Rubisco和RCA在青菜叶绿体中的分布及病毒侵染对其细胞定位的影响

运用免疫金标电镜术观察了青菜叶细胞中光合作用关键酶Rubisco和Rubisco活化酶(RCA)的细胞化学定位,结果显示Rubisco和RCA免疫金颗粒主要分布于薄壁组织叶绿体的间质中,在基粒片层上很少,表皮的气孔保卫细胞和维管束薄壁细胞叶绿体内也有分布,在细胞质及线粒体等细胞器中无特异性分布。同时比较观察了感染芜菁花叶病毒(TuMV)的青菜叶绿体Rubisco和RCA免疫金标记结果,发现病组织中结构尚完整的叶绿体Rubisco和RCA标记率略有下降,而结构严重破坏的叶绿体中两种酶标记率分别仅为正常叶绿体的58.44%和64.67%,表明病毒侵染可导致Rubisco和RCA含量下降,影响寄主植物的光合作用。     

水稻Rubisco和RCA的日变化及其细胞定位

采用免疫胶体金标记电镜技术对水稻(Oryza satova subsp.indica cv.浙农952)叶片中的Rubisco及其活化酶(RCA)进行细胞器定位和定量,同时用免疫扩散法进行叶片含量分析,研究了这两种酶含量及活力的日变化。结果表明Rubisco主要分布于叶绿体,RCA分布于叶绿体和线粒体中;光合速率(Pn)、Rubisco初始活力和RCA活力与光合日变化密切相关;在光照最强的13时,出现光合“午休”,叶绿体中Rubisco的密度有一定程度降低,而全叶的总Rubisco保持稳定,Rubisco初始活力也有明显的“午休”,这意味着体内Rubisco的活力除受RCA调节外,可能还与叶绿体中Rubisco的分布有关。RCA活力变化与叶绿体中RCA含量变化较为一致,表明RCA在叶绿体中的分布对调节其本身活力和Rubisco活性有重要作用。     

蚕豆萎蔫病毒2号分离物侵染对蚕豆叶片光合活性和叶绿体超微结构的影响

研究了受蚕豆萎蔫病毒2号（Broad bean wilt virus 2,BBWV2）中国分离物B935和欧洲分离物PV131侵染的蚕豆（Vicica faba）叶片光合特性、叶绿素荧光诱导动力学参数和叶绿体超微结构变化。感病蚕豆叶绿素含量减少,叶绿素a／b比逐步降低;光合气体交换参数Pn值和Gs值降低,Ci值升高;叶绿素荧光诱导动力学参数Fv/Fm、FV＇/Fm＇、ΦPSII、qP值均有不同程度降低,NPQ值升高;光合器结构遭到不同程度的破坏,B935侵染后叶绿体发育不良,片层结构疏松,PVl31侵染后叶绿体肿胀变圆,片层结构疏松瓦解。与B935相比,PV131侵染对以上各参数的变化有更大影响,且对叶绿体的破坏更为严重。实验结果表明BBWV2不同分离物对光系统II（PSII）的抑制作用与光合器受损程度相关。     

“观察DNA和RNA在细胞中的分布”及“用高倍镜观察叶绿体和线粒体”的实验教学

人教版生物学必修1的实验内容较多,而高一年级生物学课时不足,完成实验教学较紧张。实验“观察DNA和RNA在细胞中的分布”及“用高倍镜观察叶绿体和线粒体”是其中的2个实验,原来安排2课时,考虑到单个实验内容较少,尝试将2个实验整合,安排1课时完成。但如果仅仅简单、机械地合并,可能会影响实验教学目标的达成。本文在考虑课堂用时的前提下,挖掘教材中的素材,旨在探索科学、合理、有效的教学组织形式．以期达到既训练学生的实验操作技能,又培养生物学实验的方法和思维的目的。     

细胞密度和感染复数对SARS病毒在Vero细胞中增殖的影响

阐明宿主细胞密度和病毒感染复数(MOI)对SARS冠状病毒增殖的影响,为SARS灭活疫苗的研究奠定基础。采用析因设计方法,考虑MOI(0.01、0.05和0.1)与细胞密度(2×104、4×104和8×104/cm2)2个3水平实验因素,在各水平组合条件下培养SARS病毒,以组织培养半数感染量(TCID50)作为观测指标,分析SARS冠状病毒滴度在不同增殖条件下的差异。结果表明,MOI、宿主细胞密度和二者之间的交互作用对SARS病毒滴度的影响分别具有非常显著性差异(F=12.70,P<0.01)、显著性差异(F=6.94,P<0.05)和非常显著性差异(F=8.22,P<0.01)。在0.01MOI和8×104/cm2条件下,病毒滴度达5.57×105TCID50/mL。说明SARS冠状病毒在培养细胞中的增殖能力显著依赖于宿主细胞密度、病毒感染复数和二者的交互作用。     

博尔纳病病毒磷蛋白在PC-12细胞内的稳定表达及对其增殖的影响

【目的】建立博尔纳病病毒磷蛋白在神经源性PC-12细胞内的稳定表达体系,初步探讨博尔纳病病毒磷蛋白对PC-12细胞的生长是否有影响。【方法】培养PC-12细胞,用阳离子脂质体的方法将带有博尔纳病病毒磷蛋白基因的表达质粒转染到细胞内进行稳定表达,用荧光显微镜和RT-PCR的方法检测细胞内磷蛋白的表达,用MTT方法检测磷蛋白对细胞生长的影响。【结果】 转染细胞经培养10代后仍然表达目的蛋白,成功建立稳定表达体系。MTT检测显示博尔纳病病毒磷蛋白对PC-12细胞的生长具有明显的抑制作用,其生长明显滞后,但粘附能力增加。【结论】 通过本文建立的体系能在PC-12细胞内稳定表达博尔纳病病毒磷蛋白,该体系可用于进一步深入研究博尔纳病病毒磷蛋白的作用机制,进而为研究博尔纳病病毒持续感染中枢神经系统的机制提供基础。此外本文通过检测细胞的增殖活性发现博尔纳病病毒磷蛋白对PC-12细胞的生长具有明显的抑制作用,可能是博尔纳病病毒持续感染中枢神经系统的重要机制之一。     

接种方式对细胞在三维材料中接种率和分布的影响

考察了静态和动态接种方式对成纤维细胞在胶原壳聚糖支架材料中接种率和分布的影响。将人成纤维细胞制成细胞悬液,分别采用静态接种、转瓶接种和灌注接种方式将细胞接入三维胶原壳聚糖海绵。通过MTT法和切片HE染色分别考察细胞接种率及细胞在三维材料中的分布。实验结果表明：在低的接种密度下静态接种有较高的接种率(889%),但随着接种密度的增加接种率下降显著,细胞结团且分布不均匀;转瓶接种的接种率约为60%,细胞分布也不均匀;灌注接种的接种率始终维持在77%以上,能得到高的起始细胞密度,且细胞分布均匀,是一种理想的接种方式。细胞接种方式的优化为改善工程化组织的结构和功能、缩短体外构建时间奠定了基础。     

APPswe基因慢病毒表达质粒的构建及对其SH-SY5Y细胞生长和凋亡的影响

为考察APPswe基因的表达对细胞生长和凋亡作用的影响,本研究采用gateway分子重组技术构建表达APPswe基因的慢病毒质粒,并将该质粒转染至SH-SY5Y细胞中.用RT-PCR和Western blot技术分别测定APPswe基因的mRNA转录和蛋白翻译水平.活细胞计数法和细胞外乳酸脱氢酶法分别测定细胞存活力和细胞膜损伤程度.Annexin V-FITC/PI染色流式细胞术测定细胞凋亡水平,Hoescht 33342染色观察细胞核形态变化,DCFH-DA染色法测定胞内活性氧水平.转录和翻译水平的验证表明,APPswe基因能够在SH-SY5Y细胞中相对稳定地表达.表达APPswe基因后,细胞的存活能力降低,损伤程度增加,细胞内活性氧水平上升,细胞核浓缩聚集,细胞发生凋亡反应.试验结果表明,APPswe基因的表达对SH-SY5Y细胞生长产生抑制作用,造成细胞损伤和凋亡,表达APPswe基因的SH-SY5Y细胞系可应用于体外AD病理发生机制和药物作用的研究.     

不同固定液对Vero E6细胞形态和染色的影响及在病毒噬斑分析中的应用

病毒噬斑形成实验是确定病毒滴度的重要方法,其中噬斑染色是非常关键的步骤,而良好的固定液不仅能够维持细胞形态,也能起到助染作用,是有效识别病毒噬斑的关键因素.为了研究不同固定液对Vero E6细胞形态和结晶紫染色效果的影响,本研究采用五种固定液对Vero E6细胞进行固定(100％甲醇、4％甲醛、10％甲醛、75％乙醇和95％乙醇).以只加PBS缓冲液的细胞作为对照组.细胞固定30 min后利用1％结晶紫进行染色.利用光学显微镜和肉眼观察细胞形态,从而评价固定和染色效果.结果 显示,10％甲醛的细胞固定效果最佳,细胞形态良好,细胞染色均匀且着色深,利用该固定剂能在病毒噬斑实验中很好的识别噬斑,是Vero E6较为理想的固定剂.     

腺相关病毒作为基因治疗载体在生殖系统中的分布及影响的研究进展

腺相关病毒(adeno-associated virus,AAV)作为一种基因治疗载体被广泛应用于医学相关的各个领域。大量以AAV为载体的基因治疗被应用于药物研究,但目前国内外没有相关的基因药物应用于临床,原因在于其安全性问题有待进一步研究。AAV具有器官靶向性,易于分布在靶器官,但在非靶器官也会分布。AAV在生殖系统的短暂分布降低了对其功能的影响,但不排除潜在影响。就目前的研究结果来看,AAV不会整合在生殖细胞,从而不会对子代产生影响。本文将综述目前以腺相关病毒介导的基因治疗中对生殖系统安全性的研究进展,从载体在生殖系统的分布、对生殖系统功能的影响以及对子代影响的三个方面进行阐述。     

水稻Rubisco和RCA的日变化及其细胞定位

采用免疫胶体金标记电镜技术对水稻(0ryza sativa subsp.indica cv.浙农952)叶片中的Rubisco及其活化酶(RCA)进行细胞器定位和定量,同时用免疫扩散法进行叶片含量分析,研究了这两种酶含量及活力的日变化.结果表明Rubisco主要分布于叶绿体,RCA分布于叶绿体和线粒体中;光合速率(Pn)、Rubisco初始活力和RCA活力与光合日变化密切相关;在光照最强的13时,出现光合"午休",叶绿体中Rubisco的密度有一定程度降低,而全叶的总Rubisco保持稳定,Rubisco初始活力也有明显的"午休",这意味着体内Rubisco的活力除受RCA调节外,可能还与叶绿体中Rubisco的分布有关.RCA活力变化与叶绿体中RCA含量变化较为一致,表明RCA在叶绿体中的分布对调节其本身活力和Rubisco活性有重要作用.     

Distribution and cellular localization of actin depolymerizing factor

Actin depolymerizing factor (ADF) is a low molecular mass (19 kD) protein that forms a tightly bound dimeric complex with actin. We have raised a rabbit antiserum to chick brain ADF and used it to analyze the distribution and cellular localization of ADF. We find that ADF is a major constituent of all chick embryonic and most adult tissues examined, accounting for 0.1-0.4% of the total protein. Some tissues have as much as 0.6 mol ADF per mole actin. Adult heart and skeletal muscle are unusual in having very low levels of ADF: less than 0.02% of the soluble protein. During the development of skeletal muscle, ADF levels are maximal up to approximately 11 d in ovo and then decline to reach their adult levels by 14 d posthatching. Brain tissue and cultured cell lines from several other vertebrates, including mammals, all possess proteins of identical size to ADF that are recognized by the ADF antiserum. No proteins are specifically recognized by the ADF antiserum in extracts from Acanthamoeba castellanii or from nerve tissue of several invertebrates. Indirect immunofluorescence shows that ADF is present throughout the cytosol of most cells and at the leading edge of ruffled membranes and in the neuronal growth cone. Its abundance and widespread distribution together with its ability to sequester actin molecules, even those in an already polymerized state, suggest that ADF is a major factor in the regulation of actin filaments in many vertebrate cells.     

Antisense inhibition of Rubisco activase increases Rubisco content and alters the proportion of Rubisco activase in stroma and thylakoids in chloroplasts of rice leaves

BACKGROUND AND AIMS: Ribulose-1,5-bisphosphate carboxylase/oxygenase (Rubisco) activase (RCA) is a nuclear-encoded chloroplast protein that modifies the conformation of Rubisco, releases inhibitors from active sites, and increases enzymatic activity. It appears to have other functions, e.g. in gibberellin signalling and as a molecular chaperone, which are related to its distribution within the chloroplast. The aim of this research was to resolve uncertainty about the localization of RCA, and to determine whether the distributions of Rubisco and RCA were altered when RCA content was reduced. The monocotyledon, Oryza sativa was used as a model species. METHODS: Gas exchange and Rubisco were measured, and the sub-cellular locations of Rubisco and RCA were determined using immunogold-labelling electron microscopy, in wild-type and antisense rca rice plants. KEY RESULTS: In antisense rca plants, net photosynthetic rate and the initial Rubisco activity decreased much less than RCA content. Immunocytolocalization showed that Rubisco in wild-type and antisense plants was localized in the stroma of chloroplasts. However, the amount of Rubisco in the antisense rca plants was greater than in the wild-type plants. RCA was detected in both the chloroplast stroma and in the thylakoid membranes of wild-type plants. The percentage of RCA labelling in the thylakoid membrane was shown to be substantially decreased, while the fraction in the stroma was increased, by the antisense rca treatment. CONCLUSIONS: From the changes in RCA distribution and alterations in Rubisco activity, RCA in the stroma of the chloroplast probably contributes to the activation of Rubisco, and RCA in thylakoids compensates for the reduction of RCA in the stroma, allowing steady-state photosynthesis to be maintained when RCA is depleted. RCA may also have a second role in protecting membranes against environmental stresses as a chaperone.     

Distribution and cellular localization of prostacyclin synthase in human brain.

Prostacyclin (PGI(2)) is a labile, lipid-derived metabolite of arachidonic acid synthesized through the sequential action of cyclo-oxygenase (COX) and prostacyclin synthase (PGIS). In addition to its well-characterized vasodilatory and thrombolytic effects, an increasing number of studies report an important role of PGI(2) in nociception in various animal species. In this study we investigated the regional distribution of PGIS in human brain by immunohistochemistry and in situ hybridization. PGIS-immunoreactive (ir) protein was localized to blood vessels throughout the brain. Neuronal cells and glial cells, such as microglia and oligodendrocytes, also showed intense labeling. The strongest expression of PGIS was seen in large principal neurons, such as pyramidal cells of the cortex, pyramidal cells of the hippocampus, and Purkinje cells of the cerebellum. Abundance of PGIS mRNA was observed in blood vessels and large neurons and correlated well with the immunohistochemical findings. The expression of PGIS in human brain was further demonstrated by immunoblotting and detection of 6-keto-PGF (1alpha), the stable degradation product of prostacyclin in human brain homogenate. These results demonstrate a widespread expression of PGIS in the central nervous system and suggest a potentially important role of prostacylin in modulating neuronal activity in human brain.     

Preliminary studies on tissue culture and agrobacterium-medicated transformation of Brassica campestris ssp. chinensis]

The hypocotyls and cotyledons of the asepetic seedling of Brassica campestris ssp. chinensis L cv. Pudongaijiecai) were used as explants for tissue culture. Adventitious buds were differentiated on modified MS medium supplemented with TDZ 1-2 mg/L, NAA 0.2-1 mg/L and AgNO3 7.5 mg/L. The percentage of explants which formed buds of cotyledons was about 56%, and that of hypocotyls was about 37%. When the regenerated explants were transferred onto MS medium with 2 i.p. 5 mg/L and NAA 0.1 mg/L for two weeks, whole plantlets were obtained by culturing the regenerated shoots on 1/2 MS medium with NAA 0.1 mg/L. Agrobacterium tumefaciens strain (LBA 4404/PBI 121) carrying the GUS gene and Npt II gene was used for transformation. After 2 days of coculture, the hypocotyls and cotyledons were transferred onto regenerated medium containing CP 300 mg/L for bud formation. After 4-5 weeks, the differentiated buds were transferred onto selection medium with CP 200 mg/L and Km 10 mg/L for 1 month, then the green shoots were transferred onto the rooting medium containing Cef 100 mg/L and Km 20 mg/L. 4-5 weeks later, plantlets with Km resistance were obtained and some of them showed higher enzymatic activities of beta-glucuronidase than control ones.     

Activities and cellular localization of yeast proteases and their inhibitors

We have found that proteases A, B and C of $\text{Saccharomyces cerevisiae}$ are localized in the vacuole. The corresponding inhibitors of these three proteases are present in the extravacuolar cytosol. The compartmentation of the yeast proteases suggests that their function is primarily the intravacuolar digestion of proteins. Yearst cells were grown under various conlitions, and it was found that culture conditions which either induce biochemical differentiation of cells or which do not allow growth result in the enhancement of proteolytic activities.     

Construction of a tobacco master line to improve Rubisco engineering in chloroplasts

The inability to assemble Rubisco from any photosynthetic eukaryote within Escherichia coli has hampered structure-function studies of higher plant Rubisco. Precise genetic manipulation of the tobacco chloroplast genome (plastome) by homologous recombination has facilitated the successful production of transplastomic lines that have either mutated the Rubisco large subunit (L) gene, rbcL, or replaced it with foreign variants. Here the capacity of a new tobacco transplastomic line, (cm)trL, to augment future Rubisco engineering studies is demonstrated. Initially the rbcL was replaced with the selectable marker gene, aadA, and an artificial codon-modified (cm)rbcM gene that codes for the structurally novel Rubisco dimer (L(2), approximately 100 kDa) from Rhodosprillum rubrum. To obtain (cm)trL, the aadA was excised by transiently introducing a T-DNA encoding CRE recombinase biolistically. Selection using aadA enabled transplantation of mutated and wild-type tobacco Rubisco genes into the (cm)trL plastome with an efficiency that was 3- to 10-fold higher than comparable transformations into wild-type tobacco. Transformants producing the re-introduced form I tobacco Rubisco variants (hexadecamers comprising eight L and eight small subunits, approximately 520 kDa) were identified by non-denaturing PAGE with fully segregated homoplasmic lines (where no L(2) Rubisco was produced) obtained within 6-9 weeks after transformation which enabled their Rubisco kinetics to be quickly examined. Here the usefulness of (cm)trL in more readily examining the production, folding, and assembly capabilities of both mutated tobacco and foreign form I Rubisco subunits in tobacco plastids is discussed, and the feasibility of quickly assessing the kinetic properties of those that functionally assemble is demonstrated.     

Distribution and cellular localization of caldendrin immunoreactivity in adult human forebrain.

We investigated by immunohistochemistry (IHC) the distribution of caldendrin, the founding member of a novel family of neuronal calcium-binding proteins closely related to calmodulin, in human forebrain. Caldendrin immunoreactivity was unevenly distributed, with prominent staining in the paleo- and neocortex, hippocampus, and hypothalamus. With the exception of the hypothalamus, labeling was restricted to the somato-dendritic compartment of neurons. This distribution completely matches that reported in rat, indicating that the cellular function is most likely conserved among species. Therefore, one prerequisite for functional studies in rodent models aimed at elucidation of mechanisms with relevance for humans can be based on the present findings.