细弱绒泡菌的生活史

利用燕麦-琼脂培养、基物培养及扫描电镜技术研究了细弱绒泡菌的个体发育过程,在燕麦琼脂培养基上完成了从孢子到孢子的生活史。结果表明,细弱绒泡菌生活史包括单核的黏变形体或游动胞、多核的营养体原质团以及孢子形成阶段。孢子球形,表面具细小疣点。孢子萌发为裂式,释放1黏变形体。黏变形体行变形运动,在有水的条件下,可转变为游动胞。成熟原质团橘黄色。原质团类型为显型,具有扇形网络状菌脉。成熟原质团可形成多个孢囊。琼脂培养基上获得的细弱绒泡菌孢子与野生型相似,并具有可育性。     

圈绒泡菌的生活史

利用基物培养、燕麦-琼脂培养技术及扫描电镜技术研究了圈绒泡菌的个体发育过程, 在燕麦琼脂培养基上完成了从孢子到孢子的生活史。结果表明,生活史包括单核的黏变形体或游动胞、多核的营养体原质团以及孢子形成阶段。琼脂培养基上获得的圈绒泡菌孢子与野生型相似,并具有可育性。     

黄柄钙皮菌的生活史

利用基物培养、燕麦-琼脂培养技术及扫描电镜技术研究了黄柄钙皮菌的个体发育过程,在燕麦琼脂培养基上完成了从孢子到孢子的生活史。结果表明,生活史包括单核的黏变形体或游动胞、多核的营养体原质团以及孢子形成阶段。孢子球形,表面具疣突。孢子萌发为裂式,释放1黏变形体。黏变形体行变形运动,在有水的条件下,可转变为游动胞并游动。可观察到1长具极性的鞭毛。合子形成原质团。成熟原质团棕色。原质团类型为显型,具有扇形网络状菌脉。琼脂培养基上获得的黄柄钙皮菌孢子与野生型相似,并具有可育性。     

针箍菌的生活史

利用基物和燕麦-琼脂技术研究了针箍菌的个体发育过程,在燕麦琼脂培养基上完成了从孢子到孢子的生活史。结果表明,生活史包括单核的黏变形体或游动胞、多核的营养体原质团以及孢子形成阶段。琼脂培养基获得的针箍菌孢子与野生型相似,并具有可育性。     

全白绒泡菌部分生活史图解

为深入了解全白绒泡菌生活史过程,对其孢子萌发、黏变形体和游动胞的相互转变、游动胞在5 s内的运动轨迹及原质团形成孢囊的过程进行了显微镜下观察和拍照,并对部分生活史阶段进行了时间测定,提出黏菌孢子萌发的第三种方式,提供了清晰的全白绒泡菌部分生活史的图片。     

三种绒泡菌属原质团的培养和孢子果的诱导发生

在黏菌个体发育研究的培养过程中,经常发生原质团不能转变为孢子果的情况,使个体发育停留在营养生长阶段,利用液体发酵和有饲培养相结合的方法获得的绒泡菌属黏菌原质团进行了孢子果的诱导。在饥饿条件下,通过对光照和温度的调节,获得了绒泡菌属黏菌在不同培养条件下形成孢子果和菌核的最佳条件。在固体培养基和液体培养基中获得全白绒泡菌孢子果的最佳培养条件分别为：24℃、6,000lx光照和20℃、6,000lx光照;获得扁绒泡菌孢子果的最佳培养条件分别为：26℃、6,000lx光照和20℃、6,000lx光照。淡黄绒泡菌Physarum melleum在固体培养基上既可以获得孢子果也可以获得菌核,最佳培养条件分别为：26℃、6,000lx光照和22℃、3,000lx光照;在液体培养基中只能形成菌核,条件为：22℃、6,000lx光照。     

小绒泡菌生活史及其形态建成期显微结构的观察

在完成小绒泡菌Physaum pusillum生活史的同时,观察了小绒泡菌P. pusillum生活史不同阶段显微结构的形成。生活史研究结果表明：小绒泡菌P. pusillum的孢子萌发方式为裂式,黏变形体具两根鞭毛,较短一根不易观察到,原质团类型为显型原质团,子实体形态建成过程约需12-13h。显微结构观察结果表明：石灰结和孢丝结构在原质团隆起约6h后开始形成,孢子在原质团隆起约9h后开始形成,石灰结和孢丝先于孢子形成。     

实验室培养条件下绒泡菌科四种黏菌个体发育比较研究

本文应用悬滴培养、燕麦-琼脂培养等方法及显微成像技术对绒泡菌科Physaraceae 4种黏菌（黄头绒泡菌Physarum flavicomum、淡黄绒泡菌Physarum melleum、垂头绒泡菌Physarum album、针箍菌Physarella oblonga）的个体发育特征进行比较研究,首次实现了垂头绒泡菌在实验室条件下的完整生活循环。4种黏菌孢子萌发均为V-型开裂,但萌发时间有所不同,黄头绒泡菌萌发所需时间最短,仅需5h,而针箍菌萌发所需时间最长,需要2d;针箍菌和淡黄绒泡菌形成的黏变形体均可转变为游动胞,而相同条件下黄头绒泡菌和垂头绒泡菌并未有游动胞形成;4种黏菌原生质团的生长速率不同,在光照刺激下针箍菌、淡黄绒泡菌、黄头绒泡菌和垂头绒泡菌的原生质团分别经过2-3d、2-3d、7d和13d,发育成子实体;完成孢子到孢子的整个生活史,针箍菌和淡黄绒泡菌需要25-30d,黄头绒泡菌和垂头绒泡菌需要40-45d。     

黄柄钙皮菌无菌培养条件的优化筛选

黄柄钙皮菌是黏菌中的一种重要模式生物,本文筛选了其无菌培养条件,比较了生活史不同阶段的发生时间,同时比较了生活史中孢子萌发、原质团生长及子实体形成3个阶段的培养条件。结果表明,黄柄钙皮菌适宜的培养条件为：在20%水琼脂上于28℃进行孢子萌发;在24–26℃下20%琼脂+40%燕麦培养基上进行原生质团的培养;在24–26℃下1 000Lx光照10–14h时形成子实体。     

淡黄绒泡菌原质团的培养及其rDNA-ITS序列分析

首次实现了黏菌淡黄绒泡菌Physarum melleum原质团的燕麦琼脂培养,并通过ITS引物完成了淡黄绒泡菌rDNA的PCR扩增及序列分析。描述了其原质团的培养方法,提供了原质团rDNA的提取方法及ITS引物的扩增条件。利用邻近结合法构建系统发育树,对淡黄绒泡菌与相关分类单元的分子系统学关系进行了初步探讨。     

Life cycle and morphology of Physarum pusillum (Myxomycetes) on agar culture

Myxomycetes (slime molds) are unique eukaryotic microorganisms with both characteristics of fungi and amoebae. Artificial cultures grown under controlled conditions were used to study the life cycle and morphogenesis. Physarum pusillum was collected from the field. Spores were inoculated and cultured with the hanging drop method. The complete life cycle was observed from spore to spore on agar without adding any solid nutrients or bacteria as food. Life cycle morphological characteristics were described for spore germination, myxamoebae, zygote, plasmodium and sporangia formation.     

扁绒泡菌孢子形成过程超微结构

诱导扁绒泡菌显型原质团形成子实体并观察在形成过程中孢囊的超微结构,结果表明,全部原质团参入形成孢子及孢丝;孢子形成初期原质团聚缩使原生质密度加大,脂滴密度也增加;液泡联合形成液泡网体分割原质团,孢子及孢丝一同形成;相邻孢子初始形成的孢子壁可见吻合的突起和凹陷,这是孢子成熟后的表面纹饰部分;孢子壁随孢囊发育逐渐达到适宜位置,孢子壁由透明内层及电子密度较大的外层组成;随后可见外有疣突,内含脂滴的圆形孢子。     

The Life Cycle of Didymium laxifilum and Physarum album on Oat Agar Culture

The plasmodial slime molds is the largest group in the phylum Amoebozoa. Its life cycle includes the plasmodial trophic stage and the spore‐bearing fruiting bodies. However, only a few species have their complete life cycle known in details so far. This study is the first reporting the morphogenesis of Didymium laxifilum and Physarum album. Spores, from field‐collected sporangia, were incubated into hanging drop cultures for viewing germination and axenic oat agar plates for viewing plasmodial development and sporulation. The spores of D. laxifilum and P. album germinated by method of V‐shape split and minute pore, respectively. The amoeboflagellates, released from spores, were observed in water film. The phaneroplasmodia of two species developed into a number of sporangia by subhypothallic type on oat agar culture. The main interspecific difference of morphogenesis was also discussed.     

Isolation and characterization of glutathione reductase from Physarum polycephalum and stage-specific expression of the enzyme in life-cycle stages with different oxidation-reduction levels

Physarum polycephalum has a life cycle with several distinct phases that have different oxidation-reduction requirements. To investigate the relationship between the life cycle and the oxidation-reduction state, we isolated glutathione reductase (GR; EC 1.6.4.2) from Physarum microplasmodia. The enzyme was found to be a homodimer with a subunit M(r) of 49,000, and K(m) values for oxidized glutathione and NADPH of 40 and 28.6 microM, respectively. We then constructed a cDNA library from microplasmodium mRNA and cloned GR cDNA from the library. The isolated cDNA consisted of 1,475 bp encoding a polypeptide of 452 amino acids. The amino acid sequence similarity was about 50% with GRs of other organisms, and several conserved sequence motifs thought to be necessary for activity are evident in the Physarum enzyme. Escherichia coli transformed with an expression vector containing the cDNA synthesized the active GR. Genomic Southern blot analysis indicated that the GR gene is present as a single copy in the Physarum genome. Immunoblot analysis and RT-PCR analysis detected GR mRNA expression in the microplasmodium, plasmodium, and sclerotium, but not in the spore or flagellate. GR activity was low in the spore and flagellate. These results suggest that the glutathione oxidation-reduction system relates to the Physarum life cycle.     

淡黄绒泡菌和全白绒泡菌原生质流向的观察

显型原质团是绒泡菌目黏菌的营养生长阶段,其最明显的现象是往返原生质流,但一直并不清楚原生质流反向流动的原因。观察研究了淡黄绒泡菌和全白绒泡菌原质团中的原生质流,结果表明：由于菌脉中堵塞或是在原质团前缘尚未分化通道引起反向原生质流,从而引起原质团多方向生长使原质团前缘呈现扇面状。原生质流总的方向是扇面端,并完成原质团运动。