水稻淀粉胚乳细胞编程性死亡中细胞核变化特征

应用透射电子显微镜技术 ,观察了水稻 (OryzasativaL .)淀粉胚乳细胞编程性死亡过程中核的变化特征。伴随胚乳的发育进程 ,淀粉胚乳细胞核表现出衰退特征 :核变形、染色质凝缩、核膜多处被降解破坏、核基质外泄等。DNALadder显示核内大片段DNA呈严重的弥散状拖尾现象 ,而核内和胞质中在 14 0～ 180bp处有明显的条带。在核衰退的同时 ,其胞质中的粗面内质网、淀粉质体和线粒体等细胞器具有正常的代谢功能 ,细胞仍在合成并积累营养物质 ,淀粉胚乳细胞一边衰退一边行使其功能 ,直至死亡。这些结果表明 ,水稻淀粉胚乳在核衰退的同时 ,细胞仍在积极合成与积累贮藏产物 ,表现为一种特殊形式的植物细胞编程性死亡现象。此外 ,对淀粉胚乳细胞特有的核质关系、植物细胞编程性死亡过程中细胞核的变化等问题进行了讨论。     

小麦淀粉胚乳发育期间的程序性细胞死亡

小麦淀粉胚乳在发育过程中经历程序性细胞死亡(PCD).小麦淀粉胚乳的DNA在发育的特定阶段呈现梯状电泳条带,用乙烯处理使DNA片段化发生的时间提前,而且ABA处理虽然不能推迟DNA片段化的发生时间,但能减弱DNA片段化的程度.小麦淀粉胚乳细胞在PCD过程中出现某些动植物细胞凋亡的共同的结构变化特征,但也有一些独特的结构变化.如染色质凝聚后仅少数染色质块发生趋边化;细胞核在PCD过程中最先开始衰退,细胞核解体时胞质中有丰富的细胞器,细胞核解体后细胞并未死亡,在胞质中仍在合成和积累淀粉和储藏蛋白,直到细胞被淀粉充满,细胞才死亡;不形成凋亡小体,死亡的淀粉胚乳细胞成为营养物质的储藏库.因此小麦淀粉胚乳细胞的PCD是一种特殊形式的PCD.     

水稻淀粉胚乳程序性细胞死亡中的去核化

对水稻品种中籼8836淀粉胚乳细胞的去核化发育阶段的细胞超微结构变化和同期籽粒灌浆速率及相关酶活性的动态进行了观察和分析。开花受精后约在第3天胚乳完成细胞化,花后第5天少数淀粉胚乳细胞启动去核发育过程。核消亡是淀粉胚乳细胞程序性细胞死亡(PCD)的第一步。同一籽粒淀粉胚乳细胞的去核进程是不同步的。花后第13天所有淀粉胚乳细胞都已完成去核过程。在去核过程中,胚乳核的形态变化特征既有动植物PCD的共性又有其特殊性。伴随核降解过程,一部分线粒体解体,表明去核化与线粒体解体有一定联系。在去核化发育阶段,与PCD有关的酶类,如超氧化物歧化酶(SOD)、过氧化氢酶(CAT)活性非常高;与淀粉合成有关的酶类,如ADPG焦磷酸化酶、可溶性淀粉合成酶(SSS酶)、淀粉分支酶(或Q酶)也表现出很高的活性。去核化发育阶段籽粒灌浆速率最高,籽粒增重亦最快。淀粉胚乳细胞去核之后,细胞并未立即死亡,这些无核的细胞仍维持正常有序的代谢活动,继续进行淀粉和贮藏蛋白的合成与积累,但上述酶类的活性明显降低,灌浆速率也明显趋缓。淀粉胚乳细胞最终被贮藏物质充满时成为死细胞,完成其程序性死亡过程。Evan‘s blue染色鉴定表明淀粉胚乳细胞死亡不同步,细胞死亡在淀粉胚乳组织中是随机发生的。     

水稻淀粉胚乳程序性细胞死亡中的去核化

对水稻品种中籼8836淀粉胚乳细胞的去核化发育阶段的细胞超微结构变化和同期籽粒灌浆速率及相关酶活性的动态进行了观察和分析。开花受精后约在第3天胚乳完成细胞化,花后第5天少数淀粉胚乳细胞启动去核发育过程。核消亡是淀粉胚乳细胞程序性细胞死亡(PCD)的第一步。同一籽粒淀粉胚乳细胞的去核进程是不同步的。花后第13天所有淀粉胚乳细胞都已完成去核过程。在去核过程中,胚乳核的形态变化特征既有动植物PCD的共性又有其特殊性。伴随核降解过程,一部分线粒体解体,表明去核化与线粒体解体有一定联系。在去核化发育阶段,与PCD有关的酶类,如超氧化物歧化酶(SOD)过氧化氢酶(CAT)活性非常高;与淀粉合成有关的酶类,如ADPG焦磷酸化酶、可溶性淀粉合成酶(SSS酶)、淀粉分支酶(或Q酶)也表现出很高的活性。去核化发育阶段籽粒灌浆速率最高,籽粒增重亦最快。淀粉胚乳细胞去核之后,细胞并未立即死亡,这些无核的细胞仍维持正常有序的代谢活动,继续进行淀粉和贮藏蛋白的合成与积累,但上述酶类的活性明显降低,灌浆速率也明显趋缓。淀粉胚乳细胞最终被贮藏物质充满时成为死细胞,完成其程序性死亡过程。Evan’s blue染色鉴定表明淀粉胚乳细胞死亡不同步,细胞死亡在淀粉胚乳组织中是随机发生的。     

洋葱花粉母细胞细胞内、细胞间微染骨架的超微结构观察

以洋葱（Allium cepa L.）花粉母细胞为材料,采用DGD包埋去包埋原位技术,对花粉母细胞不同发育时期的细胞内、细胞间微染骨架的超微结构进行了电镜观察。结果发现,花粉母细胞核内存在的粗细不等的微染骨架,与核仁和染色体紧密相连,随着发育的推移,其均一性发生改变。在核周有核纤层样的结构存在,与细胞核和胞质中的微染骨架紧密相连,到前期结束时解体。洋葱花粉母细胞内具有发达的胞质微染骨架,这种结构在减数分裂前期Ⅰ变化不明显。在胞间连接（胞间连丝和胞质通道）内,也有精细的微染骨架分布,并且与两端细胞中的骨架相连。在凝线期的花粉母细胞中观察到细胞融合现象,有胞质或核内微梁骨架与穿壁转移的胞质小球和核小球内骨架相连。此时细胞核偏向一边,但细胞的基余部位仍充满了胞质微染骨架,初步探讨了核微染骨架与核仁和染色体之间的关系,核纤层与细胞核之间的关系。以及细胞内、细胞间微染骨架与细胞融合之间的关系。     

洋葱花粉母细胞细胞内、细胞间微梁骨架的超微结构观察(英文)

以洋葱(AlliumcepaL.)花粉母细胞为材料,采用DGD包埋去包埋原位技术,对花粉母细胞不同发育时期的细胞内、细胞间微梁骨架的超微结构进行了电镜观察。结果发现,花粉母细胞核内存在粗细不等的微梁骨架,与核仁和染色体紧密相连,随着发育的推移,其均一性发生改变。在核周有核纤层样的结构存在,与细胞核和胞质中的微梁骨架紧密相连,到前期结束时解体。洋葱花粉母细胞内具有发达的胞质微梁骨架,这种结构在减数分裂前期Ⅰ变化不明显。在胞间连接(胞间连丝和胞质通道)内,也有精细的微梁骨架分布,并且与两端细胞中的骨架相连。在凝线期的花粉母细胞中观察到细胞融合现象,有胞质或核内微梁骨架与穿壁转移的胞质小球和核小球内骨架相连。此时细胞核偏向一边,但细胞的其余部位仍充满了胞质微梁骨架。初步探讨了核微梁骨架与核仁和染色体之间的关系,核纤层与细胞核之间的关系,以及细胞内、细胞间微梁骨架与细胞融合之间的关系     

水稻胚乳发育中淀粉体和蛋白体ATPase活性的动态变化

利用ATPase定位技术,对水稻品种(Oryza sativa L.cv．Minghui 63)胚乳细胞发育中后期淀粉体和蛋白体的ATPase活性进行了超微细胞化学定位。结果表明,在淀粉体内外膜上、淀粉粒间的通道上和淀粉体四周的无定形物上呈现显著的ATPase活性。蛋白体Ⅰ和蛋白体Ⅱ的膜上和四周的囊泡、小泡上均出现ATPase活性产物。另外,胚乳细胞的胞壁和质膜,糊粉层和亚糊粉层细胞的胞壁、质膜、细胞核和胞间连丝上也有定位的ATPase活性产物分布。根据ATPase活性产物分布特点,推测淀粉体内的网状通道是便于养分进入淀粉体内部的转运通道。淀粉体膜和蛋白体膜上的ATPase主要是为养分进入内部提供跨膜动力。     

水稻(Oryza sativa L.)×狼尾草(Pennisetum sp.)胚胎发育的细胞学观察

1.狼尾草花粉可以在水稻柱头上萌发并能长入胚囊,但受精过程缓慢而且不正常,单受精现象经常出现。2.胚胎发育滞缓,长时间停留在球状胚阶段,很难进一步分化,而且不时败育,只在传粉后16—24天的一些胚囊中看到有简单分化的胚胎。3.胚乳发育异常,由游离核形成细胞的时间推迟到传粉后第八天。整个胚乳组织由形状及功能上均有很大差异的细胞团块组成。其中一部分细胞缺乏合成淀粉的能力,胚乳在发育过程中不时出现解体现象。4.在反足细胞附近的一些珠心细胞中出现多量淀粉积累,反映因杂交而出现的胚囊代谢上的某些变化。讨论了胚和胚乳发育困难的原因和得到杂种种子的可能性。     

细胞凋亡中的核/质转运

核/质转运和细胞凋亡是两种截然不同的细胞内过程,它们是密切相关的.在细胞凋亡过程中,细胞核的凋亡损伤伴随着多种多样的促凋亡因子在细胞质澈活并进入细胞核.DNA损伤产生的死亡信号也需要传递到细胞的各个部位,来确保细胞死亡的协调执行.因此,凋亡信号的核,质穿梭是细胞凋亡不可或缺的一部分.     

被子植物胚乳细胞化的形态学研究

被子植物进行双受精 ,2个极核或次生核与 1个精子结合后形成 1个三倍体的初生胚乳核 ,初生胚核经多次分裂形成多个胚乳游离核。有些植物的初生胚乳核和胚乳游离核分裂后紧跟着壁的形成 ,称为细胞型胚乳 ,如番茄等 ;有些植物初生胚乳核和胚乳游离核分裂时不伴随着壁的形成 ,而是形成多核体 ,到胚乳发育后期由胚囊的边缘向中央逐步细胞化 ,这种胚乳发育类型称为核型胚乳 ,如玉米、小麦、水稻等 ;还有一些中间类型的植物 ,称为双型胚乳 ,这种类型的植物仅见于某些单子叶植物。无论是核型胚乳植物还是双型胚乳植物的胚乳发育都涉及到从胚乳游离…     

微流控芯片技术在细胞生物学研究中的应用进展

20世纪90年代以来,微流控芯片技术得到了快速发展。由于具有小型化、集成化、高通量、低消耗、分析快速等特点,微流控芯片作为一种新型的生物学研究平台,能够提供传统方法不具备的精细和可控制的细胞研究条件,在细胞生物学研究领域中得到了广泛关注。该文主要介绍其在细胞培养、分选、裂解、计数、凋亡检测、迁移、单细胞捕获、细胞间作用等方面的研究进展。     

The role of glutamine, serum and energy factors in growth of enterocyte-like cell lines

Background: Glutamine is routinely added to most cell cultures. Glutamine has been found to be the preferential nutrient to the rapidly replicating intestinal mucosa, but whether this is a metabolic effect or due to other properties of this amino acid is not determined. To study the importance of glutamine on the growth of two enterocyte-like cell lines, the effects of depriving the media or supplementing it with glutamine were assessed in media with different serum and energy supplements. Methods: CaCo-2 and HT-29 cells were grown in serum-free medium, with fetal bovine or synthetic serum, and with or without glucose or galactose. The glutamine content was varied between 0 and 4 mM. All growth assays were performed in triplicate by counting in a hemocytometer. Results: Both cell lines were dependent of serum factors for growth, but displayed distinct requirements on glutamine supplementation. Glutamine was an obligate supplement with dose-dependent correlation to growth (r=0.87, p<0.01) for CaCo-2 cells cultured in synthetic, but not in fetal bovine serum. In HT-29 cells, the correlation between glutamine and growth was significant (r=0,68, p<0,05) only in fetal bovine serum in the absence of galactose. Conclusion: This study shows that glutamine has different growth stimulating effects on two enterocyte-like cell lines studied. This could reflect different modes of action of glutamine on proliferation and differentiation in an enterocyte cell population.     

Besides Purkinje cells and granule neurons: an appraisal of the cell biology of the interneurons of the cerebellar cortex

Ever since the groundbreaking work of Ramon y Cajal, the cerebellar cortex has been recognized as one of the most regularly structured and wired parts of the brain formed by a rather limited set of distinct cells. Its rather protracted course of development, which persists well into postnatal life, the availability of multiple natural mutants, and, more recently, the availability of distinct molecular genetic tools to identify and manipulate discrete cell types have suggested the cerebellar cortex as an excellent model to understand the formation and working of the central nervous system. However, the formulation of a unifying model of cerebellar function has so far proven to be a most cantankerous problem, not least because our understanding of the internal cerebellar cortical circuitry is clearly spotty. Recent research has highlighted the fact that cerebellar cortical interneurons are a quite more diverse and heterogeneous class of cells than generally appreciated, and have provided novel insights into the mechanisms that underpin the development and histogenetic integration of these cells. Here, we provide a short overview of cerebellar cortical interneuron diversity, and we summarize some recent results that are hoped to provide a primer on current understanding of cerebellar biology.     

哺乳动物体细胞核移植中供体细胞的研究进展

在哺乳动物体细胞核移植中,供体细胞是影响其效率的主要因素之一。供体细胞的类型、细胞周期、细胞的培养代数、冷藏与冷冻处理,以及供体动物的性别、年龄等都可能影响核移植胚胎的发育。根据现有资料,简要综述了在哺乳动物体细胞核移植中有关供体细胞的研究进展。     

微囊化K562细胞生长周期及代谢特性的研究

以K562细胞为模型,分别进行微囊化和游离培养,运用流式细胞术考察两种培养体系下细胞周期和生长代谢变化;建立数学模型,模拟了两种培养体系下细胞的生长活性和代谢特性。实验发现：微囊化培养过程中的K562细胞处于DNA合成期（S期）的百分含量显著高于游离培养,并且细胞保持较高的增殖活性。模型计算表明,所建模型动力学参数能够很好地描述微囊化和游离两种培养体系下细胞的代谢情况;对细胞活性的理论计算表明,微囊化的细胞具有较高的增殖和代谢活性,同时细胞能够较长时间保持此活性;模型参数表明,两种培养体系下,葡萄糖对细胞生长的影响无显著差别 (k^Free_L≈k^APA_L),乳酸对游离培养细胞的生长具有明显抑制作用,但对微囊化培养细胞抑制作用较小(kFreeL>≈kAPAL)。     

Of mice, frogs and flies: generation of membrane asymmetries in early development

Embryonic development begins with cleavage of the fertilized egg. Cleavage comprises two major processes: cytokinesis and formation of a polarized epithelial cell layer. The focus of this review is comparison of the generation of membrane polarity during embryonic cleavage in three different developmental model systems. In mammalian embryos, as exemplified by analysis of the mouse, generation of distinct membrane domains is uncoupled from cleavage divisions and is initiated in a specific developmental phase, called compaction. In Xenopus laevis embryos, generation of polarized blastomeres occurs simultaneously with cytokinesis. The origin of specific membrane domains of X. laevis polar blastomeres, however, can be traced back to oogenesis. Finally, in Drosophila melanogaster, generation of polarized cells occurs at cellularization. The relevance of cell adhesion, cell junctions and cytocortical scaffolds will be discussed for each of the model systems. Despite enormous morphologic differences, the three models share many common features; in particular, many important molecular interactions are conserved.     

Ultrastructural evidence for two-cell and three-cell neural pathways in the tentacle epidermis of the sea anemone Aiptasia pallida.

Sensory and ganglion cells in the tentacle epidermis of the sea anemone Aiptasia pallida were traced in serial transmission electron micrographs to their synaptic contacts on other cells. Sensory cell synapses were found on spirocytes, muscle cells, and ganglion cells. Ganglion cells, in turn, synapsed on sensory cells, spirocytes, muscle cells, and other neurons and formed en passant axo-axonal synapses. Axonal synapses on nematocytes and gland cells were not traced to their cells of origin, i.e., identified sensory or ganglion cells. Direct synaptic contacts of sensory cells with spirocytes and sensory cells with muscle cells suggest a local two-cell pathway for spirocyst discharge and muscle cell contraction, whereas interjection of a ganglion cell between the sensory and effector cells creates a local three-cell pathway. The network of ganglion cells and their processes allows for a through-conduction system that is interconnected by chemical synapses. Although the sea anemone nervous system is more complex than that of Hydra, it has similar two-cell and three-cell effector pathways that may function in local responses to tentacle contact with food.     

Mammalian testis: a target of in vivo electroporation

Mammalian spermatogenesis consists of three biologically significant processes: stem cell self-renewal and differentiation, meiosis, and haploid cell morphogenesis. Understanding the molecular mechanisms behind these processes might provide clues to the puzzle of species preservation and evolution, and to treatments for male infertility. However, few useful in vitro systems exist to investigate these processes at present. To elucidate these mechanisms, in vivo electroporation of the testis might be a convenient option. Since DNA solution can be injected into the seminiferous tubule via the rete testis, similar to germ cell transplantation, it is easy to transfect expression vectors into various differentiated germ cells and supporting Sertoli cells with adequate electric shock. Unfortunately, it is difficult to create transgenic animals using this method because of its low efficiency. However, gain- and loss-of-function assays, promoter assays, and tagged-protein behavior assays can be conducted with this technique, as in in vitro culture systems.     

牛脂肪间充质干细胞的分离、培养与鉴定

为了给组织工程提供种子细胞,对牛间充质干细胞(Adipose-derived stem cells,ADSCs)进行体外分离培养。首先应用胶原酶消化法分离牛ADSCs,进行体外培养、连续传代,并观察细胞的形态变化,通过细胞计数绘制生长曲线,细胞压片进行染色体分析,采用细胞免疫荧光化学方法检测细胞表面标记,利用成骨分化和成脂分化检测其分化能力。结果显示牛ADSCs体外培养时细胞形态呈成纤维细胞样,增殖稳定;Vimentin、CD49d、CD13表达呈阳性,CD34表达呈阴性;成骨诱导条件下的细胞碱性磷酸酶活性高,茜素红染色呈阳性;成脂诱导条件下细胞周围脂滴明显,油红-O染色呈阳性。结果证明牛ADSCs体外生长稳定、增殖速度快、定向分化能力强,简易的体外分离培养及诱导方法为其在组织工程中的应用奠定了基础。     

Towards the development of a minimal cell model by generalization of a model of Escherichia coli: use of dimensionless rate parameters.

A model of a minimal cell would be a valuable tool in identifying the organizing principles that relate the static sequence information of the genome to the dynamic functioning of the living cell. Our approach for developing a minimal cell model is to first generalize an existing model of Escherichia coli by expressing reaction rates as ratios to a set of reference parameters. This generalized model is a prototype minimal cell model that will be developed by adding detail to explicitly include each chemical species. We tested the concept of a generalized model by testing the effect of scaling all enzyme-catalyzed reactions in the E. coli model. The scaling has little effect on cellular function for a wide range of kinetic ratios, where the kinetic ratio is defined as the rate of all enzyme-catalyzed reactions in a given model relative to those in the E. coli model.