to decreased gravity (minimal residual acceleration of <10(-2) g), graviorientation as well as gravikinesis show a full relaxation with different kinetics. The use of twelve independent cell samples per flight guarantees high data numbers and secures the statistical significance of the obtained data. The relatively slow change of acceleration between periods of microgravity and hypergravity (0.4 g/s) enabled us to determine the thresholds of graviorientation at 0.6 g and of gravikinesis at 0.4 g. The gravity-unrelated propulsion rate of the sample was found to be 874 microm/s, exceeding the locomotion rate of horizontally swimming cells (855 microm/s). The measured thresholds of graviresponses were compared with data obtained from earlier centrifuge experiments on the sounding rocket Maxus-2. Measured thresholds of gravireactions indicate that small energies, close to the thermal noise level, are sufficient for the gravitransduction process. Data from earlier hypergravity experiments demonstrate that mechanosensitive ion channels are functioning over a relative wide range of acceleration. From this, we may speculate that gravireceptor channels derive from mechanoreceptor channels.     

Establishment of axenic endosymbiotic strains of Japanese Paramecium bursaria and the utilization of carbohydrate and nitrogen compounds by the isolated algae

Cells of the green paramecium, Paramecium bursaria, contain several hundred endosymbiont cells. The properties of the symbionts are considered to vary depending on the collection site of the host. Difficulties in achieving axenic cells and maintenance of axenic strains for long periods have been reported for symbiotic algae from P. bursaria isolated in Japan. To establish axenic algal strains from such Japanese P. bursaria, symbionts were isolated carefully, and isolated axenic strains were grown on an agar medium containing organic nitrogen compounds. Symbiotic algal strains were obtained from three Japanese P. bursaria strains and their axenicity was confirmed by DAPI staining, cultural tests of bacterial contamination, and DGGE-PCR. These axenic strains have been maintained for over 2 years. Utilization of carbohydrates and nitrogen compounds by symbionts was examined. Monosaccharides (glucose and fructose) increased the growth of the symbiont but disaccharides (maltose and sucrose) did not. Japanese axenic symbionts were able to use ammonia and amino acids, but not nitrate or nitrite. While potent nitrite reductase activity was stimulated by nitrate induction, nitrate reductase activity was not. Nitrate utilization of Japanese symbionts differed from that reported for European and American symbionts.     

Autogamy is induced in Paramecium bursaria by methyl cellulose

When isolated single cells of Paramecium bursaria were treated with 1.25% methyl cellulose, most of the single cells showed nuclear changes which were substantially similar to those seen in conjugation, suggesting that the cells undergo autogamy. Additional cytological observations indicated that the cells underwent normal nuclear processes during autogamy. The ability to induce autogamy will facilitate genetic studies in P. bursaria.