多头绒泡菌微原质团瞬时表达系统的构建

真核生物多头绒泡菌的原质团是研究细胞周期的好材料。但尚无合适的表达体系可供选择。本研究用多头绒泡菌ardC actin基因启动子和终止子分别替换哺乳动物细胞表达质粒pDsRed1-N1的CMVIE和SV40 polyA片段,构建了多头绒泡菌红色荧光蛋白(RFP)表达质粒pXM1;用PardC-MCS-DsRed1-TardC替换pTB38表达盒PardC-hph-TardC,构建了多头绒泡菌RFP表达质粒pXM2。将多头绒泡菌转录延伸因子类似蛋白(PELF1)基因与质粒pXM2重组,构建了PELF1红色荧光融合蛋白(PELF1-RFP)表达质粒pXM2-pelf1。通过荧光显微镜和激光扫描共聚焦显微镜观察RFP表达发现,电转参数为4kV/cm(电场)、1A(电流)、70μs(电击时间)时,质粒pXM1和pXM2电转多头绒泡菌微原质团(≤500μm)后24～48h内,RFP荧光最显著;而PELF1-RFP则主要聚集在多头绒泡菌细胞核,说明本试验建立的表达系统可以用于研究特定蛋白在多头绒泡菌内的瞬时表达。     

Studies on microplasmodia of Physarum polycephalum

Summary Fluorescently labeled actin (TRITC-G-actin) and heavy meromyosin (TRITC-HMM) derived from skeletal muscle and injected into microplasmodia of the acellular slime mold Physarum polycephalum were used to analyze the function of a cortical and fibrillar actin system in living specimens. The plasma membrane-attached cortical system can be labeled with TRITC-G-actin as well as with TRITC-HMM and visualized as a continuous sheath along the entire cell surface. Long-term experiments over time periods of several hours in conjunction with digital grey-value evaluations revealed that changes in the intensity of the fluorescent signal, as caused by alternative contraction and relaxation cycles of the cortical system, are distinctly correlated with periodic changes in the volume and shuttle streaming activity of the microplasmodia. The fibrillar actin system extending through the cytoplasmic matrix can be labeled only with TRITC-HMM. Formation and disappearance of fibrils were found to take place during relaxation and contraction of the cortical system, respectively. Results of the present paper indicate that the cortical actin system is mainly involved in motive force generation for alterations in cell surface morphology and locomotion activity, whereas the fibrillar actin system rather appears to maintain the mechanical stability of microplasmodia.Abbreviations ATP adenosine-5'-triphosphate - BSA bovine serum 'albumin - DTE 1,4-dithioerythrit - EGTA ethyleneglycol-bis-(-amino-ethylether)-N,N,N,N,-tetraacetic acid - HMM heavy meromyosin - PIPES l,4-piperazine-N,N-bis-(2-ethanesulfonic acid) - Rh rhodamine - TRIS Tris-(hydroxylmethyl)-aminomethane - TRITC tetramethyl rhodamine isothiocyanate     

Studies on microplasmodia of Physarum polycephalum

Summary Fragments excised from front regions of thinspread Physarum plasmodia were used to examine a possible correlation between the periodical dynamic activity of such specimens and the spatial organization of actin fibrils. Under isotonic conditions, symmetrical contractions and relaxations of the entire fragment alternate with a period of 1–4 min, whereas under isometric conditions local contractions and relaxations occur simultaneously in different regions of the same specimen. Rapid fixation and phalloidin-staining at distinct stages of the contraction-relaxation cycle demonstrates the permanent existence of cytoplasmic actin fibrils under both isometric and isotonic conditions. During the transition from relaxation to contraction the fibrils shorten in length from 25.5 m to 21.0 m and increase in density from 1.2 fibrils/1000 m² to 2.3 fibrils/1000 m². The present results demonstrate that actin fibrils in Physarum plasmodia are not completely decomposed and reformed every contraction-relaxation cycle.Series Studies on microplasmodia of Physarum polycephalum VIII     

多头绒泡菌肌球蛋白的纯化及性质的研究

从多头绒泡菌中纯化了肌球蛋白,并对其亚基组成及ＡＴＰ酶性质进行了研究。该肌球蛋白是由一种重链（２２５ｋＤ）和两种轻链（２０ｋＤ,１７．５ｋＤ）组成的大分子,其亚基之比为ＨＣ：ＬＣ１：ＬＣ２＝２：４：２。兔肌Ｆ－肌动蛋白能较大激活粘菌肌球蛋白ＡＴＰ酶活性,Ｃａ~（２＋）离子也能提高其活性,Ｍｇ~（２＋）离子无明显影响。钒酸盐,碘乙酸,对氯汞苯甲酸对其ＡＴＰ酶活性有显著抑制作用。     

细胞松弛素B对多头绒泡菌有丝分裂的影响

将细胞松弛素Ｂ（Ｃｙｔｏｃｈａｌａｓｉｎ Ｂ,ＣＢ）注入同步化的多头绒泡菌原质团,在光镜和电镜下跟踪观察有有丝分裂进程,发现多头绒泡菌进入有丝分裂的时间推迟,与未经ＣＢ处理的样品相比,在Ｓ期注入ＣＢ的样品进入有丝分裂的时间推迟３５ｍｉｎ,在Ｇ２早期注入ＣＢ的样品则推迟２０ｍｉｎ;在Ｇ２中期注入的推迟４５ｍｉｎ;在Ｇ２晚期注入的推迟６０ｍｉｎ,说明抑制肌动蛋白的功能则使有丝分裂受到明显影响。ＣＢ处理     

多头绒泡菌银染核仁周期的电镜研究

以同步化培养的多头绒泡菌（Physarum poldycephalum Schw.)原生质团为材料,应用整体银染技术,电镜下研究了核仁在细胞周期中的超微结构变化。结果变化：核仁成熟时比较大,位于细胞核中央,核仁内可区分出纤维中心、密集纤维成分和颗粒成分等。前期时,核仁向边缘移动,前期末在近核膜处解体,解体的核仁物质主要呈团块状散开。中期时,解体的核仁物质位于细胞核中央染色体区域的周围,染色体上没有特异的银染区域,染色体周边也看不到银染的“鞘”状结构,但在染色体中可见一些散在的银染大颗粒。末期时,核仁物质与染色体一起到达两极,在子细胞核中与正在解集缩的染色质共存一起,以后核仁物质逐渐汇合并与染色质分开。大约在有丝分裂结束120min后,在细胞核中形成一候 中央位置的大核仁,结果提示,低等真核生物的核仁结构和周期变化与高等真核生物的不完全相同。     

Electron Microscopic Studies on the Silver-stained Nucleolar Cycle of Physarum polycephalum

The dynamic changes of nucleolar ultrastructure in the cell cycle of Physarum polycephalum Schw. were studied by an en bloc silver-staining method. The results showed that the nucleolus was large in size and situated in the center of the nucleus in late G2-phase, and the fibrillar centers, dense fibrillar components and granular components could be observed in the nucleolus. During prophase, the nucleolus moved towards the periphery of the nucleus and in late prophase disintegrated near the nuclear envelope. In metaphase, the disintegrated nucleolar components were dispersed in masses and located at the periphery of the chromosomal region of the nucleus. No specifically silver-stained area and argentophilic protein sheath were observed on the chromosomes, but there were some big dispersed silver particles within the chromosomes. During telophase the nucleolar components moved towards the two poles along with the chromosomes and co-existed with the decondensing chromatin in daughter nuclei. The nucleolar components then gradually converged with one another and separated from the chromatin. A big nucleolus was formed in the nucleus about 120 min after the completion of mitosis.     

Revertants of selfing (gad) mutants in Physarum polycephalum

The conversion of the uninucleate amoebal form of Physarum polycephalum to the multi-nucleate plasmodial form is under the control of a genetic region which contains matA (or mt), a determinant of mating specificity. The region is the site of most gad mutations, which give amoebae the ability to produce plasmodia in clones without mating (ie, to self). In the present study, nonselfing revertants were isolated from two matA2-derived gad mutants and two matA3-derived gad mutants. Some revertants were found to have regained exactly, or nearly, the same phenotype as the original matA2 or matA3 strain. Others expressed new mating types, having gained the ability to mate with strains of the parental matA type. The results are compatible with a model in which new mating types arise from forward mutations (gad) and back mutations (npf or no plasmodium formation) occurring successively in a single gene, matA.     

Food deprivation is not a prerequisite for the amoebal to plasmodial transition in Physarum polycephalum

The effect of food supply on the onset of asexual and sexual plasmodium formation in Physarum polycephalum was studied. Asexual differentiation occurs readily in amoebae carrying the matAh mating type allele. The density at which these amoebae begin to differentiate is influenced by the ind locus, which controls the production of a diffusible inducer. The alleles ind-1 and ind-2 are known. Strains carring the ind-1 allele begin plasmodium formation at a low amoebal density (rapid differentiation), while strains carring the ind-2 allele differentiate at a higher amoebal density (slow differentiation). The onset of differentiation is characteristic of the strain and did not change with a 20-fold variation in the number of food bacteria available. Sexual differentiation occurs between compatible amoebal strains. For a given pair of amoebal strains the onset of plasmodium formation occurs at a characteristic cell density that is determined by the genetic backgrounds of the strains. The ind locus is one of the genes that influences this cell density. Plasmodia are formed at a lower cell density in crosses involving compatible amoebae carrying the ind-1 allele than they are in crosses with strains carrying the ind-2 allele. As was found for asexual differentiation, an approximate 20-fold variation in the food supply did not affect the initiation of sexual plasmodium formation. These results suggest that in most cases starvation does not trigger the differentiation of amoebae into plasmodia. The time of onset of plasmodium formation is determined largely by genetic factors.     

多头绒泡菌核仁骨架的研究

从多头绒泡菌（Ｐｈｙｓａｒｕｍ　ｐｏｌｙｃｅｐｈａｌｕｍ　Ｓｃｈｗ）间期细胞核中分离出核仁,用ＤＮａｓｅ　Ｉ、０．２５ｍｏｌ／Ｌ（ＮＨ４）２ＳＯ４和２ｍｏｌ／ＬＮａＣｌ去除核仁ＤＮＡ和大部分蛋白质,得到核仁骨架。核仁骨架是直径１０３０ｎｍ的纤维组成的网络结构,含有约２０种多肽,其中包括与肌动蛋白电泳迁移率相当的４３ｋＤ左右的多肽。免疫荧光检测结果表明,核仁骨架能与肌动蛋白抗体结合而发出明亮的荧光。免疫斑点印迹结果进一步证实,核仁骨架的蛋白质成分中存在肌动蛋白。免疫电镜结果指出,代表肌动蛋白的金颗粒分布在整个核仁中。     

A novel Physarum polycephalum SR protein kinase specifically phosphorylates the RS domain of the human SR protein,ASF/SF2

A 1591-bp cDNA of a serine-rich protein kinase （SRPK）-Iike protein has been identified in Physarum polycephalum （GenBank accession No. DQ140379）. The cDNA contains two repeat sequences at bp 1-153 and bp 395-547. The encoding sequence is 56% homologous to human SRPK1 and is named Physarum SRPK （PSRPK）. Consistent with other SRPKs, the consensus motifs of PSRPK are within the two conserved domains （CDs）. However, divergent motifs between the N-terminal and CDs are much shorter than the corresponding sequences of other SRPKs. To study the structure and function of this protein, we performed co-expression experiment in Escherichia coli and in vitro phosphorylation assay to investigate the phosphorylation effect of recombinant PSRPK on the human SR protein, ASF/SF2. Western blot analysis showed that PSRPK could phosphorylate ASF/SF2 in E. coil cells. Autoradiographic examination showed that both recombinant PSRPK and a truncated form of PSRPK with a 28-aa deletion at the N-terminus could phosphorylate ASF/SF2 and a truncated form of ASF/SF2 that contains the RS domain. However, these two forms of PSRPK could not phosphorylate a truncated form ASF/SF2 that lacks the RS domain. A truncated form of PSRPK that lacks either of CDs does not have any phosphorylation activity. These results indicated that, like other SRPKs, the phosphorylation site in PSRPK is located within the RS domain of the SR protein and that its phosphorylation activity is closely associated with the two CDs. This study on the structure and function of PSRPK demonstrates that it is a new member of the SRPK family.     

Actin Is Localized in the Nucleolar Skeleton of Physarum polycephalum

Nucleoli were isolated from the interphase nuclei of Physarum polycephalum Schw. 'lhe nucleolar skeleton was obtained after DNA and most of the nucleolar proteins were extracted with DNase I 0.25 mol/L ( NH4)2SO4 and 2 mol/L NaC1. The nucleolar skeleton appeared as a fibrous network structure composed of fibres about 10 to 30 nm in diameter when observed under the electron microscope. SDS-PAGE analyses revealed about 20 polypeptides in the nucleolar skeleton, including a 43 kD pelypeptide which is equivalent to actin in molecular weight, lmmunofiuorescence observations upon slide preparations of the nueleolar skeleton labeled with anti-actin antibody showed that the nucleolar skeleton emanated bright fluorescence, indicating the existence of thc antigen, lmmunodotting assays further localized actin in the protein preparations of the nucleolar skeleton. Results of immuno-electron microscopy, with anti-actin antibody and protein A-gold as probes, indicated that gold particles were distributed all over the nucleolus of the interphase nucleus.     

A PSTAIRE CDK-like protein localizes in nuclei and cytoplasm of Physarum polycephalum and functions in the mitosis

CDKs play key roles in controlling cell cycle progression in all eukaryotes. In plants, multiple CDKs are present,among which the best characterized CDKs are PSTAIRE CDKs. In this study, we carried out Western blot,immunoelectron microscopy and antibody treatment with an anti-PSTAIRE monoclonal antibody to explore the subcellular localization and functions of PSTAIRE CDKs in Physarum polycephalum. The results of Western blot and immunoelectron microscopy showed that in P. polycephalum, a PSTAIRE CDK-like protein was 34 kD in molecular weight and located in both nuclei and cytoplasm. In nuclei, the protein was mainly associated with chromosomes and nucleoli. The expression of the PSTAIRE CDK-like protein in both the plasmodia and nuclei showed little fluctuation through the whole cell cycle. When treated with an anti-PSTAIRE monoclonal antibody at early S phase, the cells were arrested in S phase, and the mitotic onset of P. polycephalum was blocked for about 1 h when treated at early G2 phase.Our data indicated that the PSTAIRE CDK-like protein has a direct bearing on the mitosis.     

灰绒泡菌生活史及其子实体发育过程的显微观察

为明确灰绒泡菌Physarum cinereum的个体发育特征,本研究在实验室条件下完成了该菌的生活史,并对其子实体发育过程进行显微观察。灰绒泡菌P. cinereum孢子萌发方式为裂式,显型原质团水白色;子实体形态建成可分为孢囊形成期和孢囊成熟期,孢囊成熟期幼孢囊颜色随着孢子的形成呈现白色-红棕色-黑褐色逐渐加深的变化;子实体在发育过程中孢丝形成后原生质割裂形成孢子。     

多头绒泡菌核仁及其骨架中原肌球蛋白的免疫细胞化学鉴定

分离多头绒泡菌(physarum polycephalum)细胞的核仁,先用Dnase I消化,去除核仁内的DNA;然后用025mol/L (NH4)2ＳＯ４和2mol/L NaCl相继抽提去掉大部分蛋白质,制备成核仁骨架。SDSPAGE分析结果表明,核仁骨架中含有约20种多肽,其中包括37kD左右与原肌球蛋白分子量相当的多肽。以兔抗原肌球蛋白抗体为一抗,FITC标记的羊抗兔IgG抗体为二抗的间接免疫荧光检测结果表明,核仁和核仁骨架样品都能发出明亮的荧光,而对照样品未见明亮的荧光。间接免疫斑点印迹检测结果进一步证明,在核仁骨架的蛋白质成分中存在原肌球蛋白。胶体金免疫电镜检测结果显示,标记原肌球蛋白抗体的标本上有较多的金颗粒,而对照组标本上只有极少的金颗粒。金颗粒在核仁中主要呈散在分布。     

多头绒泡菌类cyclin B1蛋白在细胞周期中的变化

以自然同步化的多头绒泡菌(Physarum polycephalum L.)为材料,经抗cyclin B1抗体的免疫印迹和免疫电镜实验观察结果表明,多头绒泡菌中含有类cyclin B1蛋白,该蛋白的含量和细胞内位置在细胞周期进程中存在着动态变化:类cyclin B1蛋白在S期开始合成并在细胞质中积累,G2晚期开始进入细胞核,该蛋白在细胞质和细胞核中含量逐渐增加,有丝分裂中期时达最大值,后末期时骤然消失.在G2晚期到有丝分裂中期期间,类cyclin B1蛋白既是细胞核蛋白又是细胞质蛋白,细胞质是类cyclin B1蛋白的主要存在区域,细胞核中的类cyclin B1蛋白主要结合于染色体和核仁区域.     

多头绒泡菌间期细胞核中RNA的转录状况

利用BrUTP免疫标记技术,研究了多头绒泡菌（Physarum polycephalum Sclhw.）间期细胞核中RNA的转录状况。结果表明：在整修间期核仁中的rRNA都在活跃转录;核质中hnRNA的转录呈逐渐上升趋势,早S期转录水平很低,晚S期转录活性升高1倍,G2期转录达到最高水平;整修间期核质中RNA的转录水平增加了5－6倍。     

多头绒泡菌类cyclinB1蛋白在细胞周期中的变化

以自然同步化的多头绒泡菌（Physarum polycephalumL.)为材料,经抗cyclinB1抗体的免疫印迹和免疫电镜实验观察结果表明,多头绒泡菌中含有类cyclinB1蛋白,该蛋白的含量和细胞内位置在细胞周期进程中存在着动态变化。类cyclinB1蛋白在S期开始合成并在细胞质中积累,G2晚期开始进入细胞核,该蛋白在细胞质和细胞核中含量逐渐增加。有丝分裂中期时达最大值。后末期时骤然消失,在G2晚期到有丝分裂中期期间,类cyclinB1蛋白既是细胞核蛋白又是细胞质蛋白,细胞质是类cyclinB1蛋白的主要存在区域,细胞核中的类cyclinB1蛋白主要结合于染色体和核仁区域。     

多头绒泡菌SC35类蛋白的免疫电镜研究

经抗SC35单克隆抗体标记后,在电子显微镜下观察到多头绒泡菌S、G2、前期、中期和后末期细胞核中存在大量金颗粒,说明多头绒泡菌细胞核含有SC35类蛋白。在G2期和前期时,SC35类蛋白主要分布在细胞核的核仁区域和非核仁区域的染色质间区域;中期和后-末期时,SC35类蛋白主要分布在细胞核内染色体间区域;说明染色质(体)间区域和核仁区域是富含SC35类蛋白的区域。对核仁的进一步观察指出,在核仁中金颗粒主要分布在DFC,FC中的金颗粒很少,说明在核仁中SC35类蛋白主要存在于DFC组分中。