豌豆根瘤侵染细胞衰老过程的电镜观察

用透射电镜观察了豌豆根瘤侵染细胞在衰老过程中的超微结构变化,结果表明,侵染细胞和拟菌体的衰老有一定的规律和特征,首先是一些包裹拟菌体的包囊变得疏松,包囊和拟菌体之间出现较大间隙,间隙中常有一些纤维状和泡状物质。然后,细胞质失去正常结构,逐渐凝聚为染色很深的团块,进而完全泡状化,伴随着拟菌体的衰老,寄主细胞质染色由深变浅,细胞器逐渐减少,最后,液泡和质膜相继破裂,细胞完全瓦解,有时在衰老细胞的胞间隙,或在衰老的细胞质中有一定年轻的细菌,甚至在一片崩溃的拟菌体中还有侵染丝,有的还正在向寄主细胞质释放细菌。     

红豆草根瘤侵染细胞的超微结构变化

红豆草(Onobrychis viciaefolia Scop.)是一种抗旱、耐寒、耐热和耐瘠薄的优良豆科牧草,不仅是很好的饲料和绿肥,而且还能大量结瘤固氮,提高土地肥力。因此,它在我国甘肃和其他北方干旱和半干旱贫瘠地区广为种植。虽然不少学者曾对它的引种条件、生产性能、营养成分和形态解剖作过许多研究,但对其共生固氮,特别是与共生固氮息息相关的根瘤在发育中的变化却至今尚无系统报道。因此,为了更好开发利用这一资源,     

侵染细胞中一种内含物的组化研究

在大豆根瘤中有一种非常特殊的细胞质内含物,只存在于侵染细胞中,一个细胞通常只有一个,一般位于细胞的外周部分,常常靠近胞间隙。这种内含物通常为圆形,其直径在1—2μm之间,主要由颗粒状物质、管状和泡状成分组成。它经甲苯胺蓝O染色后呈深蓝色,苏丹黑B染色后呈深黑色,考马斯蓝染色后呈蓝色,因此它不是类聚核糖核蛋白体,也不是一般的蛋白体和脂滴或脂质体,而可能是一种蛋白质和脂的复合物。其作用可能与共生固氮中的能量转换和供应有关。     

箭舌豌豆根瘤中根瘤菌的形态变化观察

箭舌豌豆(Vicia sativa)是一种抗性强、适应性广、产量高、营养丰富的优质饲料和绿肥作物,能大最结瘤固氮,有效提高土地肥力,因此全国各地广为种植。人们对箭舌豌豆的栽培技术、生长条件、遗传规律和有毒成份已有不少研究,但至今国内外对该种根瘤中根     

沙冬青根瘤菌的电子显微镜研究

用透射电镜研究沙冬青根瘤中的根瘤菌。这种根瘤菌的精细结构不仅与生态环境有关,而且还随寄主细胞发育程度不同而异。在早期侵染细胞中,根瘤菌很少,一般呈圆形或椭圆形,电子密度很高,位于细胞壁附近。在成熟侵染细胞中,根瘤菌很多,布满了整个细胞,形态出现多样化。在衰老侵染细胞中,根瘤菌形状不规则,细胞质收缩,电子密度增高,内部结构模糊不清,有的甚至变成一团膜泡状结构     

Isolation of pea nodule bacteroids utilizing silica sol (Percoll) density gradient centrifugation

Isolation of bacteroids from effective (Fix⁺) and ineffective (Fix^–) pea nodules, inoculated withRhizobium leguminosarum K, were performed by a density gradient centrifugation method using silica sol (Percoll). Only one zone (=1.064–1.072; n-zone) was recognized in the Fix⁺ nodule which contained typical Y-shaped bacteroids while two zones (n-zone and =1.125–1.145; n'-zone) were obtained from the Fix^– nodule. The cells in the n'-zone, which are long rods differed morphologically from free-living cells at any growth phase (=1.108–1.125; f-zone and =1.074–1.078; f'-zone), and differed from Y-shaped bacteroids by cell density. The esterase isozyme pattern of bacteroids in the n-and n'-zones also showed clear differences from that of f-and f'-zone of free-living cells.     

用ESR方法研究大豆根瘤细胞和类菌体对环境的敏感性

用ＥＳＲ波谱方法研究了完整大豆根瘤里的根瘤细胞及根瘤细胞中的类菌体对环境的敏感性,分别比较了三种不同类型（快生,慢生,超慢生）的根瘤菌侵染所结的根瘤,测量了不同的发育时期和不同氧化时间ＥＳＲ波谱的变化,观察到根瘤细胞及根瘤内类菌体的豆血红蛋白和钼铁蛋白的ＥＳＲ波谱由氧化而产生的改变,表明了大豆根瘤细胞和根瘤内类苗体所处的状态以及对环境敏感性的不同。     

PHB颗粒在红豆草根瘤细菌发育中的动态变化

红豆草根瘤胞间隙和侵入线中另有个别细菌含有PHB颗粒,而且数量很少,一个细菌通常仅有一个。随着细菌被从侵入线中释放到寄主细胞中,这些PHB颗粒立即消失。幼龄细菌不含PHB颗粒,成熟细菌一般也不含这种内含物。当细菌衰老时,它们又再度出现,并大量增加,而后很快减少,直至完全消失。从未发现这种颗粒存在于解体细菌中,尽管它们处于各种不同的解体状态。PHB颗粒在细菌发育中的变化表明,它的多少不仅与根瘤细菌发育密切有关,而且也受制于根瘤品种。     

Photosynthetic alterations of pea leaves infected systemically by pea enation mosaic virus: A coordinated decrease in efficiencies of CO2 assimilation and photosystem II photochemistry

We have investigated photosynthetic changes of fully expanded pea leaves infected systemically by pea enation mosaic virus (PEMV) that often attacks legumes particularly in northern temperate regions. A typical compatible virus–host interaction was monitored during 40 post-inoculation days (dpi). An initial PEMV-induced decrease in photosynthetic CO₂ assimilation was detected at 15 dpi, when the virus appeared in the measured leaves. This decrease was not induced by stomata closure and corresponded with a decrease in the efficiency of photosystem II photochemistry (Φ_PSII). Despite of a slight impairment of oxygen evolution at this stage, PSII function was not primarily responsible for the decrease in Φ_PSII. Chlorophyll fluorescence imaging revealed that Φ_PSII started to decrease from the leaf tip to the base. More pronounced symptoms of PEMV disease appeared at later stages, when a typical mosaic and enations appeared in the infected leaves and oxidative damage of cell membranes was detected. From 30 dpi, a degradation of photosynthetic pigments accelerated, stomata were closing and corresponding pronounced decline in CO₂ assimilation was observed. A concomitant photoprotective responses, i.e. an increase in non-photochemical quenching and accumulation of de-epoxidized xanthophylls, were also detected. Interestingly, alternative electron sinks in chloroplasts were not stimulated by PEMV infection, which is in contradiction to earlier reports dealing with virus-induced plant stresses. The presented results show that the PEMV-induced alterations in mature pea leaves accelerated leaf senescence during which a decrease in Φ_PSII took place in coordinated manner with an inhibition of CO₂ assimilation.     

肯氏相思根瘤亚显微结构观察

肯氏相思根瘤亚显微结构观察结果表明：刚受侵染的寄主细胞的细胞核和质体膨大,线粒体内嵴消失成为圆球状体,内质网膜松散;幼年类菌体细胞外型较小,呈圆形和椭圆形,细胞质浓密,染色深而均匀;成熟类菌体外型较大,形态多样,细胞内聚-β-羟基丁酸（PHB）累积增多;随着根瘤细胞逐渐发育成熟,在类菌体包被内可允1至数个类菌体;在根瘤衰老细胞中,类菌体包被周膜解离破裂,流出电子透明物质。本文还对周膜扩增的问题进行了讨论。     

A comparative light microscopic study of two types of root nodule bacteria dispersal into the bacteroid zone cells

Root nodule bacterial dispersal into the cells and formation of bacteroid zone cells of root nodules have been observed in several species of Leguminosae. Two different types of bacterial dispersal were recognized comparable to those briefly mentioned by a few authors. Cell division type: From the very beginning of nodule development there exist two different kinds of cell in the meristematic region. In bacteria-containing cells the bacteria are distributed into two new cells with host cell division, the bacteria being located outside the spindle region during mitosis. In those cells not containing bacteria, amyloplasts develop in the cytoplasm. These cells also divide mitotically, increasing the numbers of amyloplast-containing cells. These two different cell populations compose the bacteroid zone. This type was seen inSophora flavescens andCytisus scoparius. Infection thread type: In the transitional zone from the nodule meristem to the bacteroid zone, some cells are penetrated by infection threads and others are not. Infected cells become bacteroid-filled cells, no mitosis taking place after penetration of the infection thread. Uninfected cells become amyloplast-containing cells, increasing their numbers by mitosis. These two cell populations compose the bacteroid zone. This type was seen inVicia sativa, V. faba, Trifolium repens andAstragalus sinicus.     

豌豆根瘤的超微结构研究

用透射电镜详细地研究了中国张家川豌豆(Pisum sativum L.)根瘤的超微结构。结果表明,它在发育过程中经历了一系列的超微结构变化,这些变化包括侵染丝中细菌的释放,核仁联合体的出现,细菌侵染后寄主细胞核和细胞质的变化,细菌泡囊的融合,非侵染细胞的细微结构等。本文详细地描述了上述变化,讨论了这些变化的意义与豌豆根瘤发育的关系。     

红豆草根瘤侵染细胞核在细胞凋亡中的超微结构变化

用透射电镜观察红豆草根瘤侵染细胞核在细胞凋亡过程中的超微结构,以探讨红豆草根瘤侵染细胞核在发育过程中的超微结构变化及其与细胞凋亡的关系.结果表明,红豆草根瘤侵染细胞核的超微结构随细胞发育程度不同而不同.在幼龄侵染细胞中,细胞核体积较大,近似圆形.在即将成熟和成熟的侵染细胞中,细胞核膜有内陷现象,其核仁常具有核仁泡和核仁联合体.在早期凋亡的侵染细胞中,细胞核体积减小,形状变得不规则,核膜出现大量内陷,在其表面形成许多大的突起和深的沟槽,有时还有内质网、线粒体、小液泡和细菌等位于核膜的内陷处,而且核仁也开始裂解.在后期凋亡的侵染细胞中,除细菌解体外,还出现核仁消失,核膜破裂,核质外流,并在细胞质中形成一些电子密度很高,无一定形状的团块状物质.     

箭舌豌豆根瘤细胞液泡中一种特殊内含物的研究

用透射电镜观察了箭舌豌豆根瘤侵染细胞。结果表明,有一些小泡出现在细胞质膜和侵入线附近,它们不断向中央液泡运动,并在运动中相互靠近形成小泡团。当其到达中央液泡时,附近的液泡膜产生内吞,形成突起。最后,这些突起脱离液泡膜,在中央液泡中形成一种由管状结构和小泡组成、表面具有一层被膜的特殊内含物。本文还讨论了此种内含物的起源及其与根瘤抗旱和细菌周膜扩增的关系。     

奥硝唑用于感染根管消毒的细菌学研究

目的　观察和探讨新型抗厌氧菌药物奥硝唑消毒感染根管的抗菌效果。方法　选择感染根管患牙98颗,常规根管预备后,随机分为试验组(奥硝唑组)和对照组(甲醛甲酚组)各4 9颗。分别在根管预备前、预备后及封药后进行根管内细菌标本采样、培养、分离与鉴定,测定根管内细菌变化及检出情况,并观察封药后临床症状和体征的变化。结果　2组封药后,根管内细菌数量及检出率均较封药前明显降低( P<0 .0 5 ) ,根管内细菌数量及检出率比较,差异无显著性( P>0 .0 5 ) ,奥硝唑的近期临床疗效优于甲醛甲酚。结论　奥硝唑是一种较安全、有效的根管消毒药物     

田菁营养器官的解剖结构特征

运用石蜡切片法与组织离析法研究田菁营养器官解剖结构特征。结果表明,田菁根部显示典型的次生结构特征,内皮层具凯氏带;根表面有大量根瘤,根瘤菌分布在根部皮层,维管组织相连形成输导组织网。茎部表皮细胞壁出现角质层,皮层含有特化的厚角组织,由大型薄壁细胞构成,维管组织具有含晶韧皮纤维。茎瘤3～4个,大小不等且不连续分布,茎瘤外层为皮层,内层为含菌组织。叶片为异面叶,角质层与表皮层较厚,栅栏组织发达,近叶厚的1/2,海绵组织细胞间隙大,气孔小且多。田菁根、茎的木质部发达,有较多大孔径的导管及丰富的木纤维,叶片栅海比、组织结构紧密度(CTR)较大。田菁的解剖特点显示出其具有的固氮特性以及耐盐、抗旱的生态适应性。     

Rat homolog of PinX1 is a nucleolar protein involved in the regulation of telomere length

Human PinX1 involves in regulation of telomere length. Here, we describe the function of a rat homolog of PinX1. Rat PinX1 (rPinX1) was cloned from WB-F344, a rat hepatic stem-like epithelial cell. It encodes a protein of 331 amino acids with 70% homology to human PinX1 and 91% homology to mouse. Northern analysis revealed that rPinX1 is expressed in both somatic and germ tissues, most abundantly in heart, liver and testis. Co-localization with a nucleolar protein, fibrillarin, showed that rPinX1 resides in the nucleolus. Analysis of truncated mutants revealed that an internal K,E/D region seems to be important for nucleolar localization. A stable cell line expressing rPinX1 was established in NIH3T3, a mouse-transformed embryonic fibroblast cell line, and stable cells were subcultured for more than 150 population doublings. The growth of stable rPinX1 cells slowed down at late passages, and a fraction of these cells exhibited increased size and stained positively for senescence-associated β-galactosidase. Overexpression of rPinX1 in NIH3T3 cells resulted in gradual telomere shortening over successive passages. However, the telomeric 3′ overhang was not altered by PinX1 expression. This study demonstrates that a rat homolog of human PinX1 is a nucleolar protein, and that overexpression of rPinX1 induces cellular senescence and telomere shortening, but has no effect on 3′ overhang length. The function of PinX1 in regulating telomere length is conserved in rodents, and this study may provide insight into the mechanism by which a nucleolar protein can regulate telomere length.